CN116937276A - IDC crimping and cutting jig - Google Patents

Abstract

The application discloses an IDC crimping and cutting jig which comprises a base, a mounting mechanism and a bracket; the base is connected with a bottom plate; the installation mechanism is installed on the bottom plate and comprises a first installation plate, a flat cable plate and a pair of part fixing plates are installed on the first installation plate, a pair of flat cable groove plates are symmetrically connected to the flat cable plate, a positioning screw is connected to one flat cable groove plate through threads, a line pressing block is movably connected to the positioning screw, a first spring is arranged between the positioning screw and the line pressing block, a cutting plate is arranged on the flat cable groove plates in a rotating mode, and a plurality of adjusting holes are formed in the part fixing plates. According to the application, through the arrangement of the corresponding mechanism, not only can the crimping function of the IDC terminal be realized, but also the shearing of the cable of the IDC terminal can be realized, and other shearing equipment is not needed, so that the functions of the IDC crimping equipment are diversified, the production efficiency of the IDC terminal can be improved, and the burden of workers can be reduced.

Description

IDC crimping and cutting jig

Technical Field

The application belongs to the technical field of IDC terminal processing, and particularly relates to an IDC crimping and cutting jig.

Background

IDC terminals are one type of connector that is used to connect wires to a circuit board. The IDC terminal is manufactured by adopting a crimping method, in the crimping process, the cable is pressed into the terminal groove, and the cable is deformed by shearing force which enables the terminal groove to generate local plastic deformation, the insulating layer is cut through, the oxide is removed, and then an airtight high-pressure contact surface can be formed between the cable and the terminal, so that crimping of the IDC terminal is completed. IDC terminal connectors are widely used in various electronic devices including computers, televisions, telephones, audio devices, etc., due to their low cost and high reliability.

However, when the conventional partial IDC terminal crimping equipment is used, only crimping work of IDC terminals can be realized, and cables cannot be cut off, so that the function is single, and therefore, workers need to cut off the cables by additionally utilizing shearing equipment, the processing efficiency of IDC terminals is easy to reduce, and meanwhile, the workload of the workers is easy to increase.

Therefore, in order to solve the above-mentioned technical problems, it is necessary to provide an IDC crimping cutting jig.

Disclosure of Invention

The application aims to provide an IDC crimping and cutting jig for solving the problem that an IDC terminal in the prior art is single in function.

In order to achieve the above object, an embodiment of the present application provides the following technical solution:

the IDC crimping and cutting jig comprises a base, an installation mechanism and a bracket;

the base is connected with a bottom plate;

the installation mechanism is installed on the bottom plate and comprises an installation plate I, a flat cable plate and a pair of part fixing plates are installed on the installation plate I, a pair of flat cable slot plates are symmetrically connected to the flat cable plate, one flat cable slot plate is connected with a positioning screw in a threaded manner, a line pressing block is movably connected to the positioning screw, a spring I is arranged between the positioning screw and the line pressing block, a cutting plate is rotatably arranged on the flat cable slot plate, a plurality of adjusting holes are formed in the part fixing plates, two pairs of part fixing slot plates are connected in the adjusting holes, and the part fixing slot plates are symmetrical;

the support is connected to the bottom plate, the connecting plate is connected to the support, a pair of crimping cylinders are installed on the connecting plate, the connecting plate downside is provided with the linkage board, the linkage board is connected with the crimping cylinder output shaft, be connected with mounting panel two on the linkage board, be equipped with a pair of crimping cover on the mounting panel two, one of them crimping is sheathe in and is connected with the barrier plate, another crimping is sheathe in and is connected with the cutting knife, the cutting knife with the cutting board corresponds, the crimping is sheathe in to slide and is equipped with the crimping piece, be equipped with the spring three between crimping piece and the crimping cover, the crimping piece with part fixed slot board corresponds.

