Crimping pliers for insulated ferrules. Tips nshvi, tml, sleeves. use and crimp. How to use press tongs when crimping insulated ferrules

- Of course, for the entire instrument (with the exception of some Supplies) a guarantee is provided for a period of 1 to 5 years, specifically for hydraulic presses - 3 years.
- At standard work It is recommended to change the oil at least once every two years. If the tool is used frequently, the oil should be changed more frequently. It is not difficult to determine the frequency of oil changes - if the press starts pumping too slowly, or jerkily, then it's time to check and top up or change the oil. When buying a hydraulic tool, you can immediately purchase KBT Hydraulic Oil for subsequent maintenance.
- The resource of the tool is a loose concept. It depends on the intensity of use of the press - you crimp two tips a day, two hundred or two thousand. From the dimensions of the tips - if you crimp only the tips with a section of 25 mm², then the tool will last much longer than if you crimp the tips with a section of 150 mm². And so on.
  According to world standards, the service life of hydraulic tools is about 5,000 crimps, for pressing tongs - up to 10,000. The actual resource of the KBT tool reaches 10,000 and 30,000 pressings, respectively. But that's not the point. The main thing is that with the correct use of the tool and its timely maintenance (replacement of sealing rings, topping up and oil change), the KBT tool is guaranteed from three to five years (depending on the type of product), which best characterizes its resource.
- Yes, they fit. In the models PGR-300 "KVT", PGRs-300 "KVT", PGRs-300A "KVT", PGRs-300AM "KVT", PGP-300 "KVT" and PGP-300A "KVT" matrices are the same. Also, sets of high-precision matrices of the NM-300 "KBT" series are suitable for all these tools.
- Matrices in these tools are made according to a certain “average standard”, which allows for crimping of aluminum and copper tips and sleeves made both according to Russian GOSTs and DIN standards. The quality of crimping with such dies meets all the requirements, and has been verified by many years of tool sales. But if you need to crimp the tip and be sure to get professional result, then we recommend using specialized high-precision dies of the NM-300 "KVT" series, designed for crimping certain series of tips.
- It all depends on the type of quick couplings used. If they match each other, then it is possible. Couplings used on the tool trademark"KBT" have the following characteristics: M22 thread with a pitch of 1.25. If your pump or press has the same thread, then they can be used with KBT equipment.
- Can. But for this, it is necessary to remove the fixed handle from the hydraulic presses, drain the oil, remove the rubber container, and only after that adjust the valve. It is not necessary to drain the oil from the pumps, but you will have to partially disassemble the case. Plus, the valve must be set correctly, which is quite difficult without practice. Based on this, it is better to leave the valve setting to the service center specialists.
- Each tool has its own advantages and depends on the frequency and conditions of its use.
  For example, a mechanical tool can be used at any temperature (including negative temperatures), hydraulic tools can only be used at temperatures from -15 to +50 ° C (the KBT tool uses frost-resistant oil). The mechanical tool requires minimal maintenance, and the risk of breakage is extremely low. With some mechanical tools, you can crimp the tip faster - just press the handles together once.
  It is more profitable to use a hydraulic tool if it is used frequently - working with hydraulics is much easier physically. Most KBT hydraulic presses are equipped with a two-speed pump stroke mechanism, which significantly saves time during crimping. The automatic pressure release valve in the PGRs models protects the tool from damage.
  In a word, the choice between hydraulics and mechanics can only be made by a person, knowing the conditions tool operation.
- Any work should be carried out on a disconnected line. If absolutely necessary, you can use a special tool that is designed for work under voltage and marked accordingly. As of today, there is no such tool in the KBT product line.
- The decision to buy a mechanical or hydraulic tool can be made by a person who knows in what conditions this tool will be used. In this case, the mechanical tool is all-weather and all-weather, requires minimal maintenance, is practically not prone to breakage and works faster (with physical strength) than hydraulics.
- These are specially designed high-precision dies for crimping very specific series or standards of ferrules. 99% of the dies in an inexpensive tool are made according to some “average standard”, and they can be crimped different tips, but the quality of crimping still will not reach the professional level. Until now, specialized matrices at a price of about 80 euros per pair (one standard size) were available only from large European manufacturers. Now they are also in our assortment. Matrices fit the most popular models hydraulic tools - presses PGR-300, PGRs-300, PGRs-300A, PGRs-300AM, PGP-300 and PGP-300A. If you clearly know which tips or sleeves you will use, and the guaranteed quality of the work performed is important to you, then the HM-300 "KBT" series matrices are your choice!
- Such dies are used for crimping various tension, connecting and contact fittings and are made to order. There are four types of dies for each tool: round die "A" for crimping aluminum clamps (an example of designation A-24/PG-60 tons, A-54/PG-100 tons); round die "C" for crimping steel clamps (designation example S-17/PG-60 tons, S-44/PG-100 tons) hexagonal die "MSh-A" for crimping aluminum clamps (designation example MSH-13.8- A / PG-60 tons, MSH-60-A / PG-100 tons); hexagonal die "MSh-S" for crimping steel clamps (example of designation MSh-32-S/PG-60 tons, MSH-48-S/PG-100 tons); To order matrices, you must specify them inner size(depending on the fittings being pressed) and to which press it is needed. Matrix production time is about two weeks.
- The main difference between the KBT tool is that the assembly and quality control is completely carried out at the KBT Kaluga plant. Particularly critical parts are also produced at the factory, other components are obtained from third-party enterprises. The similarity with the tool of other manufacturers or sellers ends appearance, and then, if you do not look closely. Most of the parts that make up the tool differ from similar parts in tools from other manufacturers, which has been repeatedly verified when we were contacted with requests for the repair of third-party tools. We make every effort to ensure that the tool comes out reliable and of high quality. Work is constantly underway to modernize and improve existing models. Warranty repairs and post-warranty service are carried out on the KBT tool.

