CN213460443U - Production equipment for connector wiring terminal - Google Patents

Abstract

The utility model discloses a connector binding post production facility, which comprises a frame, be provided with rotating circular disc on the frame center part, rotating circular disc evenly is provided with a set of gluey core location boss along the circumferencial direction, glue the spacing hole that is provided with a set of and glues core looks adaptation on the core location boss, still be provided with the constant head tank that the several is used for fixing a position binding post and glues core material row connecting rod. The rotary disk is provided with a rubber core positioning and separating device, a rubber core and elastic sheet riveting device, a rubber core embedding shell device and an elastic sheet material strip breaking device which is used for removing an elastic sheet material strip left on the shell material strip, wherein the rubber core positioning and separating device, the rubber core and elastic sheet riveting device and the rubber core embedding shell device are respectively arranged on the rack of the rotary disk along the circumferential direction, and the elastic sheet material strip breaking device is arranged on the side edge of. The utility model belongs to the technical field of electron device's production facility and specifically relates to a connector binding post production facility is related to, its easy operation, production efficiency are high, but wide application is in connector binding post's production and processing.

Description

Production equipment for connector wiring terminal

Technical Field

The utility model belongs to the technical field of electron device's production facility and specifically relates to a connector binding post production facility is related to.

Background

Generally, a terminal of a signal antenna connector is mainly composed of a housing, a rubber core, a spring plate and the like. In the production process of the signal antenna connector wiring terminal, the elastic sheet is riveted into the rubber core, and then the rubber core containing the elastic sheet is riveted and embedded into the shell. Because the casing, glue core and shell fragment volume all very little, can generally glue the core with the several and arrange the row in a plastic forming die, it makes out to be moulded plastics by the mode of "a mould is many out", and shell fragment and casing can become continuous material strip form by machining, if rivet the shell fragment into gluing the core respectively through artificial operation, again will glue in the core embedding casing, because they all are small and shell fragment and casing are copper article usually, the material is thick little poor in strength, lead to shell fragment and casing atress yielding, so manual assembly is more difficult and production efficiency low, economic benefits is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a connector binding post production facility solves in connector binding post production, and the manual assembly difficulty, low and the poor problem of economic benefits of production efficiency.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a connector binding post production facility, includes the frame, be provided with the rotating circular disc on the frame central point, the rotating circular disc evenly is provided with a set of gluey core location boss along the circumferencial direction, glue the spacing hole that is provided with a set of and glues core looks adaptation on the core location boss, still be provided with the constant head tank that the several is used for fixing a position binding post and glues core material row connecting rod. And a rubber core positioning and separating device for separating a single rubber core from a rubber core finished product row, a rubber core and elastic sheet riveting device for riveting an elastic sheet into the rubber core, and a rubber core embedding shell device for riveting the rubber core into a shell are respectively arranged on the frame of the working disc along the circumferential direction.

Glue core location separator, include with glue core location boss cooperation be used for with binding post glue core impress spacing hole's flattening device. The rubber core and elastic sheet riveting device comprises a conveying device which is arranged on a rack and used for conveying elastic sheets, wherein a slide holder which can move up and down is arranged in the material conveying advancing direction of the conveying device. The frame is also provided with a moving device which drives the slide holder to move back and forth, and the moving device is provided with a pressing device which is used for pressing the slide holder downwards and is matched with the rubber core positioning boss to press the elastic sheet into the rubber core.

The rubber core embedding shell device comprises a riveting platform which is arranged on a rack and enables a shell to keep a vertical direction and convey forwards, the rack is further provided with a rubber core grabbing device which is used for grabbing a rubber core containing an elastic sheet material belt on a rubber core positioning boss, the rubber core grabbing device comprises a movable support capable of moving back and forth on the rack, and a sliding block capable of moving up and down is arranged on the movable support. The bottom of the sliding block is provided with a grabbing bottom plate, and a material clamping plate which is matched with the grabbing bottom plate and can move up and down is further arranged. And the riveting platform is provided with a riveting device for pressing the rubber core into the shell. And the side edge of the riveting device is also provided with an elastic sheet material strip breaking device for removing the elastic sheet material strip left on the shell material strip.

The elastic sheet material strip breaking device comprises a sliding platform which is arranged on the frame and can move back and forth, and a moving cylinder which drives the sliding platform to move back and forth; the improved material clamping device is characterized in that a rotating motor is arranged on the sliding platform, an elliptical rotating wheel is arranged at the rotating end of the rotating motor, an upper material clamping block is arranged below the elliptical rotating wheel, a lower material clamping block is connected and arranged below the upper material clamping block, a material clamping bottom plate is arranged right below the lower material clamping block at the front end of the sliding platform, and a reset spring is arranged between the lower material clamping block and the material clamping bottom plate.