Further, a control unit is arranged in the base, an induction spring piece is arranged on the bottom plate and used for inducing the first mounting plate, so that the operation of the crimping cylinder can be controlled, and the crimping cylinder is used for crimping and cutting off IDC terminal parts;

the switch is installed to the base lateral wall, response shell fragment and switch and control unit electric connection. The operation of the crimping cylinder can be controlled through the switch.

Further, the bottom plate is provided with a pair of guide grooves for accommodating the first guide rail;

and a limiting rod is arranged in the guide groove and used for limiting the sliding distance of the first mounting plate, so that the first mounting plate cannot easily slide out of the first guide rail completely.

Further, a first guide rail is arranged in the guide groove, the first mounting plate is arranged between the pair of first guide rails in a sliding mode, the first mounting plate slides on the first guide rails, and then the position of the first mounting plate can be adjusted, so that the IDC terminal can be better pressed by the pressing block, and the cable can be cut off by the cutting knife;

the limiting rod is arranged on one side, far away from the bracket, of the guide rail.

Further, the first mounting plate is symmetrically connected with a pair of guide rails II, the part fixing plate is arranged between the pair of guide rails II, and the positions of the pair of part fixing plates can be adjusted through the arrangement of the guide rails II, so that the part fixing plate can be suitable for IDC terminal parts of different types, and the whole application range is enlarged;

one of the component fixing plates is connected with a locating plate, the locating plate is arranged on one side of the component fixing plate away from the flat cable plate, and the locating plate is used for locating IDC terminal components so that the IDC terminal components can be better crimped.

Further, a pull plate is connected to one side wall of the mounting plate, a pull rod cylinder is mounted on the bottom plate and connected with an output shaft of the pull rod cylinder, and the pull rod cylinder drives the mounting plate I to slide on the guide rail I through the pull plate, so that the position of the mounting plate I can be adjusted, and the position of the IDC terminal part and the position of the cable can be adjusted.

Further, the first mounting plate is connected with a fixing bolt through threads, the outer side of the fixing bolt is movably connected with an anti-collision sleeve, and the second mounting plate is not easy to collide with the first mounting plate by the aid of the anti-collision sleeve, so that the overall safety of the equipment can be guaranteed;

the anti-collision sleeve is provided with the second spring between the first anti-collision sleeve and the first mounting plate, so that the buffering effect of the anti-collision sleeve is improved, the anti-collision sleeve is not easy to rigidly collide with the second mounting plate, and the overall safety is ensured.

Further, a pair of guide plates are connected to the second mounting plate and used for sliding the crimping sleeve, and the crimping sleeve is slidably arranged between the pair of guide plates.

Further, a guide rod is arranged on the connecting plate, and the second mounting plate is slidably arranged on the pair of guide rods and used for guiding the second mounting plate to slide.

Compared with the prior art, the application has the following advantages:

according to the application, through the arrangement of the corresponding mechanism, not only can the crimping function of the IDC terminal be realized, but also the shearing of the cable of the IDC terminal can be realized, and other shearing equipment is not needed, so that the functions of the IDC crimping equipment are diversified, the production efficiency of the IDC terminal can be improved, and the burden of workers can be reduced.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

FIG. 1 is a perspective view of an IDC crimping and cutting jig according to an embodiment of the present application;

FIG. 2 is a schematic view of the structure of FIG. 1 at A;

FIG. 3 is a schematic view of the structure at B in FIG. 1;

FIG. 4 is a schematic view of the structure at C in FIG. 1;

FIG. 5 is a side view of an IDC crimp cutting jig in accordance with one embodiment of the present application;

FIG. 6 is a schematic view of the structure of FIG. 5 at D;

FIG. 7 is a schematic view of the structure at E in FIG. 5;

FIG. 8 is another perspective view of an IDC crimping cutting tool in accordance with one embodiment of the present application;

FIG. 9 is a schematic view of the structure of FIG. 8 at F;

FIG. 10 is a side view, partially in cross section, of an IDC crimp cutting jig in accordance with one embodiment of the present application;

FIG. 11 is a schematic view of the structure at G in FIG. 10; .