The use of lugs when connecting wires is an opportunity to improve the quality of contact, thereby reducing contact resistance and heating of the site during the flow of currents. In addition, the safety of the cable is ensured when it is connected using a screw clamp.

The question is which product is better to use. Today, the following lugs for wires stand out - NShVI, TML, NKI, NVI and others. Consider their features, advantages and rules of application.

Decoding and purpose of NShVI

NShVI - type of tip, which is deciphered as follows:

"H" - tip.
"SH" - pin.
"B" - sleeve.
"I" - isolated.

This type of tip is used for crimping copper wires With a large number lived for subsequent connection to devices and assembly electrical circuits.

Pressing is carried out using special tool- tongs for crimping NShVI. In other words, the task of the product is to ensure high-quality contact and integrity of the cores when connected using a screw clamp.

Sleeve NShVI are used for copper wires with a cross section in the range of 0.5-35 square meters. mm. Once the product is installed, solid pins are formed at the ends of multi-core cables, making it easy to connect to a terminal or equipment.

Where are they used and what will happen if end sleeves are not used?

Connecting stranded copper wires without the use of NSHVI leads to damage to the cores, deterioration contact connection and subsequent burnout. In addition, damaged cores are subject to oxidative processes and rust faster.

Tips NShVI (KVT) have a wide scope. They are actively used when connecting sockets and switches, installing machines in electrical panel, connection of RCD and other equipment.

The popularity of a multi-core cable is easy to explain, because it has a number of advantages - flexibility and the ability to pass more current through itself (when compared with a single-core wire of the same cross section). But it is not suitable for screw connection. It is these clamps that are used today in the same AB, switches and sockets.

If you act without clamping, the strands are displaced by the pressure of the screw and damaged. As a result, the reliability of the connection deteriorates and the quality of the contact decreases.

Previously, soldering was used to solve the problem. stranded wires, thanks to which big number Lives become one.

The disadvantage of the method is high costs time. If you need to install a dozen sockets and switches, more than one day will go to work. The use of NSHVI allows you to avoid such problems and speed up the work.

During the installation process, it is worth remembering that the cross section of the wire and sleeve must clearly correspond to each other and be selected taking into account the manufacturer. This is the only way to avoid installation difficulties and damage to the cable. You can be sure that the connection will last for the entire time of operation.

Design and types

The product consists of 2 elements:

CONDUCTING TUBE. In the process of its manufacture, electrolytic copper with obligatory tinning is used.
POLYAMIDE FLANGE, INSULATED.

If to speak in simple words, cable lugs NShVI - copper tubes, processed by electroplating and having one flared end (for inserting a stranded conductor). The second part of the product is a polyamide cuff that provides reliable insulation and voltage protection.

A special type of copper is used in the manufacturing process, which ensures reliable connection at the point of contact and avoid damage to the conductor due to screw pressure. Today you can buy a NShVI tip with a cross section of 0.25-150 mm.

According to the design of the device, there are two types:

Single.
Double.

The first are designed to crimp one, and the second - two stranded wires at the same time. This is their main advantage. For example, when power is applied to the AB (circuit breaker), it is possible to exclude an additional wire jumper from the circuit. Based on the characteristics of each type, the size of the plastic flange varies.

In addition to the type of product already considered, there are other types:

Design nuances and characteristics

The NShVI tip, as a rule, has the following features:

In the manufacturing process, copper type M1 is used;
The upper voltage threshold is 690 V;
The connector surface is subjected to electrolytic tinning;
The dimensions of the connectors are designed for connecting one cable (installation is carried out taking into account the cross section);
Insulation is carried out using polypropylene, which does not contain halogens;
The insulating element has a high thermal resistance- it can withstand temperatures up to 105 degrees Celsius;
Sleeve connectors KBT are made in one color and have common standard DIN. This is done in order to eliminate difficulties during the installation process. In addition, the color is selected taking into account the marking DIN 462228, part 4.
The conductor is crimped on top of the copper sleeve;
Cuff NShVI has a conical shape, which eliminates problems in the process of inserting a stranded wire into inner part bushings.

Product specifications are shown below.

Working methods

When using NShVI tips, the following should be considered:

COLOR "SKIRTS". The product shows the section of the connector. As a rule, we apply the KBT standard, which is characterized by the following:

Black - 1.5 sq. mm;
Blue - 2.5 sq. mm;
Gray - 4 sq. mm;
Yellow - 6 sq. mm;
Red - 10 sq. mm.

It is worth noting that goods from stores deviate from the standard. At the same time, the size of the product and the color do not correspond to the CBT. Minus - in low quality and rapid destruction. That is why, when choosing, you should pay attention to the color of the "skirt" and its compliance with the section.

PACKAGE. As a rule, NSHVI for pressure testing come in packs of one hundred products, which are packed in five pieces in a larger package. It is not possible to purchase such a product by the piece.

If you need to connect two cables, you should not "reinvent the wheel". NShVI-2 connectors of the same type of installation are on sale. For example, if you buy a product for four square meters. mm, it easily accepts two wires per 4 sq. mm.

Crimping tools and their disadvantages

There are two types of tools used for crimping:

Popular crimping tool

The following tool is used to install KBT tips:

WS-04A - the best pliers for beginners. With their help, it is possible to solve the main set of tasks in the process of installing various electrical circuits and assembling shields. Its functions include the ability to bite off and strip wires (cables) having a cross section of up to 10-16 square meters. mm. In addition, it provides recesses for NShVI tips up to 6 sq. mm. (if desired, a cable up to 10 "square" is included) or up to 10 square meters. mm. (includes up to 16" square). On sale you can find WS-04A tongs, which provide dies for crimping NShVI. Their minus is that the matrices can only cope with products of standard sizes up to 6 "square". If you use wires with an underestimated cross section (fake), the connection quality will be poor.
PKVk-10 is a universal tool that is used for crimping conductors of 0.5-10 sq. mm. But this is in theory, because in practice the situation is different. For example, a large force is required to crimp a cable from 6 “square” and higher, and if the crimping force is reduced, the quality of contact when crimping connectors with a small cross section deteriorates. Plus PKVk-10 - in compactness and the ability to crawl even into a hard-to-reach place for installation (if necessary). The tool is best used for crimping conductors up to 4 "square".
STK-03 - powerful pliers that are suitable for large sections (from 10 to 25 "square").
PC-16. Such tongs are useful for crimping TML from 6 to 10 square meters. mm. Manufacturer sets upper limit in 16 sq. mm., but in practice, for crimping such a cable, it is required strong hand and great effort. In general, the tool is not very good, but has affordable price. On sale there is a version of PK-16u - a reinforced version, which is more durable. The tool is suitable for cases where crimping is rarely carried out.
PGRs-70 - Hydraulic Press, which is used for TML and sleeves. Many consider the tool as an alternative to the PC-16. The peculiarity of the press is the availability of interchangeable dies with different cross-sections in the range of 4-70 square meters. mm. With the help of such equipment it is convenient to crimp classic cables - by six, ten or sixteen square millimeters. It does not require a large load and excessive effort.
PKVsh-6 - used for crimping NShVI and NShV from 0.25 to 6 sq. mm., as well as a double tip NShVI-2 with a cross section from 0.5 to 4.0 sq. mm.

As for the Wiedmuller or Knipex pliers, their disadvantage is the large divergence of the handles. As a result, it is difficult to crimp the NShVI with one hand (the length of the fingers is not enough).

To avoid discomfort when performing work, it is worth choosing a tool from the position of ease of use, and not focusing on the brand.

How to crimp NShVI end sleeves?

Before crimping, the wire is stripped using a stripper, a special knife or a stripper. The first option is the most convenient and allows you to quickly get rid of the top insulation without damaging the cores. Stripping is carried out clearly along the length of the sleeve into which the conductor is installed.

As soon as the preparatory work is completed, a sleeve is put on the insulated part. Pre-select a pin sleeve lug (NShVI) of the required length.

When crimping, special tongs are used, which were mentioned above. In the process of doing the work, it is important to know how to use the press tongs. If you violate the technology, the quality of fixation leaves much to be desired.

To avoid errors, the sequence should be like this:

Introduction of the cleaned edge into the sleeve;
Installing the tip in the groove of the tool. It is important to ensure that the insulated part is pressed tightly against the body of the pliers;
Clamping the handle with sufficient force to ensure a secure fit of the connector.

If everything is done correctly, a reliable connection is obtained, and the structure itself is monolithic and strong. The principle of crimping using NShVI-2 is similar. The main thing is to accurately select the cable section. It's easy to do. The first digits show the section, and the subsequent ones (indicated with a hyphen) show the length of the working part.

WS-04A, which was mentioned earlier, is considered the optimal crimping tool in terms of price-quality ratio. Its peculiarity lies in the presence of lower teeth, which ensure reliable crimping of the product. Thanks to the groove, the connector is tightly compressed and cannot be removed.

During the installation of NShVI, consider one nuance - use the section one step below. What does it mean?

For example, if for a cross-module the allowable cross-section of a stranded wire is indicated, equal to 16 sq. mm., after crimping a 16-mm analog with the help of NShVI, the design will not fit into the connector. Here it is worth using a cable of 10 square meters. mm.

The PKVk-10 tool is considered no less convenient, but it is used for smaller sections. After crimping, the connector has a rectangular, and not trapezoidal (as in the previous case) shape.

The advantages of the tool are reliability and ease of use, but even with it there are “punctures” in the form of poor-quality crimping (this nuance should be controlled when doing work).

Clamping wires of different sections into a common lug

Most difficult task during installation (especially for beginners) - combining conductors of various sections in one connector. To avoid problems, you should adhere to the following rules:

Wire of larger and smaller cross section are diverted from each other. This can be done due to the different insulation of the conductors, as well as the diameter margin of the tip skirt. A thinner product is stripped a greater distance, after which it is shifted forward so that it is the first to end up in the tip.
At the second stage, the main wire is inserted into the ferrule until it stops and crimping is performed.

By a similar principle, it is worth acting in the case of double NShVI - first a thin conductor is started, and then the main wires are inserted. It is recommended to use STK-03 pliers for crimping. In the process of work, make sure that the tool does not snap into place. To do this, hold the ratchet lever while crimping.

What to do if there is no crimper on hand?

The situation is more complicated when there is no special tool for crimping NShVI. Here you have to search alternative ways crimping, so as not to disrupt the workflow. One option is tinning with a soldering iron, rosin and tin.

This option is good, but not suitable in all cases. In addition, the work takes time, and with large amounts of work, running with a soldering iron from one place to another is inconvenient.

Some "masters" use ordinary pliers for crimping. The essence of the technique is to press on the tip in several places for reliable fixation. The convenience of the method is undeniable, but when using it, there is a risk of damaging the cores. If earlier this method of installation was acceptable, today it is better to forget about it.

If there is not enough money for an expensive crimper, you can buy more available tool. There are many mites on sale that have decent performance in the price-quality ratio. In addition, it is better to take universal tools capable of performing several functions at once.

Double insulated tips (NShVI-2)

To crimp two stranded conductors, a special connector is used - NShVI-2. Its advantage lies in the ability to connect two wires at once, included in one socket of an electrical device.

In addition, if you need to install several conductors of the same section (for example, 4 by 1.5 sq. Mm.), It is also better to use NShVI-2.

It is useful in cases where it is necessary to separate the lines in the shield to different terminals or, for example, to bring neutral wire with RCD or AV to several terminals at once. Using a jumper in this case will not work.

Popular products in Russia

There are many factories producing NShVI tips in Russia. The leading position in this market segment is occupied by the KBT plant, which is engaged in the production of electrical installation tools and cable fittings, which differ high quality and affordable prices.

Today, the plant's product range includes more than four thousand items, which allows you to choose suitable tool and accessories.