In order to enable the transmission of the shell material belt to be smoother, the riveting platform comprises an L-shaped bottom plate and side pressure plates arranged on the L-shaped bottom plate, a gap for the shell material belt to pass through is reserved between the L-shaped bottom plate and the side pressure plates, a shell ratchet wheel driving motor is arranged at the shell material belt output end of the L-shaped bottom plate, and a shell ratchet wheel driving the shell material belt to push forwards is arranged at the rotating end of the shell ratchet wheel driving motor.

In order to enable the position of the shell to be more stable in the riveting process, a horizontal through hole is formed in the side face, located at the riveting position, of the L-shaped bottom plate, and a movable block used for pressing the shell is arranged in the through hole.

In order to reduce the occupied volume of the device, the riveting device comprises a push block which moves back and forth along the conveying direction of the shell, a waist-shaped hole which inclines downwards is formed in the push block, a vertical through hole is formed in the side pressure plate, a riveting block which can move up and down is arranged in the vertical through hole, a guide pillar which is inserted into the waist-shaped hole in the push block is arranged on the riveting block, and a riveting cylinder which drives the push block to move is further arranged.

In order to more stably transmit the shell material belt, a second shell ratchet wheel driving motor for driving the shell material belt embedded with the rubber core to advance is arranged between the rubber core embedding shell device and the elastic sheet material belt breaking device, and a second shell ratchet wheel for driving the shell material belt to advance is arranged at the rotating end of the second shell ratchet wheel driving motor.

The utility model has the advantages that: through set up a set of gluey core location boss on this connector binding post production facility to make gluey core material arrange and obtain prepositioning, and when separation and riveting into the shell fragment, play the effect of die cavity location. The glue core material row pre-placed on the glue core positioning boss is pressed downwards through the pressing device arranged, the original glue core connected to the glue core material row can be completely separated from the glue core material row and completely fall into the limiting hole in the glue core positioning boss. And through setting up the gluey core and shell fragment riveting set in rotatory disc side, but the automatic transportation shell fragment material area and cut off the shell fragment material area into a segment, will cut off the shell fragment material area again and rivet and press into gluey core. And then the rubber core riveted into the elastic sheet is embedded into the shell through the arranged rubber core embedded shell device. Finally, the shell fragment material area rupture device of rethread setting is got rid of the shell fragment material area rupture that last process stayed on the casing material area, and above each device cooperation is according to the reciprocal operation work of procedure of settlement, has realized signal antenna connector binding post's whole production promptly, and degree of automation is high, and personnel convenient operation has improved production efficiency, has reduced binding post's manufacturing cost.

The present invention will be described in more detail with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial enlarged view of C1 in fig. 1 according to the present invention.

Fig. 3 is a partial enlarged view of C2 in fig. 1 according to the present invention.

Fig. 4 is a schematic view of another perspective structure of the present invention.

Fig. 5 is a partial enlarged view of C3 in fig. 4 according to the present invention.

Fig. 6 is a schematic view of another perspective structure of the present invention.

Fig. 7 is a partial enlarged view of C4 in fig. 6 according to the present invention.

Fig. 8 is a schematic view of another perspective structure of the present invention.

Fig. 9 is a partial enlarged view of C5 in fig. 8 according to the present invention.

Fig. 10 is a schematic view of the rubber core material row structure for processing of the present invention.

Fig. 11 is a schematic view of a part of the spring strip structure for processing of the present invention.

Fig. 12 is a schematic view of a part of the material belt structure of the housing for processing of the present invention.

Detailed Description

The embodiment, as shown in fig. 1 to 9, a connector binding post production facility, including frame 10, be provided with rotating disc 1 on the frame 10 central point, rotating disc 1 center below is connected and is provided with the motor that drives its rotation, rotating disc 1 becomes 90 angles along the circumferencial direction and evenly is provided with four gluey core location bosss 2, the lateral surface of gluing core location boss 2 is provided with a set of U type slot 203, and this embodiment adopts and sets up 16U type slots 203. An independent material ejecting block 204 capable of moving up and down is installed in the U-shaped slot 203, and the upper end of the material ejecting block 204 and the U-shaped slot 203 surround to form a limiting hole 201 matched with the rubber core of the wiring terminal. When the single rubber core clamp of the wiring terminal is difficult to take out of the limiting hole 201, the rubber core clamp can be pried up from the bottom of the material ejecting block 204 only by using tweezers or a screwdriver, so that the material ejecting block 204 protrudes out of the rubber core positioning boss 2 body, and the rubber core to be clamped is ejected out. The glue core positioning boss 2 is further provided with 8 positioning grooves 202 for placing connecting rods of the glue core material rows of the limiting wiring terminals. In addition, the outer edge of the top of the material pushing block 204 is also provided with a wire passing groove 205 for passing through the elastic sheet connector when the rubber core and the elastic sheet are combined in the next step. The frame 10 of the rotating disc 1 along the circumferential direction is also respectively provided with a rubber core positioning and separating device for separating a single rubber core from a rubber core finished product row, a rubber core and elastic sheet riveting device for riveting an elastic sheet into the rubber core, and a rubber core embedding device for riveting the rubber core into a shell.