In the figure: 1. base, 101, base plate, 102, guide slot, 103, stop bar, 104, sensing spring, 105, switch, 2, mounting mechanism, 201, guide rail, 202, mounting plate, 203, wire winding plate, 204, wire winding slot plate, 205, set screw, 206, wire pressing block, 207, spring, 208, guide rail, 209, part fixing plate, 210, adjustment hole, 211, part fixing slot plate, 212, positioning plate, 213, pulling plate, 214, pulling rod cylinder, 215, cutting plate, 216, anti-collision sleeve, 217, spring, 3, bracket, 301, connecting plate, 302, crimping cylinder, 303, linkage plate, 304, mounting plate, 305, guide plate, 306, crimping sleeve, 307, blocking plate, 308, crimping block, 309, spring three, 310, cutting knife 311, guide rod.

Detailed Description

The present application will be described in detail below with reference to the embodiments shown in the drawings. The embodiments are not intended to limit the application, but structural, methodological, or functional modifications of the application from those skilled in the art are included within the scope of the application.

The application discloses an IDC crimping and cutting jig, which is shown in reference to figures 1-11 and comprises a base 1, a mounting mechanism 2 and a bracket 3.

Wherein, the base 1 is connected with a bottom plate 101 for installing a first guide rail 201 and a bracket 3.

Furthermore, the base plate 101 is provided with a pair of guide slots 102 for receiving the first guide rail 201 for sliding movement of the first mounting plate 202 to adjust the position of the IDC terminal components and the cable for better crimping of the IDC terminals.

Specifically, the guide groove 102 is provided with a limit rod 103, and the limit rod 103 is arranged on one side of the first guide rail 201, which is far away from the bracket 3. The limiting rod 103 is used for limiting the sliding distance of the first mounting plate 202, so that the first mounting plate 202 is not easy to slide out of the first guide rail 201 completely.

In addition, a control unit is installed in the base 1, and the base plate 101 is provided with an induction spring piece 104 for inducing the first mounting plate 202, so that the operation of the crimping cylinder 302 can be controlled, and the crimping cylinder is used for crimping and cutting off IDC terminal parts.

In addition, a switch 105 is installed on the side wall of the base 1, and the sensing spring plate 104 and the switch 105 are electrically connected with the control unit. The operation of the crimp cylinder 302 is controlled by the switch 105.

Preferably, the circuit connection relationship between the sensing spring 104, the switch 105 and the control unit is known to those skilled in the art, and will not be described herein in detail.

Referring to fig. 1 to 11, a first rail 201 is installed in the guide groove 102, and a first mounting plate 202 is slidably disposed between the pair of first rails 201. By sliding the first mounting plate 202 over the first guide rail 201, the position of the first mounting plate 202 can be adjusted to better crimp IDC terminals using the crimping blocks 308 and cut the cable using the cutting blade 310.

Wherein, the mounting mechanism 2 is mounted on the base plate 101, and the mounting mechanism 2 includes a first mounting plate 202, and the first mounting plate 202 is used for mounting the flat cable 203 and the component fixing plate 209. The first mounting plate 202 is provided with a flat cable 203 and a pair of component fixing plates 209, the flat cable 203 is symmetrically connected with a pair of flat cable groove plates 204, and a cable groove is formed between the pair of flat cable groove plates 204 for placing a flat cable. The part fixing plate 209 is used to fix the part fixing groove plate 211.

Preferably, the first guide rail 201 and the first mounting plate 202 are connected by means of screws, that is, the first guide rail 201 is fixed in the guide groove 102 by means of screws, and the first mounting plate 202 is fixed on the base 1 by means of screws.