The plant produces the following products:

Cable lugs and sleeves designed for crimping wires and cables.
Bolted lugs and connectors - for easy installation of cable cores. The peculiarity lies in the versatility and reliability of the contact, which allows the product to be used as component materials for heat-shrinkable cable sleeves.

However, please forgive me for the quality of the photos: the idea of the post came to me tonight, and I took some of the photos already in the light table lamp, so their white balance and focus are off. But since I don’t teach specifics and didn’t repeat stupid ones, but general principles and deep ideas, then I can convey information to you with the help of these photos.

Please under cat. The entire post is divided into several parts to make it easier to read. And I also discovered the group Uriah Heep, under which the post at 02:32 in the night somehow went well to be written. Um. Sometimes I think about whether to make an addition to what music or film was written for which post. So, the post was written to the loop "Uriah Heep - Come Back to Me (Acoustically Driven 2001)", performed acoustically.

The time when the shields were assembled with a “hard” wire is gradually becoming a thing of the past. Together with those who are still foaming at the mouth yelling that somewhere in the PUE it is written that the shields should be mounted only with a solid core (for example, electricians from ZhEKs and the Criminal Code periodically try to prove this to me). This is crap and nonsense, because some shields are simply impossible to assemble with a solid core due to its rigidity and other problems.

Any installer who starts assembling panels in in large numbers and loves his work, his hands, his tool, gradually comes to a flexible (stranded) wire and after that he never returns to a monocore. And in my posts I teach you to love yourself and your work. Well, your instrument and the world around. In the end, sooner or later you come to the understanding that you work not for money, but for the sake of improving the world and helping other people. In this case, money somehow appears by itself.

So. It is more convenient to work with a soft wire, because it is easier to bend, it can be beautifully laid in bundles, and shorter connections can be made on large sections: the wire will be easy to lead to the right place, because its flexibility is much higher than that of a monocore.

But there is the most important zapadlo. Not all things are designed for a stranded (soft) core. For example, according to the rules, fixed wiring must be done with cables. And the cables are made monocore from a bunch of different considerations, and all sorts of sockets and switches are calculated for a monocore. For example, spring contacts of switches, WAGO terminals, spring zero tires and other things. And there are a number of things in which the wire is clamped by the end of the screw. These are Chinese terminals, and some connectors and clamps of any equipment.

If you clamp the stranded core into such contacts directly, then the screw will cut the wires of the core, and there will be little left of the useful section. This is bad. Some of the Kulibins are trying to irrigate the vein in the old fashioned way. This is even worse because the solder flows under pressure and melts at a low temperature. Did you know, for example, that with some short circuits, copper busbars and all their fasteners are expected to be heated up to +300 degrees? What will happen in such cases with a soldered or tinned wire? The solder will melt, the contact pressure will weaken, the contact will weaken even more and begin to heat up even more. Until it burns out.

Here, I probably need to say why I think that all sorts of soldering-twisting should be banned in power engineering. The fact is that some wire connections are non-technological. The quality of performance depends on the specific person who makes them. Well, for example, one will make a twist 3 cm long and solder, and the other will make a twist 5 cm long. Who is right? How to evaluate it? Tests in the laboratory. But what's next? A person gets tired, thinks, skips a couple of turns of his twist ... and the technology is broken.

Other connections (crimping, spring terminals), if they are not used thoughtlessly, but considering where which is better, are technological: the contact is made either due to the technology of the terminal itself, or due to a certain tool that is standard for everyone and does the same thing in different hands.

So, in order to turn a soft wire into a “hard” one, special tips are made. We use NShVI and NShVI(2) type tips in shield assemblies. This is a thin metal tube with an insulating skirt. Don't confuse them with shells! The task of the NShVI tip is only to hold the wires of the wire together. And the task of the sleeve is to create an infernal clamping force and electrical contact. Therefore, the sleeve is much thicker, and those Kulibins who use NShVI as an analogue of sleeves are very wrong from the word "completely".

A monocore (rigid, solid) wire should not be crimped with NShVI tips in any case. So, by the way, with the assembly of the shield it turns out. Inside the shield, we collect everything with the PuGV wire and NShVI tips, and “outside” the external lines are connected with a monocore.

But what if we need to twist the wire under the bolt or screw? And for this they invented TML tips. In this tip, as in a sleeve, you can press the wire (solid or flexible, multi-wire), and twist the tip itself where necessary. This solution is used to supply power to busbars, to connect PE or high-power power lines and cables.

And since NShVI is a thin-walled tube, in principle, in some cases, we can cram several smaller wires into this tip, or one large and one small wire. This is something that does not work with solid core when assembling shields. For example, we need to power a frail from an input of 16 squares led light bulb. What to do? In the case of a monofilament, we would have to make some kind of “loop” and seamlessly insert the monofilament into this light bulb. The light bulb would break.

And in the case of NShVI, we slip a thin wire of 1.5 squares under the NShVI for 16 squares and bring it to the light bulb. At the same time I give a remark. That's it, the LED light bulb in this case does not need to be protected. There is nothing special to breathe there. And if it was a voltmeter or other device, then it would be good to stick a fuse on this piece of wire 1.5 squares. In large shields, I began to do so.

2. Tool. Hand size. Why didn't I get hooked on Knipex?

They also asked me to tell you about my instrument. OK, I'll tell you why I can't get off the KBT and why I chose such a tool that was not intended by the manufacturer for the tasks that I hung on it.

What kinds of tools are there for crimping ferrules? There are special pliers with fixed matrices (for KBT, these are pliers of the STK type). The matrices of these ticks sometimes fail if the wire has an underestimated cross section. Well, you also have to keep a bunch of pliers: for single, for double tips. And one more tongs for large sections.

Tongs with a set of matrices. I didn’t like this right away, because I often need to change the crimping cross section. Here we take the same example about input for 16 squares and 1.5 for a light bulb. I press myself NSHVI for 16 squares, and then I need to compress NSHVI for 1.5 squares. What, rearrange the matrix? This is a labor-intensive process, you don’t overdo it much. Therefore, I immediately dismissed such ticks.