When the rubber core material row is manually placed on the rubber core positioning boss 2 in advance, the rubber core is clamped into the matched limiting hole 201 by pre-pressing with fingers. At the moment, the rotating disc 1 rotates by 90 degrees, and the rubber core positioning boss 2 on which the rubber core material row is placed is rotated to the lateral lower part of the rubber core positioning and separating device.

Glue core location separator, include with glue core location boss 2 cooperation be used for with binding post glue core press in spacing hole 201 flattening device 3 completely. Flattening device 3 is including fixing fixed bolster 301 in frame 1, is provided with operating cylinder 302 in fixed bolster 301 upper end, the expansion end connection of operating cylinder 302 is provided with transmission piece 304, transmission piece 304 below is through setting up three connecting limiting rod 305, be provided with on the limiting rod 305 with the briquetting 303 of gluing core location boss 2 looks adaptation, wherein connect limiting rod 305 upper end and transmission piece 304 fixed connection, lower extreme restriction briquetting 303 can move in transmission piece 304 below along the pole, the cover has buffer spring 306 on the limiting rod 305 of being connected between briquetting 303 and transmission piece 304. The plane of briquetting 303 and gluey core location boss 2 looks adaptation is processed into three step face, wherein the side of first step face 3031 cooperates with liftout piece 204, the restriction is glued the displacement of core material row pressure in the horizontal direction, the width of second step face 3032 just can be totally pushed down the upper surface of gluing the core, after second step face 3032 and gluey core location boss 2 laminating, third step face 3033 forms a cavity with gluey core location boss 2 for place not by the gluey core material row support of briquetting 303 extrusion and connect the required distance space of gag lever post 305 downstream. When the working cylinder 302 moves downwards, the transmission block 304 acts on the buffer spring 306, the buffer spring 306 is deformed under force to transmit force to the pressing block 303, and the pressing block 303 moves downwards along the connecting limiting rod 305 and is matched with the rubber core positioning boss 2 to press down the rubber core material row arranged on the rubber core positioning boss 2. Because every gluey core upper surface on gluing the core material row all is higher than gluey core material row connecting rod, when briquetting 303 pushes down gluey core material row, gluey core material row connecting rod is fixed in constant head tank 302 by pushing down, and connect and to be connected sixteen gluey cores of connecting rod one side and can continue to push down the displacement to spacing downthehole 301 in to realized single gluey core and separated and fix a position in spacing downthehole 301 from gluing core material row connecting rod, accomplished single gluey core location separation action this moment promptly.

When the action of gluing core location separation is carried out to equipment, the manual work is arranged another gluey core material and is put in advance on next gluey core location boss 2, after gluey core location separation action is accomplished, rotating disc 1 rotates 90 once more, will accomplish gluey core location boss 2 of location separation and shift to gluey core and shell fragment riveting set's side below, and the gluey core location boss 2 that has arranged gluey core material in advance of last station then shifts to gluey core location separator's side below.

The rubber core and elastic sheet riveting device comprises a conveying device 4 arranged on a rack 10 and used for conveying elastic sheets, wherein the conveying device 4 comprises a conveying table 401 fixed on the rack 10, a conveying end of the conveying table 401 is provided with an elastic sheet rotating material disc 405 used for placing elastic sheet material belts, the other end of the conveying table 401 is fixedly provided with a pressing strip 402, a gap is kept between the pressing strip 402 and the conveying table 401, and the elastic sheet material belts are supplied to pass through and play a role in flattening and limiting warping of the connected elastic sheets. The frame 10 is further provided with a spring plate ratchet wheel driving motor 403, a spring plate ratchet wheel 404 is arranged at the rotating end of the spring plate ratchet wheel driving motor 403, the spring plate ratchet wheel 404 penetrates through the overpressure strip 402, ratchets are uniformly distributed on the spring plate ratchet wheel 404, a material conveying circular hole is formed in the connected spring plate material belt, and the ratchets are in contact fit with the material conveying circular hole. When the elastic sheet ratchet wheel driving motor 403 drives the elastic sheet ratchet wheel 404 to rotate, the ratchets on the elastic sheet ratchet wheel 404 rotate to act on the material conveying circular holes, so that the elastic sheet material belt is driven to horizontally advance forwards.