Furthermore, one of the flat cable slot plates 204 is connected with a positioning screw 205 through threads, the positioning screw 205 is movably connected with a wire pressing block 206, a first spring 207 is arranged between the positioning screw 205 and the wire pressing block 206, and the flat cable can be pressed by utilizing the rotation of the wire pressing block 206, so that the firmness of the flat cable during cutting is ensured.

Placing the flat cable between the pair of flat cable slot plates 204, pulling the wire pressing block 206, so that the wire pressing block 206 compresses the first spring 207, rotating the wire pressing block 206 by 90 degrees counterclockwise as shown in fig. 3, loosening the wire pressing block 206, and resetting the wire pressing block 206 under the action of the first spring 207, so that the wire pressing block 206 is pressed between the pair of flat cable slot plates 204 for fixing the flat cable.

Specifically, the first mounting plate 202 is symmetrically connected to a pair of second rails 208, and the part fixing plate 209 is disposed between the pair of second rails 208. Through the setting of guide rail two 208, can adjust the position of a pair of part fixed plate 209 to part fixed plate 209 can be applicable to the IDC terminal part of different models, enlarges holistic application scope.

Preferably, the flat cable 203, the flat cable trough 204, the second guide rail 208, the component fixing plate 209, the component fixing trough 211, the positioning plate 212, and the pull plate 213 are all connected by screws. The flat cable 203 and the second guide rail 208 are fixedly connected to the first mounting plate 202, the flat cable slot 204, the part fixing plate 209 and the part fixing slot 211 are fixed by screws after being adjusted, the flat cable slot 204 is fixed to the flat cable 203, the part fixing plate 209 is fixed to the first mounting plate 202, the part fixing slot 211 is fixed to the part fixing plate 209, the positioning plate 212 is fixed to the side wall of the part fixing plate 209, and the pull plate 213 is fixed to the side wall of the first mounting plate 202.

In addition, the part fixing plate 209 is provided with a plurality of adjusting holes 210, wherein the part fixing groove plates 211 are connected in the two adjusting holes 210, and the part fixing groove plates 211 are symmetrical. By adjusting the arrangement of the holes 210, the distance between the pair of component fixing groove plates 211 can be adjusted, so that IDC terminal parts of different types can be placed between the pair of component fixing groove plates 211, and the overall application range is enlarged.

Preferably, the wire arranging plate 203 is also provided with a plurality of adjusting holes 210, so that the positions of the pair of wire arranging groove plates 204 can be conveniently adjusted, and the wire arranging cables with different sizes can be placed between the pair of wire arranging groove plates 204.

In addition, a positioning plate 212 is connected to one of the component fixing plates 209, and the positioning plate 212 is disposed on a side of the component fixing plate 209 away from the flat cable 203. The locating plate 212 is used to locate the IDC terminal components for better crimping of the IDC terminal components.

Referring to fig. 1-11, a pull plate 213 is connected to a side wall of the first mounting plate 202, a pull rod cylinder 214 is mounted on the bottom plate 101, and the pull plate 213 is connected to an output shaft of the pull rod cylinder 214. When the pull rod cylinder 214 stretches and contracts, the pull plate 213 drives the first mounting plate 202 to slide on the first guide rail 201, and the pull rod cylinder is further used for adjusting the position of the first mounting plate 202 so as to adjust the positions of IDC terminal parts and cables.

Wherein, the flat cable slot plate 204 is rotatably provided with a cutting plate 215, and the cutting blade 310 corresponds to the cutting plate 215, when the cutting blade 310 cuts the cable, the cutting blade will contact with the cutting plate 215, so that the cutting plate 215 rotates until the side wall of the cutting plate 215 contacts with the side wall of the cutting blade 310, and the cutting plate 215 can play a role of stabilizing the cutting blade 310.

Furthermore, a fixing bolt is connected to the first mounting plate 202 through a screw thread, and an anti-collision sleeve 216 is movably connected to the outer side of the fixing bolt. The anti-collision sleeve 216 is utilized to enable the second mounting plate 304 not to collide with the first mounting plate 202 easily, so that the overall safety of the equipment can be ensured.

