RU185633U1 - DEVICE FOR RHITCHING THE APPENDIX TUBE OF THE COPPER TUBULAR CABLE TERMINAL - Google Patents

Abstract

The invention relates to devices for straightening copper electrical products, namely, devices for straightening the lead-in section of the tubular part of the copper tubular cable lug used for crimping wires and cables of cable products of electric locomotives by crimping. Device for straightening the lead-in section of the tubular part of the copper tubular cable lug made with an end edge perpendicular to its axis with a chamfered beveled inward pipe part, includes an expander b and a fixing device for at least one tubular cable lug to be straightened. The expander is made in the form of a punch with an inlet conical and calibrating cylindrical sections, an expansion cone with an angle at its apex corresponding to the angle of the chamfer in the pipe part of the tubular cable lug and a handle with a shoulder on the side of the expansion cone and flat with a butt plate chamfered at its free end for perception of the formative axial force. The locking device is made in the form of a housing with at least two flat faces - with an upper and lower one and at least one through two-stage hole intended for installation during straightening of a tubular cable lug and exiting with an opening with a smaller diameter onto the upper flat face case, and with a hole with a large diameter - on the lower flat face of the case. Through each hole with a large diameter of the two-stage hole, two holes were made with axes parallel to each other and intersecting with the axis of the hole with a smaller diameter of the two-stage hole. A fixed lateral stop is installed in one of these openings, and in the other there is a removable stop for the tubular cable lug providing loading of the straightened tubular cable lug from the side of the lower flat face of the casing in the upside down position. In this case, the nominal diameter of the punch handle is identical to the nominal diameter of the hole with a smaller diameter of the two-stage hole, the punches are stored in the housing with the handles placed downward in the two-stage holes, resting on the removable stops, and the punch handle is fitted in the specified hole with a gap. The housing can be made in the form of a straight rectangular prism. The lateral limiter and the removable stop of the straightened tubular cable lug are made in the form of round rods, while the rod of the removable stop is equipped with a round handle. At the punch, the entry conical section is made in the form of a truncated cone with an angle at the apex of the cone of not more than 30 °, and the calibrating cylindrical section with a length of at least 0.8 diameter of the tubular workpiece of the tubular cable lug and a nominal diameter equal to the nominal inner diameter of the tubular workpiece of the tubular cable tip and made in the landing system of the main shaft is not coarser than 11 quality. Moreover, the calibrating cylindrical section is implemented within the tolerance on its diameter cone-shaped, in which a larger diameter faces the expansion cone. The expansion cone of the punch is made with a diameter of the base of the cone equal to the sum of the nominal value of the outer diameter of the chamfer and its upper limit deviation and made in the landing system of the main shaft no coarser than 11 grade. The punch and removable stop handles are made with corrugations. The technical result is to improve working conditions, increase the percentage of shelf life of tubular cable lugs, increase product quality and labor productivity when terminating wires of wires and cables of cable products of electric locomotives.

Description

The utility model relates to devices for straightening copper electrical products, namely, devices for straightening the lead-in portion of the tubular part of a copper tubular cable lug used for terminating conductors of wires and cables of cable products of electric locomotives by crimping.

When terminating the conductors of wires and cables of cable products of electric locomotives by the crimping method, often there are problems in refueling the conductors of wires and cables into the pipe parts of copper tubular cable lugs associated with deviation from roundness of the pipe ends of the tubular cable lugs, for example, ovality, the presence of burr in the inner part of the lead-in chamfers of pipe parts of copper tubular cable lugs, increased diameter of conductors of terminated wires and cables and manufacture of pipe billets according to the maximum deviation iyam minimum inner diameter. The more flattened the tubular portion of the tubular cable lug, the smaller the area of the hole for refueling the conductors of the wire or cable.