The conveying device 4 is provided with a slide holder 5 capable of moving up and down in the advancing direction of the elastic sheet material belt, the slide holder 5 is horizontal to the conveying plane of the conveying table 401 and keeps a proper gap, and the end part of the slide holder 5 is provided with an elastic sheet limiting boss 502. The frame 10 is further provided with a moving device 6 for driving the slide holder 5 to move back and forth, the moving device 6 comprises a fixed support 601 mounted on the frame 10, sliding grooves are symmetrically formed in the inner sides of the fixed support 601, sliding blocks 602 capable of moving back and forth are arranged in the sliding grooves, and a sliding block cylinder 604 connected with the sliding blocks 602 and driving the sliding blocks 602 to move back and forth is further arranged on the frame 10. The slide holder 5 is arranged on the slide block 602 in a floating manner, a group of ejection springs 501 are connected between the slide block 602 and the slide holder 5 and used for supporting the slide holder 5 to float on the slide block 602, and when the slide holder 5 is pressed down by external force, the ejection springs 501 are compressed, so that downward displacement occurs. The moving device 6 is provided with a pressing device 603 for pressing the slide holder 5, the pressing device 603 comprises a pressing block 6031 acting on the slide holder 5 and a mounting bracket 6032 fixedly arranged on the sliding block 602, and a pressing cylinder 6033 for driving the pressing block 6031 to move up and down is arranged on the mounting bracket 6032. The pressing block 6031 is also provided with a blade edge 6034 near the input end of the elastic sheet for quickly cutting off the connected elastic sheet material belt.

When the conveying device 4 works according to a set program, the elastic sheet ratchet wheel driving motor 403 rotates according to the set program, the elastic sheet ratchet wheel 404 is driven to rotate simultaneously, the ratchets on the elastic sheet ratchet wheel 404 rotate to act on the material conveying round holes in the elastic sheet material belt at the moment, so that the elastic sheet material belt is driven to move forwards and upwards, the pressing strip 402 is arranged above the elastic sheet material belt, the upward movement of the elastic sheet material belt is limited, and the elastic sheet material belt is driven to horizontally transmit forwards in a gap between the pressing strip 402 and the conveying table 401. When the elastic sheet material strap is transmitted to the sheet carrying table 5 until reaching the elastic sheet limiting boss 502, the transmission is limited and then the forward transmission is carried out, the elastic sheet ratchet wheel driving motor 403 stops working, and the transmission of the elastic sheet material strap is stopped. At this time, the pressing block 6031 above the slide holder 5 moves downward, and when the pressing block 6031 presses the upper surface of the slide holder 5, the ejecting spring 501 is compressed and deformed, so that the slide holder 5 moves downward relative to the feeding plane of the conveying table 401. And there is a section of shell fragment material area still between briquetting 6031 and slide holder 5, move down together with slide holder 5 as briquetting 6031, briquetting 6031 is close to the shell fragment material area and takes the blade edge 6034 that sets up on the input end and will cut off the shell fragment material area that carries platform 401 and slide holder 5 to be connected fast, and briquetting 6031 and slide holder 5 have a section of independent disjunctor shell fragment material area to carry promptly at this moment.

When the connected elastic sheet material strip is cut off, the slider cylinder 603 pushes the slider 602 to move forward to drive the slide holder 5 to move forward, when the cut-off elastic sheet material strip is clamped by the pressing block 6031 and the slide holder 5 and reaches the position right above the rubber core positioning boss 2, the pressing block 6031 continues to move downward to drive the slide holder 5 and the connected elastic sheet material strip to move downward, when the end of the elastic sheet is contacted with the rubber core which is positioned and separated below the rubber core positioning boss 2, the pressing block 6031 continues to press downward, the end of the elastic sheet pressed by the extended front end part of the pressing block 6031 starts to be embedded into the rubber core until the end of the elastic sheet is completely riveted in the rubber core, namely, the lower surface of the extended front end part of the pressing block 6031 is attached to the upper surface of the rubber core positioning boss 2. At this time, the pressing block 6031 moves upward, the end of the elastic sheet is riveted in the rubber core, and the elastic sheet material belt connected with the end of the elastic sheet is also left on the rubber core positioning boss 2. Meanwhile, the slide block 602 moves backwards, the slide holder 5 is restored to the initial position, the conveying device 4 is ready for the next round of elastic sheet material belt conveying, the rotary disc 1 rotates 90 degrees again, and the rubber core positioning boss 2 which is riveted with the elastic sheet is transferred to the side lower part of the rubber core embedded shell device. And after the last manufacturing procedure that rubber core positioning and separating device has already arranged and separated the rubber core material, the rubber core positioning boss 2 containing the separated rubber core rotates again along with the rotating disc 1, thereby rotating to the side lower part of the rubber core and elastic sheet riveting device, and thus continuing the process of riveting and assembling the elastic sheet and the rubber core of the next wheel.