To assemble all my shields, I now have the following tool:

KW WS-04A. This is my most basic and much-loved tool. I recommend it to those who are starting to deal with shields or repairs. This tool, due to the undocumented feature of NShVI crimping, covers most of the tasks of assembling shields.
The tool can bite off and strip cables up to about 10..16 squares. And it also has grooves into which the tips of the NShVI fit up to 1x10 (with difficulty up to 1x16) or 2x6 (with difficulty up to 2x10) squares. I will tell you more about this feature when I get to the NSHVI themselves.
Important! There is the same tool WS-04 B with matrices for crimping NShVI. But I don’t like it: the matrices there are made without counting on fake wires and wires of underestimated sections and press the NShVI only up to 6 squares. And with grooves-matrices from WS-04 A you can reap more sections.
With WS-04 A I press the tips into 6 squares. I also chose WS-04A because it is not worth littering workplace bunch of tools. It is good when part of the tool is universal (of course, if this universality does not interfere with the work and quality of the tool).
KVT PKVk-10. This tool is positioned as a universal crimp for NSHVI with sections from 0.5 to 10 squares. But in reality this is not entirely true. In order to squeeze them NSHVI even for 6 squares, you need to have a strong hand and press with all your might. And if you adjust the crimping force down, then it poorly presses small NShVI.
But on the other hand, this contraption is cool and very compact when you need to crawl into a difficult place in the shield and press something there. I use it for crimping just the same small sections - up to 2.5..4 squares.
KVT STK-03. These are severe tongs for crimping NShVI for 10, 16, 25 squares. With them I press NShVI by 10, by 16 squares. And at the position for 16 squares, you can press NSHVI (2) into 10 squares. I will also tell you about this approach.
Since I assemble the shields in parts - first a thick input, then small lines - it turns out that I first work with these tongs, and then I put them aside and do not clutter up the table.
KVT PK-16. These press tongs are suitable for crimping TML sleeves and tips up to 6..10 squares, although up to 16 squares are declared. If your hands are sensitive and you love them, then you will not rape yourself by trying to squeeze the handles with all your foolishness. Press tongs are not very good, but cheap. Now there is a reinforced version of the PK-16u, which is more durable.
In general, if you need to crimp TMLs once every couple of months or press the sleeves once during repairs, then the PK-16u is your choice (take the reinforced version right away).
KVT PGRs-70. This is my new acquisition - a hydraulic press for TML and sleeves as a replacement for PK-16. The press has interchangeable matrices from 4 to 70 squares, which are enough for my eyes for my new tasks (just press TMLki for 50 squares once). TMLs of my common cross-sections (6, 10, 16 squares) are a great pleasure for them to press - their hands do not get tired, no effort is required.

So why not Knipex or Wiedmuller? And a pancake because HANDS. My hands are arranged in such a way that the longer the fingers are extended, the less effort I can create with them. I like my hands and I don't want to be some super macho. I love my sensitive fingers, so I need a tool that has slightly angled handles.

For the article, I took a lot of pictures. Look how WS-04 lies in my hands. The main working fingers (index, middle, ring) lie perfectly on the handle of the tool and I can control its pressing or squeeze it with force.

Knippex-type tools (I wanted to buy their crimp from Valentinych, but I felt it and scored because of the handles) have handles that diverge like on STK pliers. You see, my fingers are already barely enough. In STK, what saves me is that the handles first squeeze the jaws idle and, when the jaws of the matrix reach the very tip, the squeezed handles allow me to intercept the pliers more conveniently and apply force.

Also note that I'm holding them backwards. As far as I understand, the red pen should move, and the black one should lie in the corner between the big and index fingers. But at the same time, a matrix with grooves moves in my hands, and I have to hold the tip and wire - they move along with the matrix. And if I hold the pliers as in the photo, then the wire and tip do not move.

Well, PKVk-10 also has widely diverging handles. Don't think, my fingers are not short and my palm is not like a child's. I just don't like to force my fingers into doing things they're not good for. Let the instrument suffer, not my hands.

In another position of the tool, the same garbage:

Actually, that’s why pathos brands didn’t roll with me, although I felt them. But they did not pass the test for effort and opening of the handles.

3. Tips NShVI, NShVI(2) and how to work with them.

Well, now let's move on to the NShVI tips themselves. Why these tips are created, I already wrote. There are two features worth mentioning:

Skirt color. This color encodes the section of the tip. We usually have the KBT standard, where the tip of 1.5 squares corresponds to black; 2.5 squares - blue; 4 squares - gray; 6 squares - yellow; 10 squares - red. There is also either a branded or Chinese standard, in which a six or a dozen can be brown, green, or whatever the hell. Usually these tips are low quality and their skirts themselves are cracking.
So do not try to look for "10-square tips for phase and zero." The color should encode the cross section of the wire - that's all.
Package. Most often, tips come in packs of 100 pieces, which are packed in packs of five, that is, 500 pieces each. Not everyone sells piece tips. For example, in Moscow, this is Electrical Installation or the store where Igor Valentinych used to work - ElectroMaster.
Double tips. No need to try to invent something to connect two wires in one place. That's what tips are for. NShVI(2). These tips are immediately created for connecting two wires of the specified section. That is, NShVI (2) for 6 squares will take two wires of 6 squares each.

Here you have different samples of tips and the same one crimping Tools, about which I spoke above, when I talked about hands and pens. The bold blue tip is 50 squares =). By the way, double NShVI are not produced for large sections. The maximum of double NSHVI is 16 squares.

Let's take a look at my favorite KBT WS-04A cleaner in action. I will try it on the maximum sections - 10 sq. mm.

First, she bites the wire. Anyone that will fit into the teeth. I sometimes managed to bite her NYM or VVG 3x1.5 or even 3x2.5 squares the second time. In the case of assembling shields, this means that it can cut large wires. I bite off the six with wire cutters with carbide jaws, but I bite the ten and 16 with a stripper.