Known stamp for distribution, designed for the shaping of hollow billets (see Averkiev Yu.A., Averkiev A.Yu. Cold stamping technology: Textbook for universities in the specialty "Machines and technology for metal forming" and "Metal forming." - M .: Engineering, 1989, pp. 207-215, Fig. 9.25). It is a special stamp in mass and large-scale production for shaping in hollow billets, for example, in pipe, by distribution. Its working body is a rigid integral punch with gradually increasing dimensions in cross section. In the simplest case, this is a straight circular cone. Penetrating into the hollow billet plastically deforms it. The function of the fixing device of the hollow billet is performed by the support rod together with the sliding sleeve. This stamp can be used to restore the deformed shape of hollow parts by distributing, for example, restoring the inner cylindrical surfaces of tubular parts.

A disadvantage of the known stamp is that it is irrational to use for the distribution of hollow billets in a single and small-scale production, especially when correcting unacceptable surface shape deviations.

The closest in technical essence to the claimed utility model is the expanders of the company ROTHENBERGER for copper pipes (see Catalog ROTHENBERGER GLOBE 2012/2013. Equipment and tools for mounting pipes, p. 60-64). Extenders are represented by a wide variety of models. Using such a tool, it is possible to quickly prepare copper pipes for the formation of reliable and tight joints. The expander is also successfully used for the manufacture of fitting elements - tees, couplings, etc. For joining copper pipes, it is enough to expand one so that the other fits into it closely. The purpose of such a tool as an expander for copper pipes is fully consistent with its name. It is necessary when it is required to form a section with a certain inner diameter at the end of the cut pipe. It is necessary to create expansion at the end of the copper pipe in those cases when it is connected to another element of the formed pipe. A hand tool expands the pipe by pressing the handles. The end of the second pipe is tightly inserted into the socket obtained with the help of an expander, the inner diameter of which is strictly controlled, after which the brazing of two pipe products is carried out. Among the useful characteristics of the expander for copper pipes, it is worth highlighting the following:

- This tool allows you to perform a slight expansion of the end of the pipe, and not its expansion. It is designed to prepare the tubular product for installation that does not involve the use of threaded elements.

- The design of the tool is specially designed in order to ensure a qualitative expansion of the pipe end to the required geometric parameters.

- The main working body, with the help of which an expander designed for processing copper pipes, acts on the walls of the product, thereby increasing its diameter, is a head equipped with six expandable petals, thereby increasing its diameter.

- The handles of the tool, to ensure the convenience of working with it, are made of durable and lightweight metal alloy.

In the modern market, various types of pipe expanders are presented - pneumatic and with manual transmission. The main difference in the operation of such devices is only in the fact that their working head is connected with drives of various types. The handles, with the help of which the expander for processing pipes of manual type is actuated, are specially made elongated so that, acting as a lever, they facilitate the work with such a device. Using an expander of this type, all manipulations with it should be performed as carefully as possible, otherwise there is a risk of breaks on the surface of the pipe. As a fixing tubular billet device used bench vise and clamps. At the same time, to protect parts from damage when fixing in a vise, special safety pads are used - bibs worn on hardened jaws of a vise. The above-mentioned tool for expanding pipes can be used to correct ovality in the tubular part of a copper tubular cable lug in production when terminating conductors of wires and cables of cable products of electric locomotives by crimping.

A disadvantage of the known expanders is the high cost, the need for equipped bench space, low productivity due to the piece processing of tubular parts and the need for careful adjustment and control to prevent rupture of the processed tubular parts.

The technical result, which is achieved by the claimed utility model, is to improve working conditions, increase the percentage of shelf life of tubular cable lugs, improve product quality and labor productivity in the termination of wires and cables of cable products of electric locomotives.