The rubber core embedded shell device comprises a riveting platform 7 which is arranged on a frame 10 and enables a shell to keep a vertical direction and convey forwards, wherein the riveting platform 7 comprises an L-shaped bottom plate 701 and side pressing plates 702 arranged on the L-shaped bottom plate 701, and a gap for a shell material belt to pass through is reserved between the L-shaped bottom plate 701 and the side pressing plates 702. A shell rotating tray 707 for placing a shell material belt is arranged at the material conveying end of the L-shaped bottom plate 701, a shell ratchet wheel driving motor 703 is arranged at the shell material belt output end of the L-shaped bottom plate 701, and a shell ratchet wheel 704 for driving the shell material belt to advance is arranged at the rotating end of the shell ratchet wheel driving motor 703. The shell ratchet wheel 704 is uniformly distributed with shell ratchets, the connected shell material belt is provided with a material conveying round hole, and the shell ratchets are in contact fit with the material conveying round hole. When the casing ratchet wheel driving motor 703 drives the casing ratchet wheel 704 to rotate, the casing ratchet wheel on the casing ratchet wheel 704 rotates to act on the material conveying circular hole, so that the casing material belt is driven to be horizontally conveyed forwards in a gap maintained between the L-shaped bottom plate 701 and the side pressure plate 702.

The frame 10 is provided with a rubber core gripping device 8, and the rubber core gripping device 8 mainly grips a spring sheet material belt which is placed on the rubber core positioning boss 2 and pressed in the rubber core. The rubber core gripping device 8 comprises a movable support 801 capable of moving back and forth on the machine frame 1, and a horizontal cylinder 805 for pushing the movable support 801 to move back and forth is further arranged on the machine frame 1. The moving bracket 801 is provided with a slider 802 which moves up and down, and a vertical cylinder 806 which pushes and pulls the slider 802 up and down is provided at the upper end of the moving bracket 801, i.e., above the slider 802. The bottom of the sliding block 802 is fixedly provided with a grabbing bottom plate 803, and is further provided with a material clamping plate 804 which is matched with the grabbing bottom plate 803 and can move up and down, and the upper end of the sliding block 802, namely above the material clamping plate 804, is provided with a clamping cylinder 807 for pushing the material clamping plate 804 to move up and down.

When the shell material belt is conveyed forward for a certain distance, the shell ratchet wheel 704 stops rotating, and the conveyed shell material belt is just positioned above the rubber core positioning boss 2 containing the rubber core riveted with the elastic sheet and the elastic sheet material belt. And the shell material belt and the rubber core positioning boss 2 are positioned right in front of the rubber core gripping device 8, and the horizontal cylinder pushes the moving support 801 to move forward until the elastic sheet material belt on the rubber core is positioned between the gripping bottom plate 803 and the material clamping plate 804. At this moment, the clamping cylinder 807 pushes the clamping plate 804 to move downwards, until the elastic sheet material strip is clamped, the vertical cylinder 806 drives the slider 802 to move upwards, namely, the clamping plate 804 arranged on the slider 802, the grabbing bottom plate 803 and the elastic sheet material strip clamped between the clamping plate 804 and the grabbing bottom plate 803 move upwards together, the elastic sheet material strip is driven to move upwards, a row of rubber cores connected with the elastic sheet material strip are also driven out of the rubber core positioning boss 2 to move upwards, until the rubber cores reach the position right above the casing material strip, and the grabbing bottom plate 803 abuts against the front side of the casing material strip. A horizontal through hole 7011 is formed in the side face, located at the riveting position, of the L-shaped bottom plate 701, a movable block 705 used for compressing the shell material belt is arranged in the horizontal through hole 7011, and a compressing cylinder 706 used for pushing the movable block 705 to move back and forth in the horizontal through hole 7011 is connected and arranged with the movable block 705. While the gripping base plate 803 abuts against the front side of the casing material strip, the pressing cylinder 706 acts on the movable block 705 to move in the direction of the casing material strip until abutting against the back side of the casing material strip. At this time, the casing material belt is fixed on the L-shaped bottom plate 701, and the rubber cores with the same number corresponding to the casings on the casing material belt exist right above the casing material belt.