Well, she also cleans the wire. Normally, it has a stripping length regulator, which I have not taken root and only gets in the way. Therefore, I unscrew it the fuck, and determine the stripping length by the right rivet. For the six, the wire should not reach the rivet a little, and for the ten, it should go a little on it:

Usually, it is enough to squeeze a dozen tips so that the eye and hands remember the position of the wire - and then the cleaning goes on an intuitive level, without occupying the brains.

So, we stripped our wire. It is noteworthy that this cleaner cleans everything that it comes across. She can even remove the insulation from a flat VVG or ShVVP in order to connect temporary huts at facilities. One movement - they pulled off the upper insulation, the second - they stripped two or three cores at once. Just keep in mind that the fatter the wire or cable, the stronger the load on the jaws, which are actually intended for one wire. Therefore, if you constantly clean with such a VVG stripper, then it will quickly die for you.

Well, what I really like is that the rest of the insulation is retained by the stripper sponge if you continue to squeeze the handles. I usually take it to the trash can (the OT63F3 switch box works great). As a result, nothing is lying around in my workspace and it is clean.

And of course, I found a screw zero tavern to spin a bare ten there. See how she was crushed there? Do you see that some of the wires just moved to the sides and are not even pressed?

But what happens to the strands of the wire after such pressure and a screw:

We are not satisfied with this. By the way, this is also bad because if the wire is moved, then all these wires will break one by one, the clamping force will be weakened, and as a result we will get a bad contact.

Look at the matrices (grooves, teeth) of the strippers WS0-04A. It is precisely thanks to the lower teeth that an undocumented freebie and crimping of the NShVI is obtained. If you want to order a Chinese analogue of such a stripper, then order with such teeth!

In this tooth, you can put our NShVI tip like this:

And then press it with a stripper. A pressed place is obtained on the tip:

The groove itself squeezes the tip in this way - quite tightly. The tip crimped in this way is hard to remove from the wire, I tried.

Well, if we repeat such crimps, moving the tip, then in the end we will get just such a picture, as in the photo below. In fact, if you immediately twist your tip into a shield, you do not need to pervert so beautifully. It is enough to make two or three crimp points, and then the tip will be flattened with a contact screw.

Now we twist our tip into the shank and tighten it properly. Here, perhaps, one more ficus should be mentioned for those who not only look at photos in a row, but also read the text around them. In general, if you pinch a wire with a NShVI tip somewhere, then you can safely lower the maximum cross section of the terminal by one step. For example, if it is indicated on some cross-module that it accepts a 16-square monocore, then most likely the NShVI will not fit into 16 squares, but will only fit into 10 squares.

After using the tip, the following is obtained. The pressure of the screw is now distributed to all the cores, because the tip does not allow them to disperse. And due to the thickness of the wall of the tip, the screw does not spoil the individual cores. In this case, such a screwed wire can be bent as much as you want - the individual veins are “tied into a bundle” and will not break.

Let's have fun with PKVk-10. As I said, I use it for small sections. It is a pleasure to press them with it. I stuck the tip, squeezed it - and got it!

This crimp has a different design: the jaws have four edges and converge on all sides. The result is not a trapezoidal, but a rectangular crimp profile. Sometimes this helps to win precious microns of tip width, which does not want to go into some particularly small automation terminal.

Sometimes the crimping tool gets stuck (from frequent use it loosens a little) and it jams part of the tip. It's okay if you're not a perfectionist.

Well, here is the double tip NShVI (2) for 6 squares. When I first bought them, I was terribly blunt with their sections and tried to look for NShVI (2) for 12 squares. In fact, everything is calculated for you and me. These lugs have a wider wire skirt and are specially designed for two wires. Sometimes I see shields where people use a 10 tip for 2x6 squares. This is bad. I did it myself, but as soon as I began to collect more than one shield in three months, I bought NShVI (2). Don't waste your money, do it right!

Such NSHVI can also be safely squeezed by the same WS-04A. That is why I say that if you want to do your own electrical repairs and assemble a small shield, then start with WS-04A.

The result is a digestible contraption. It should be borne in mind that the NSHVI (2) is 6 squares slightly longer than the usual NSHVI and in order for it to correctly fit into the machine or RCD, it will need to be bitten off a little (by ~ 2 mm).

Well, I press the big tips with ticks STK-03:

It turns out like this. The matrix is cool and presses the tip very well!

4. Clamping wires of different sections into one tip of the NShVI

Now let's talk about undocumented chips for mounting shields with a soft wire using NShVI tips. The first task is to remove a small wire from a large-section wire. It is implemented due to the fact that not all wires have thick insulation, and the tip skirt is made with a margin in diameter.

Therefore, we can simply slip a small wire next to a large one. Here I have a wire for 6 squares and 1.5 squares.

I strip a small wire longer than the main one and move it forward so that it goes into the tip first:

This is how it is. I need the wire insulation to fit into the tip skirt.

After that, I just have to push the main wire all the way and crimp the tip.

The same thing can be turned with double tips. I'll take for example the top ten and the same one and a half.

We start again with a half. We bring it inside to the beginning of the metal of the tip, and then we push the main wires.

I press the tips of NShVI (2) for 10 squares on a matrix of "16" STK-03 pliers. So that the pliers do not snap into place, I hold the ratchet lever.

It turns out here is such a crimping, also durable and of high quality.

And I also developed the same technique to the point that you can simply take a few small-section wires (for example, 4 pieces of 1.5 squares each) and stuff them all together into a suitable NShVI (it is better to use a double NShVI tip (2)). This is necessary if we separate the lines in the shield to the terminals and, for example, we need to take zero from one machine or RCD to several different terminals at once (where the jumper is not suitable).

Then we can do something like this. In NShVI (2), three wires per 2.5 or four per 1.5 climb into 4 squares.