The specified technical result is achieved by the fact that in the device for straightening the lead-in section of the tubular part of the copper tubular cable lug, made with a face edge perpendicular to its axis with a chamfer beveled inward, includes an expander and a fixing device for at least one tubular cable lug subjected to straightening. The expander is made in the form of a punch with an inlet conical and calibrating cylindrical sections, an expansion cone with an angle at its apex corresponding to the angle of the chamfer in the pipe part of the tubular cable lug and a handle with a shoulder on the side of the expansion cone and flat with a butt plate chamfered at its free end for perception of the formative axial force. The fixing device is made in the form of a housing with at least two flat faces - the upper and lower and at least one through two-stage hole designed for installation during straightening of the tubular cable lug and exiting with an opening with a smaller diameter onto the upper flat face of the housing , and with a hole with a large diameter - on the lower flat side of the housing. Through each hole with a large diameter of the two-stage hole, two holes were made with axes parallel to each other and intersecting with the axis of the hole with a smaller diameter of the two-stage hole. A fixed lateral stop is installed in one of these openings, and in the other there is a removable stop for the tubular cable lug providing loading of the straightened tubular cable lug from the side of the lower flat face of the casing in the upside down position. In this case, the nominal diameter of the punch handle is identical to the nominal diameter of the hole with a smaller diameter of the two-stage hole, the punches are stored in the housing with the handles placed downward in the two-stage holes, resting on the removable stops, and the punch handle is fitted in the specified hole with a gap. The housing can be made in the form of a straight rectangular prism. The lateral limiter and the removable stop of the straightened tubular cable lug are made in the form of round rods, while the rod of the removable stop is equipped with a round handle. At the punch, the entry conical section is made in the form of a truncated cone with an angle at the apex of the cone of not more than 30 °, and the calibrating cylindrical section with a length of at least 0.8 diameter of the tubular workpiece of the tubular cable lug and a nominal diameter equal to the nominal inner diameter of the tubular workpiece of the tubular cable tip and made in the landing system of the main shaft is not coarser than 11 quality. Moreover, the calibrating cylindrical section is implemented within the tolerance on its diameter cone-shaped, in which a larger diameter faces the expansion cone. The expansion cone of the punch is made with a diameter of the base of the cone equal to the sum of the nominal value of the outer diameter of the chamfer and its upper limit deviation and made in the landing system of the main shaft no coarser than 11 grade. The punch and removable stop handles are made with corrugations.

The essence of the claimed utility model is illustrated by drawings, where

in FIG. 1 - shows an isometric view of the device for straightening the lead-in section of the tubular part of the copper tubular cable lug in the working position;

in FIG. 2 is an isometric sectional view of an apparatus for straightening a lead-in portion of a tubular portion of a copper tubular cable lug in a working position;

in FIG. 3 - shows a top view of the device for straightening the lead-in section of the tubular part of the copper tubular cable lug in the working position;

in FIG. 4 shows a section AA in FIG. 3;

in FIG. 5 - section BB is shown in FIG. 3;

in FIG. 6 is an isometric view of a tool for straightening a lead-in portion of a tubular portion of a copper tubular cable lug in a storage position;

in FIG. 7 is an isometric sectional view of an apparatus for straightening a lead-in portion of a tubular portion of a copper tubular cable lug in a storage position;

in FIG. 8 is a perspective view of a tubular cable lug;

in FIG. 9 is a perspective view of a punch of a tool for straightening a lead-in portion of a tubular part of a copper tubular cable lug.

Due to the fact that the graphic image of the figures of the claimed utility model is poorly read with the vertical arrangement of the long sides of the sheet, it was advisable to arrange the sheets horizontally, which allowed to significantly enlarge the drawings.