The riveting platform 7 is provided with a riveting device 9 for pressing the rubber core into the shell, the riveting device 9 comprises a push block 901 moving back and forth along the shell conveying direction, specifically, two groove-shaped supports 904 are arranged on an L-shaped bottom plate 701, the push block 901 is placed on the upper surface of the L-shaped bottom plate 701, the push block 901 is constrained to move between grooves of the two groove-shaped supports 904, and a riveting cylinder 903 for pushing the push block 901 to move back and forth along the shell conveying direction is arranged on the L-shaped bottom plate 701. The push block 901 is provided with a downward inclined waist-shaped hole 9011, the side pressure plate 702 is provided with a vertical through hole 7021, the vertical through hole 7021 is internally provided with a riveting block 902 capable of moving up and down, and the riveting block 902 is provided with a guide pillar 9021 inserted into the waist-shaped hole 9011 on the push block 901. When the riveting cylinder 903 pushes the push block 901 to move towards the conveying direction of the shell, the push block 901 moves to push the guide pillar 9021 through the kidney-shaped hole 9011 to move together, but because the riveting block 902 is constrained in the side pressing plate 702 and can only move up and down, the back and forth movement of the push block 901 along the conveying direction of the shell material belt is converted into the up and down movement of the riveting block 902 in the side pressing plate 702. When the position of the casing material belt is fixed and there are rubber cores corresponding to the same number of casings on the casing material belt right above the casing material belt, the pushing block 901 moves towards the transmission direction of the casing material belt and is converted into a state that the riveting block 902 moves downwards, and the riveting block 902 makes contact with the rubber cores until the lower surface of the riveting block 902 starts to press down the rubber cores. At this time, the slider 802 drives the clamped elastic sheet material strip to move downward, so that the riveting block 902 moves downward until the rubber core is riveted and embedded into the shell below. After the rubber core is riveted and embedded into the shell, the clamping cylinder 807 drives the material clamping plate 804 to move upwards, and the elastic sheet material band is loosened; the horizontal cylinder 805 and the vertical cylinder 806 drive the respective connected actuating mechanism to return to the initial position, and the rubber core on the rubber core positioning boss 2 under the material belt of the casing is taken away by the joint action of the material clamping plate 804 and the grabbing bottom plate 803, so that the limiting hole 201 on the rubber core positioning boss 2 is empty at this time. When the shell ratchet wheel driving motor 703 continues to drive the shell ratchet wheel 704 to rotate, the shell material belt segment which is riveted with the rubber core is transmitted, after a new shell material belt segment which is ready for riveting is transmitted to a riveting position, the shell ratchet wheel 704 stops rotating, meanwhile, the rotary disc 1 rotates 90 degrees, at this time, the rubber core positioning boss 2 containing the rubber core which is riveted with the elastic sheet in the previous process is rotated below the shell material belt, the rubber core positioning boss 2 originally under the shell material belt is rotated to the position where the rubber core material row is initially preset, the limiting hole 201 on the rubber core positioning boss 2 is vacant, the rubber core which is left on the other side of the rubber core material row connecting rod of the rubber core positioning boss 2 after processing is manually rotated by 180 degrees and then placed in the limiting hole 201 on the rubber core positioning boss 2, and thus, the next round of rubber core separation and positioning processing is continued.

When the casing material area subsection of good gluey core of riveting is transmitted down, though contain the gluey core of shell fragment and imbed in the casing, nevertheless the shell fragment material area that links to each other with gluey core also links on the casing material area, and the shell fragment material area of this moment has accomplished the effect of connecting the shell fragment and transporting gluey core, need set up next process promptly shell fragment material area rupture device 11 and get rid of the shell fragment material area from the casing material area. A second shell ratchet wheel driving motor 1201 which drives the shell material belt embedded with the rubber core to continue to advance is arranged between the rubber core embedded shell device and the elastic sheet material belt breaking device, and a second shell ratchet wheel 1202 which drives the shell material belt to advance is arranged at the rotating end of the second shell ratchet wheel driving motor 1201. Second shell ratchets are uniformly distributed on the second shell ratchet 1202 and are in contact fit with the material conveying circular holes in the shell material belt. When the second casing ratchet driving motor 1201 drives the second casing ratchet 1202 to rotate, the second casing ratchet on the second casing ratchet 1202 rotates to act on the feeding circular hole on the casing material belt, so as to drive the casing material belt to continue to be conveyed forward in the gap between the L-shaped bottom plate 701 and the side pressure plate 702.