Specifically, a second spring 217 is disposed between the anti-collision sleeve 216 and the first mounting plate 202, so as to increase the buffering effect of the anti-collision sleeve 216, so that the anti-collision sleeve 216 is not easy to rigidly collide with the second mounting plate 304, and overall safety is ensured.

Referring to fig. 1 to 11, a bracket 3 is connected to a base plate 101, a connection plate 301 is connected to the bracket 3, and a pair of crimping cylinders 302 are mounted on the connection plate 301. The crimping cylinder 302 is utilized to drive the movement of the crimp block 308 so that crimping of the IDC terminal components can be accomplished.

Preferably, the crimp cylinder 302 is electrically connected to the control unit.

Wherein, the linkage board 303 is arranged at the lower side of the connecting board 301, the linkage board 303 is connected with the output shaft of the crimping cylinder 302, and the linkage board 303 is connected with a second mounting board 304. The second mounting plate 304 is used to mount the crimping blocks 308.

Furthermore, the second mounting plate 304 is connected to a pair of guide plates 305, and the press-fit sleeve 306 is slidably disposed between the pair of guide plates 305 for sliding the press-fit sleeve 306.

Specifically, the second mounting plate 304 is provided with a pair of crimping sleeves 306 for mounting crimping blocks 308, and the crimping blocks 308 and the cutting blades 310 are adjustable in position by sliding the crimping sleeves 306 on the guide plate 305 so as to be compatible with IDC terminal parts and cables, so that the crimping blocks 308 can crimp IDC terminal parts between the pair of component fixing groove plates 211, and the cutting blades 310 can cut cables between the pair of wire-laying groove plates 204.

In addition, a blocking plate 307 is connected to one of the crimping sleeves 306, and the blocking plate 307 is used for blocking the crimping blocks 308, so that the crimping blocks 308 are not easy to separate from the crimping sleeves 306.

In addition, be connected with cutting knife 310 on another crimping sleeve 306, when crimping piece 308 crimping IDC terminal part, cutting knife 310 can cut off the cable in step, and then can make whole function pluralism, need not extra cutting line cable, improves IDC terminal's production efficiency.

Referring to fig. 1-11, a press-fit block 308 is slidably provided in the press-fit sleeve 306, a third spring 309 is provided between the press-fit block 308 and the press-fit sleeve 306, and the press-fit block 308 corresponds to the part fixing groove plate 211. When the crimping cylinder 302 is extended, the crimping block 308 descends following the ganging plate 303 and the second mounting plate 304, thereby crimping the IDC terminal components. The third spring 309 makes the crimp block 308 hard-pressed with the IDC terminal part difficult, and ensures the pressing safety of the IDC terminal part.

The connecting plate 301 is provided with a guide rod 311, and the second mounting plate 304 is slidably disposed on the pair of guide rods 311, for guiding the second mounting plate 304 to slide.

In particular use, IDC terminal components are placed between two pairs of component mounting slots 211, respectively, and the flat cable is placed between a pair of flat cable slot plates 204, with the flat cable being mounted by the wire blocks 206.

The switch 105 is pressed down, the pull rod air cylinder 214 works, and the pull rod air cylinder 214 pulls the first mounting plate 202 to the sensing spring plate 104 through the pull plate 213. After the first mounting plate 202 can be sensed by the sensing spring 104, the compression cylinder 302 works, the compression cylinder 302 drives the linkage plate 303, the second mounting plate 304, the compression block 308 and the cutter 310 to descend, the compression block 308 can be utilized to compress IDC terminal parts between the pair of part fixing groove plates 211, the cutter 310 can be utilized to synchronously cut off a flat cable between the pair of flat cable groove plates 204, and then the pressing and cutting operation of the IDC terminal can be realized, the cable is cut off without additional cutting equipment, the production efficiency of the IDC terminal is improved, and meanwhile, the burden of workers can be lightened.