In the device 1 for straightening the entry portion 2 of the pipe part 3 of the copper tubular cable lug 4, made with an end edge 6 perpendicular to its axis 5 with a chamfer 7 beveled inwardly of the pipe part 3, includes an expander 8 and a fixing device 9 for at least one straightening of the tubular cable lug 4. The tubular cable lug 4 also includes a flat clamping part 10, made by flattening one of the ends of the tubular workpiece. The expander 8 is made in the form of a punch 11 with an inlet conical 12 and a calibrating cylindrical 13 sections, an expansion cone 14 with an angle of 15 at the top 16 of the expansion cone 14, corresponding to the angle 17 of the chamfer 7 in the pipe part 3 of the cable lug 4, and the handle 18 with the shoulder 19 with sides of the expansion cone 14 and with a flat butt plate 21 slanted on the chamfer 20 at its free end to absorb the forming axial force. The locking device 9 is made in the form of a housing 22 with at least two flat faces - the upper 23 and the lower 24 and at least one through two-stage hole 25, intended for installation during straightening of the tubular cable lug 4 and exiting with an opening with a smaller diameter 26 on the upper flat face 23 of the housing 22, and with a hole with a large diameter 27 on the lower flat face 24 of the housing 22. Through each hole with a large diameter 27 of the two-stage hole 25, two holes 28 and 29 with axes 30 and 31 are made, respectively In fact, parallel to each other and intersecting with the axis 32 of the hole with a smaller diameter 26 of the two-stage hole 25. The hole 28 has a fixed lateral stop 33, and the hole 29 has a removable stop 34 for the tubular cable lug 4 to ensure loading of the straightened tubular cable lug 4 with side of the lower flat side 24 of the housing 22 in the side of the housing turned upside down. In this case, the nominal diameter of the handle 18 of the punch 11 is identical to the nominal diameter of the hole with a smaller diameter 26 of the two-stage hole 25, the storage of the punches 11 is carried out in the housing 22 with placement in the two-stage holes 25 with their handles 18 down supported by removable stops 34, and the landing of the handle 18 of the punch 11 in the specified hole 26 is carried out with a gap. The housing 22 may be made in the form of a straight rectangular prism. The lateral limiter 33 and the removable stop 34 of the grooved tubular cable lug 4 are made in the form of round rods, while the rod 35 of the removable stop 34 is equipped with a round handle 36. At the punch 11, the entry conical section 12 is made in the form of a truncated cone 37 with an angle of 38 at the top of the cone more than 30 °, and the calibrating cylindrical section 13 with a length of not less than 0.8 diameter of the tubular billet of the tubular cable lug 4 and a nominal diameter equal to the nominal inner diameter of the tubular billet of the tubular cable konechnika and planting system made in the main shaft 11 is not coarser quality class. In this case, the calibrating cylindrical section 13 is implemented within the tolerance on its diameter conical, in which the larger diameter faces the expansion cone 14. The expansion cone 14 of the punch 11 is made with the diameter of the cone base equal to the sum of the nominal value of the external diameter of the chamfer and its upper limit deviation and made in the landing system of the main shaft no coarser than 11 quality. The handles 18 of the punch 11 and the removable stop 34 are made with corrugations 39 and 40, respectively.

The proposed device is mobile and allows the electrician directly at the workplace to eliminate gratings (burrs on the product) on the entrance chamfer and to ensure the round shape of the tubular part of the tubular cable lug and the inner diameter of the tubular part of the tubular cable lug close to the nominal diameter of the tubular workpiece. This is done as follows. In the openings with a smaller diameter 26 of the two-stage openings 25 with the housing 22 turned upside down and the removable stops 34 removed from the side of the lower flat face 24, the tube part 3 is installed with the pipe part 3 forwards, the straightened tubular cable lugs 4. Then they are fixed from falling out of the mounting holes 29 of the removable stops 34. The tool 1 is installed on the lower flat face 24. In the pipe parts 3 of the straightened tubular cable lugs, punches 11 are laid. The straightening tool is ready for use. The straightening of the tubular cable lugs 4 is performed by blows with a bench hammer. To ensure a concentrated strike, it is recommended to use a round hammer hammer. When hitting a hammer with a round striker on the punch, the interaction of the hammer striker with a flat butt pad 21 occurs normal to the flat butt pad. This eliminates the occurrence of lateral forces, creating an undesirable bending moment. Chamfer 20 eliminates the buckling of metal from hammer blows over the cylindrical surface of the handle 18. During movement of the punch 11 from hammer blow, its calibrating cylindrical section 13 restores the circular shape of the inlet section 2 of the pipe part 3 of the tubular cable lug 4, if it is buried on the chamfer 7, it comes off from the base metal, or is pressed into the wall of the pipe part 3. When the inner diameter of the pipe part 3 is less than the nominal diameter of the pipe billet, the extension section 2 is expanded. The expansion cone 14, having a diameter at the base of the cone also has a larger effect than the large diameter of the chamfer 7 of the tubular cable lug 4. The movement of the punch 11 in the pipe part 3 of the tubular cable lug is limited by the shoulder 19. The conical shape of the calibrating cylindrical section 13 and the expansion cone 14 during straightening cause a wedge effect, which ensures the unhindered extraction of punches 11 from the pipe parts 2 of the tubular cable lugs 4 due to the elastic forces tending to push the plunger 11 outwardly. The calibrating cylindrical section 13 of the punch 11 is made with a length of not less than 0.8 diameter of the tubular billet of the tubular cable lug 4 to ensure reliable basing when installing the tubular cable lug 4 in the tubular part 3 (see Dunaev P.F., Lelikov O.P., Varlamova L.P. Tolerances and Landing, Justification of Choice: Textbook.Manual for students of engineering universities.- M.: Higher school, 1984, p. 41). For each type and design dimensions of tubular cable lugs must be their own adaptation. Ural Locomotives LLC has mastered the editing of TML / TM 150-12-19 tubular cable lugs widely used in electric locomotives. The above straightening increases the percentage of shelf life of tubular cable lugs, provides free threading of wire strands into their pipe parts and improves working conditions and productivity.

Claims (6)

1. The device for straightening the lead-in portion of the tubular part of the copper tubular cable end, made with a face edge perpendicular to its axis with a bevel chamfered inward, containing an expander and a fixing device for one tubular cable end to be straightened, characterized in that the expander is made in in the form of a punch with an inlet conical and calibrating cylindrical sections, an expansion cone with an angle at its apex corresponding to the angle of the chamfer in the pipe part and a tubular cable lug, and a handle with a shoulder on the side of the expansion cone and flat with a beveled bevel on its free end for perception of the forming axial force, and the fixing device - in the form of a housing with two flat faces - the upper and lower and one through two-stage hole designed for installation during straightening of a tubular cable lug and exiting with a hole with a smaller diameter to the upper flat face of the housing, and with a hole with a large diameter to the bottom a flat face of the body, while through the hole with a large diameter of the two-stage hole, two holes are made with axes parallel to each other and intersecting with the axis of the hole with a smaller diameter of the two-stage hole, in one of which the side stop is fixed, and in the other there is a removable stop for a tubular cable lug providing loading of the straightened tubular cable lug from the side of the lower flat face of the casing in an inverted position on the side, and the nominal diameter p koyatki identical to the nominal diameter of the punch holes with a smaller diameter two-stage opening, wherein the plunger is configured to store in the housing with a clearance fit in a two-hole lever down with a removable abutment bearing. 2. The device according to claim 1, characterized in that the housing is made in the form of a straight rectangular prism. 3. The device according to claim 1, characterized in that the lateral limiter and the removable stop of the grooved tubular cable lug are made in the form of round rods. 4. The device according to claim 1, characterized in that at the punch the entry conical section is made in the form of a truncated cone with an angle at the apex of the cone of not more than 30 °, and the calibrating cylindrical section with a length of at least 0.8 diameter of the tubular workpiece of the tubular cable end and a nominal diameter equal to the nominal inner diameter of the tubular billet of the tubular cable lug and made in the landing system of the main shaft is not coarser than 11 grade, while the calibrating cylindrical section is made within the tolerance ka on its diameter conical, in which a larger diameter faces the expansion cone. 5. The device according to claim 1, characterized in that the expansion cone of the punch is made with a diameter of the base of the cone equal to the sum of the nominal value of the outer diameter of the chamfer and its upper limit deviation and made in the landing system of the main shaft no more than 11 degrees. 6. The device according to claim 1, characterized in that the handle of the punch is made with corrugations.

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