The breaking device 11 comprises a sliding platform 1101 which is arranged on the frame 10 and can move back and forth, the sliding platform 1101 is connected with a moving air cylinder 1102 arranged on the frame 10, and the moving air cylinder 1102 can work according to a set program to push the sliding platform 1101 to move back and forth. The sliding platform 1101 is provided with a rotating motor 1103, the rotating end of the rotating motor 1103 is provided with an elliptic rotating wheel 1104, an L-shaped upper clamping block 1105 is arranged below the elliptic rotating wheel 1104 in a contact manner, the upper end of the upper clamping block 1105 is provided with a circular through hole 11051, the elliptic rotating wheel 1104 is arranged in the circular through hole 11051, and the long axis of the elliptic rotating wheel 1104 is in fit contact with the diameter of the circular through hole 11051. A lower clamping block 1106 is arranged below the upper clamping block 1105, and a gap for clamping the elastic sheet material strap is reserved between the upper clamping block 1105 and the lower clamping block 1106. A material clamping bottom plate 1107 is arranged at the front end of the sliding platform 1101 and right below the lower material clamping block 1106, and a return spring 1108 is arranged between the lower material clamping block 1106 and the material clamping bottom plate 1107. Two limiting connecting rods 1111 are arranged at two ends of the upper material clamping block 1105, and the limiting connecting rods 1111 penetrate through the lower material clamping block 1106, the return spring 1108 and the material clamping bottom plate 1107 from the upper material clamping block 1105. The limiting connecting rod 1111 is fixedly locked on the upper material clamping block 1105, the lower surface end of the material clamping bottom plate 1107 is a riveting end limited on the bottom surface of the material clamping bottom plate 1107 and can not move downwards or upwards, and the return spring 1108 is sleeved on the limiting connecting rod 1111 and connected with the lower material clamping block 1106. And the frame 10 is fixedly provided with a baffle plate 1109 at two sides of the sliding platform 1101, and the foremost end of the baffle plate 1109 is flush with the foremost end of the upper clamping block 1105 at the initial position where the sliding platform 1101 is not pushed to move forward. When the casing material belt is conveyed to the position right in front of the upper material clamping block 1105, the moving cylinder 1102 pushes the sliding platform 1101 to move forward, so as to drive the upper material clamping block 1105 and the lower material clamping block 1106 which are arranged on the sliding platform 1101 to move forward, and a gap between the upper material clamping block 1105 and the lower material clamping block 1106 can just clamp a section of the shrapnel material belt which is left on the casing material belt. When the upper clamping block 1105 and the lower clamping block 1106 clamp the elastic sheet material band, the rotating motor 1103 works to drive the elliptical rotating wheel 1104 to rotate, because the elliptical rotating wheel 1104 has a major axis and a minor axis, when the major axis of the elliptical rotating wheel 1104 rotates vertically from the horizontal direction, the major axis end presses the contacted upper clamping block 1105 downwards, so that the upper clamping block 1105 gradually moves downwards to press the elastic sheet material band clamped below, and transmits the downward force to the lower clamping block 1106, and the lower clamping block 1106 moves downwards to compress the return spring 1108, so that the upper clamping block 1105, the elastic sheet material band body and the lower clamping block 1106 move downwards as a whole and are transferred to the shell body of the elastic sheet material band stopped between the L-shaped bottom plate 701 and the side pressure plate 702 to generate relative displacement. When the long axis of the elliptical rotating wheel 1104 reaches the vertical position, the upper material clamping block 1105, the elastic sheet material strip and the lower material clamping block 1106 reach the lowest position; when the long axis of the elliptical rotating wheel 1104 rotates from vertical to horizontal, the force of pressing the upper material clamping block 1105 downwards from the end of the long axis is smaller and smaller, and the return spring 1108 gradually recovers its shape until the upper material clamping block 1105, the spring strip and the lower material clamping block 1106 recover to the non-pressed position. The elliptical rotating wheel 1104 continuously rotates, and when the elliptical rotating wheel 1104 reciprocates for a plurality of times, the elastic sheet material belt is flexibly broken, the elliptical rotating wheel 1104 stops rotating and restores to the initial position, the upper material clamping block 1105 and the lower material clamping block 1106 also restore to the initial position, and the elastic sheet material belt is separated from the shell material belt and falls into a waste material box 1110 arranged below the lower material clamping block 1106. After the shrapnel material belt is flexibly broken, the moving cylinder 1102 pulls the sliding platform 1101 to move backwards, at this time, if the shrapnel material belt which is clamped between the upper clamping block 1105 and the lower clamping block 1106 and is broken exists, because the length of the shrapnel material belt is greater than the width of the upper clamping block 1105 and the lower clamping block 1106, the sliding platform 1101 drives the clamped shrapnel material belt bodies to move backwards together, when the shrapnel material belt bodies move to be in contact with the material blocking plates 1109 which are fixed on two sides of the sliding platform 1101 of the rack 10, the material blocking plates block the shrapnel material belt bodies down to enable the shrapnel material belt bodies to fall into the waste box 1110 below until the sliding platform 1101 returns to the initial position, the shell ratchet driving motor 703 continues to work, the shell material belt with the shrapnel material belt is conveyed to the next round of breaking process position and the shell material belt with the broken shrapnel material belt, the whole production of the signal antenna connector wiring terminal is realized, the automation degree is high, the personnel operation is convenient, the production efficiency is improved, and the manufacturing cost of the wiring terminal is reduced.

The invention has been described above by way of example with reference to the accompanying drawings. Obviously, the specific implementation of the present invention is not limited by the above-described manner. Various insubstantial improvements are made by adopting the method conception and the technical proposal of the utility model; or without improvement, the above conception and technical solution of the present invention can be directly applied to other occasions, all within the protection scope of the present invention.

Claims (5)

1. The utility model provides a connector binding post production facility which characterized in that: the connecting device comprises a rack (10), wherein a rotating disc (1) is arranged at the central part of the rack (10), a group of rubber core positioning bosses (2) are uniformly arranged on the rotating disc (1) along the circumferential direction, a group of limiting holes (201) matched with rubber cores are arranged on the rubber core positioning bosses (2), and a plurality of positioning grooves (202) for positioning connecting rods of a wiring terminal rubber core row are also arranged; a rubber core positioning and separating device for separating a single rubber core from a rubber core material row, a rubber core and elastic sheet riveting device for riveting an elastic sheet into the rubber core and a rubber core embedding shell device for riveting the rubber core into a shell are respectively arranged on a frame (10) of the rotating disc (1) along the circumferential direction;

the rubber core positioning and separating device comprises a flattening device (3) which is matched with the rubber core positioning boss (2) and is used for pressing the rubber core of the wiring terminal into the limiting hole (201);

the rubber core and elastic sheet riveting device comprises a conveying device (4) which is arranged on a rack (10) and used for conveying elastic sheets, wherein a sheet carrying table (5) capable of moving up and down is arranged in the material conveying advancing direction of the conveying device (4); the frame (10) is also provided with a moving device (6) for driving the slide holder (5) to move back and forth, and the moving device (6) is provided with a pressing device (603) for pressing the slide holder (5) downwards and pressing the elastic sheet into the rubber core by matching with the rubber core positioning boss (2);

the rubber core embedding shell device comprises a riveting platform (7) which is arranged on a rack (10) and enables a shell to keep a vertical direction and convey forwards, a rubber core grabbing device (8) which is used for grabbing a rubber core containing an elastic sheet material belt rubber core on a rubber core positioning boss (2) is further arranged on the rack (10), the rubber core grabbing device (8) comprises a movable support (801) capable of moving back and forth on the rack (10), and a sliding block (802) capable of moving up and down is arranged on the movable support (801); the bottom of the sliding block (802) is provided with a grabbing bottom plate (803), and the sliding block is also provided with a material clamping plate (804) which is matched with the grabbing bottom plate (803) and can move up and down; the riveting platform (7) is provided with a riveting device (9) for pressing the rubber core into the shell; a spring sheet material strip breaking device (11) for removing the spring sheet material strip left on the shell material strip is also arranged on the side edge of the riveting device (9);

the elastic sheet material strip breaking device (11) comprises a sliding platform (1101) which is arranged on the rack (10) and can move back and forth, and a moving cylinder (1102) which drives the sliding platform (1101) to move back and forth; be provided with rotating electrical machines (1103) on sliding platform (1101), rotating electrical machines (1103) rotation end is provided with oval runner (1104), oval runner (1104) below is provided with presss from both sides material piece (1105), it is provided with down presss from both sides material piece (1106) to go up to press from both sides material piece (1105) below connection, sliding platform (1101) front end is located and is provided with under pressing from both sides material piece (1106) and presss from both sides material bottom plate (1107), it is provided with reset spring (1108) to press from both sides between material piece (1106) and pressing from both sides material bottom plate (1107) down.

2. The connector terminal production apparatus as claimed in claim 1, wherein: the riveting platform (7) comprises an L-shaped bottom plate (701) and side pressure plates (702) arranged on the L-shaped bottom plate (701), a gap for a shell material belt to pass through is reserved between the L-shaped bottom plate (701) and the side pressure plates (702), a shell ratchet wheel driving motor (703) is arranged at the output end of the shell material belt of the L-shaped bottom plate (701), and a shell ratchet wheel (704) driving the shell material belt to push forwards is arranged at the rotating end of the shell ratchet wheel driving motor (703).

3. The connector terminal production apparatus as claimed in claim 2, wherein: the side face, located at the riveting position, of the L-shaped bottom plate (701) is provided with a horizontal through hole (7011), and a movable block (705) used for pressing the shell is arranged in the through hole (7011).

4. The connector terminal production apparatus as claimed in claim 2, wherein: the riveting device (9) comprises a push block (901) moving back and forth along the conveying direction of the shell, a waist-shaped hole (9011) inclining downwards is formed in the push block (901), a vertical through hole (7021) is formed in the side pressure plate (702), a riveting block (902) capable of moving up and down is arranged in the vertical through hole (7021), a guide pillar (9021) inserted into the waist-shaped hole (9011) in the push block (901) is arranged on the riveting block (902), and a riveting cylinder (903) driving the push block (901) to move is further arranged.

5. The connector terminal production apparatus as claimed in claim 1, wherein: a second shell ratchet wheel driving motor 1201 which drives the shell material belt embedded with the rubber core to advance is arranged between the rubber core embedded shell device and the elastic sheet material belt breaking device, and a second shell ratchet wheel 1202 which drives the shell material belt to advance is arranged at the rotating end of the second shell ratchet wheel driving motor 1201.

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