The technical scheme shows that the application has the following beneficial effects:

according to the application, through the arrangement of the corresponding mechanism, not only can the crimping function of the IDC terminal be realized, but also the shearing of the cable of the IDC terminal can be realized, and other shearing equipment is not needed, so that the functions of the IDC crimping equipment are diversified, the production efficiency of the IDC terminal can be improved, and the burden of workers can be reduced.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment contains only one independent technical solution, and that such description is provided for clarity only, and that the technical solutions of the embodiments may be appropriately combined to form other embodiments that will be understood by those skilled in the art.

Claims (9)

1. IDC crimping cuts tool, includes:

   the base is connected with a bottom plate;

   the installation mechanism is installed on the bottom plate and comprises an installation plate I, a flat cable plate and a pair of part fixing plates are installed on the installation plate I, a pair of flat cable slot plates are symmetrically connected to the flat cable plate, one flat cable slot plate is connected with a positioning screw in a threaded manner, a line pressing block is movably connected to the positioning screw, a spring I is arranged between the positioning screw and the line pressing block, a cutting plate is rotatably arranged on the flat cable slot plate, a plurality of adjusting holes are formed in the part fixing plates, two pairs of part fixing slot plates are connected in the adjusting holes, and the part fixing slot plates are symmetrical;

   the support is connected to the bottom plate, be connected with the connecting plate on the support, install a pair of crimping cylinder on the connecting plate, the connecting plate downside is equipped with the linkage board, the linkage board is connected with crimping cylinder output shaft, be connected with mounting panel two on the linkage board, be equipped with a pair of crimping cover on the mounting panel two, one of them the crimping is sheathe in and is connected with the barrier plate, another the crimping is sheathe in and is connected with the cutting knife, the cutting knife with the cutting board is corresponding, the crimping is sheathe in the slip and is equipped with the crimping piece, be equipped with the spring three between crimping piece and the crimping cover, the crimping piece with the part fixed slot board is corresponding.
2. 2. The IDC press-connection cutting jig according to claim 1, wherein a control unit is installed in the base, an induction spring is provided on the base plate, a switch is installed on the side wall of the base, and the induction spring and the switch are electrically connected with the control unit.
3. 3. The IDC press-fit cutting jig of claim 1, wherein the base plate is provided with a pair of guide slots, and wherein the guide slots are provided with a stop bar.
4. 4. The IDC press-connection cutting jig as set forth in claim 3, wherein guide rails one are installed in the guide grooves, the mounting plate one is slidably disposed between a pair of guide rails one, and the limit lever is disposed at a side of the guide rails one away from the bracket.
5. 5. The IDC press-fit cutting jig of claim 1, wherein the first mounting plate is symmetrically connected with a pair of second rails, the part fixing plate is disposed between the pair of second rails, one of the part fixing plates is connected with a positioning plate, and the positioning plate is disposed on a side of the part fixing plate away from the flat cable plate.
6. 6. The IDC press-fit cutting jig of claim 5, wherein a pull plate is connected to a side wall of the mounting plate, and a pull rod cylinder is mounted on the base plate, and the pull plate is connected to an output shaft of the pull rod cylinder.
7. 7. The IDC press-connection cutting jig according to claim 1, wherein the first mounting plate is screwed with a fixing bolt, an anti-collision sleeve is movably connected to the outer side of the fixing bolt, and a second spring is arranged between the anti-collision sleeve and the first mounting plate.
8. 8. The IDC press-fit cutting jig of claim 1, wherein the second mounting plate is connected with a pair of guide plates, and the press-fit sleeve is slidably disposed between the pair of guide plates.
9. 9. The IDC press-fit cutting jig of claim 1, wherein the connecting plates are provided with guide bars, and the second mounting plate is slidably disposed on a pair of guide bars.