5. Production of long NShVI (for counters)

I’ll mention the long tips as a separate item. They are most often needed to connect meters, because the usual NShVI tip is enough for exactly half of the terminal. If you are constantly working with meters (or those that require such long NSHVI), then you can clearly order them. But for example, I connect one meter every six months.

So I just press two tips one after the other. This can be done in two ways. One is to press two NShVIs on the opposite side and bite off the skirt of the second. But there it is hard to get the veins into the tube of the tip - after all, on the opposite side it does not have a skirt.

Therefore, I do the opposite - I bite off the skirt at the tip (my side cutters with carbide jaws are just visible here). To do this, it is enough to bite off sharply almost to the very edge. Then it cracks and is easily removed.

As a result, with careful execution, we get the following construction:

That's all with NShVI. Let's move on to more evil things. And then I'll go to sleep ;)

6. TML tips and tools for their crimping. Sleeves.

Well, now let's dive into the world of thicker copper. Tips of the TML type accept both a monocore and a stranded core, because they are actually made from GML sleeves, which are used for. One of the edges of the sleeve is simply flattened and a hole is stamped in it. Therefore, everything that I will describe below will be applicable to cartridge cases.

These lugs are useful when you need to screw PE onto the shield body, make the transition from a steel ground strip to copper near the facade of the house, how to sort out the connection of the old floor shield body to riser zero ... and much more. Here's what you need to know about TML tips:

They differ not only in cross-section, but also in the diameter of the hole for the screw / bolt. For example, you can find TMLki for 10 squares for an 8 mm bolt or a 10 mm bolt.
The shape of their plane, which is screwed on, does not fit into all places. For example, not all tips fit into molded case machines (TMax and others). TMLki barely fit into my TMax XT1 for 25 squares. Therefore, for such cases, it is necessary either to buy special tips (they are called TML DIN by KVT), which have a narrow contact pad specially designed for such machines, or order special elongated leads for the machine (this is useful if no one knows who will connect the cables after the machines and it will not have special tips).

Well, it’s clear that these tips have a thick wall and you can’t press them with any WS-04 or pliers. And here you need press tongs. If you need to press TMLki once or twice or press 100 shells for repairs in your apartment once or twice for repairs, then you can take KVT PK-16 or PK-16u (reinforced version, I did not buy it and will not - because the hydraulic press bought).

ATTENTION! I here periodically see attempts to wriggle out here. For some reason, some people try to press the tips of the NShVI with such press tongs. This is not correct at all! Such pliers develop a lot of pressure and press pointwise, and because of this they can break through the thin tubes of the NSHVI tip! Don't do it! Buy the same WS-04A!

In PC-16, over time, such a glitch comes out: if you often press them into sections of 10 or 16 squares (for which they, however, are designed), then their lips break out like this:

My PK-16 served me faithfully for four years, because I pressed or mostly TMLs into 6 squares (PuGV climbed into them with force by 10). But as soon as I started pressing dozens with them, the sponges began to bend.

I will show you how you can pressurize TMLka with such tongs. We clean our top ten for the crimping length:

Well, let's press on. The effort that must be applied to the PC-16 is infernal. My hands don't like it. As I already said - choose the right tool, feel yourself, your strength and hands. It's one thing if you press something once a month. And if every ... at least a week - then take care of your hands! Love yourself!

Here's how the lips warp:

For crimping TMLki, two points are enough. I did one in the front and one in the back. See how the tip was cut off during crimping due to misalignment of the jaws?

From the back it looks the same. This is not fatal and will work, so PC-16 (I say it again) have the right to life. By the way, if you have chosen everything correctly, then the conditional number of the matrix will be printed on the tip. This means that the pressure for crimping was sufficient.

Well, what to do when you need to press something into sections larger than 10 or 16 squares? For example, I now needed to press TMLki for 25 and 50 squares:

I'm sorry, what? Buy hydraulic press! When I was afraid to buy it, I thought that it would cost thousands so under 20-40. But it turned out that it costs under 6-8 sput, depending on the model! That is, it is available quickly if you start to need to press a lot. Say, you can even buy it for some object in advance. And this is good!

I bought a PGRs-70 press. He presses everything he can (TML, GML), from 4 to 70 squares. The kit comes with the entire set of matrices for these sections. Such a press is already a serious contraption that greatly facilitates the work.

The press develops pressure up to 5 tons. So he will crush his fingers at the moment. Even in press models with the letter "c" (PRG With) automatic release of pressure is provided when the pressure test is completed. I note that this pressure relief rarely works for me. I noticed that this is related to the speed of pressure on the press handle. If you press hard and hard, then the auto-pressure release works. And if gently and smoothly, like me, it doesn’t work.

Here are the matrices that come with the press:

The matrices are snapped into the holes at the bottom and top of the press:

This press has a small bug. Sometimes matrices can warp a little. But unlike PK-16, this will not affect the quality of crimping, because the dies are wide and they should (as it seems to me, according to the designers' idea) automatically align.

In order for them to pressurize something, it is necessary to close the valve. The tap is a small knob on the press cylinder. It closes by hand very easily. If it is closed, then the press pumps up pressure and does not release it. And if the valve is opened, then the pressure is released, and the press cylinder smoothly goes down.

I press the tips like this. First, I adjust the dies closer to the place of crimping, so as not to do three things at once (hold the press, the tip and swing the lever):

After that, with light pressure, I move the sponges to grab the tip with them:

Well, then I press it all the way.

After that, I step back and repeat the crimping once for beauty.

Shall we indulge?

Here's what it looks like (25 and 50 squares):

I thought that it would be difficult to press on large sections. No matter how! As I pressed on the handles easily, I pressed. The press doesn’t care what you have clamped there: 6 squares or 50. I liked it so much that now I press everything only with this press and on PK-16 scored completely nafig. Well, then you just need to put the tips in heat shrink and you get something like this (automatic machines without covers):

Actually, I bought this press to crimp these wires.

7. Working knife.

Well, as a bonus, I want to tell you about my favorite knife, which I once found in Leroy (now they are not sold there) and at Rozhdestvenka on Mitki. This knife lies perfectly in the hand, does not slip anywhere and is used by me everywhere - to cut, cut, cut.

This knife has a magazine with interchangeable blades inside (you can load 3-4 pieces). And these blades can be quickly changed automatically.

To change the blade, move it all the way forward. Then the piece of iron that fixes the blade will rise and release the blade. And then we move the handle all the way back, and it picks up a new blade from the magazine.

Well, there is also a screw to fix this blade.

I will not part with this knife either, because it covers all my tasks. When the blade is twisted, it can cut plastic without any problems! I finished this post at 04:31. Go to sleep!

Insulated pin sleeve tip (abbreviation NShVI) is designed for crimping stranded copper wires, and allows you to firmly and quickly fix them to any devices or connectors. The end of the cable is crimped using a special tool. Such a connection does not require much effort and is very reliable. Often, pliers are used to clamp the NShVI-tip of screw fixation. In this article, we will consider the main types and sizes of NSHVI tips, as well as the rules for their crimping.

Tip design

The tip consists of two parts:

Conductive tube, which is made of tinned electrolytic copper.
Insulated flange made of polyamide.

For their manufacture, special copper is used. It is this connection that makes it possible not to damage the conductor itself in the places of screw fastening during clamping. NSHVI are produced with a section from 0.25 to 150 mm. The material from which they are made is subjected to galvanic tinning.

Dimensions of NShVI and NShVI-2, as well as their color coding provided in tables:

Tips NShVI are of two types: single and double. The advantage of the dual design is the ability to crimp two stranded wires. For example, they can be used instead of a jumper wire to supply power to a circuit breaker. Such tips are used for two wires included in one socket of an electrical appliance.

The difference between single and double tips is in the form of a plastic flange. For singles, one wire is intended, and for doubles, two, so they have a more extended flange.

The video below clearly shows what wire lugs are and how to use them correctly:

Scope and rules for crimping

The use of NShVI allows you to protect the conductor from overheating due to damage to the contact, from pinching or breaking the current-carrying core when the screw contact is tightened strongly. They protect the cable cores from damage due to the fact that the screw clamp is in contact with the ferrule tube and not with the core itself. In this case, the contact strength will not suffer, but rather increase. The photo clearly shows what a wire crimped with a tip looks like:

Exist different sizes sleeves, based on the cross section of the conductor. For convenient use, the manufacturer marked them in different colors that you already noticed. Almost every manufacturer has a different color coding, and cheap manufacturers may not have such a marking at all.

The crimping process is not laborious and simple, but it is necessary to approach responsibly preparatory work. Before crimping the wire, it should be carefully stripped with an insulation stripper, stripper or special knife. For example, a stripper or stripper speeds up the stripping process, and they are also very convenient to use.

Errors when crimping conductors with lugs, as well as correct installation NSHVI are clearly shown in the photo:

With regard to the use of a special tool, an electrician can determine for himself whether he needs it or not. Such stripping is carried out exactly along the length of the sleeve into which the cable will be inserted.

The next step is to put the sleeve on the insulated part of the cable, but before that, you should correctly select the required diameter of the NSHVI. For crimping, press tongs or crimping tongs are used.

It is important to know how to use the press tongs, otherwise the cable will not be securely fastened. Therefore, at the beginning, the stripped end of the wire should be inserted into the sleeve, then the formed tip is placed in the groove of the press tongs, and its insulating part should be adjacent to the body of the tongs. After that, you should clamp the handles of the press tongs, then you can connect the finished connection to the electrical equipment. The photo below clearly shows how crimping should be performed:

As a result of combining wires, where NShVI is used, a reliable, high-quality connection will be obtained, because thanks to these caps, a monolithic structure is obtained.

It is also important to know what the NShVI-2 tip is used for. Its main purpose is to connect two different wires, which are subsequently connected to one socket of electrical equipment. The principle of crimping a double cap is absolutely no different from crimping a single cap. It is important to remember that the cap must be selected according to the size of the cable. To ensure that the conductor exactly matches the diameter of the sleeve. This rule applies to both types of NSHVI.

The cross section of the core is indicated by the first numbers on the tip, and the next numbers, which are written with a hyphen, indicate the length of the working part of the wire cap; measurements are in millimeters. The main colors used for caps are red (0.5-1.5mm), blue (1.5-2.5mm), and yellow (4.0-6.0mm).

The video below clearly shows how to compress the wire with a double tip NShVI:

It is also important to talk about the use of NShVI to connect electrical appliances. Today, the most popular wire, which is used to connect sockets and switches, as well as for wiring and mounting machines in an electrical panel, is certainly a copper stranded cable. However, it is not suitable for screw connections, which are inherent in most types of sockets and switches, as well as machines. Because of this, the cable that is connected to the socket or to circuit breaker, is displaced by a screw, as a result of this, the cores are moved apart along the mounting socket and damaged by the clamping screw. That is why the wire loses the reliability of the connection, as well as the quality of the contact.

Initially, to solve this problem, they used the soldering of the ends of the wire, in this way all the cores were combined and became one. However, such a process took a lot of time, because during the installation of electrical wiring, more than a dozen sockets and switches are installed, not to mention the installation of an electrical panel where automatic machines and are mounted. Therefore, today NSHVI is ideal solution similar problems. If you choose the right caps for the cross section of the core, then the installation and installation of the conductor to the electrical equipment will take several minutes. The connection will look like this:

It should be remembered that the dimensions of the cross-sectional ratios of the sleeves and the cable are provided by the manufacturer, and they must be observed exactly. This will avoid problems with cable damage and the connection will work reliably throughout the entire service life. It is also necessary to have good tool, which will greatly facilitate the installation process, and with which you can crimp the tips with high quality. Careful adherence to technological norms will contribute to reliability and quality.

Now you know what NShVI tips are for, what types and sizes of these devices are, and, no less important, how they are properly crimped. We hope that the prepared material was useful and understandable for you!

You probably don't know: