CN211404980U - Automatic processing equipment for efficient male and female plug butt-joint terminal - Google Patents

Abstract

The utility model provides an automatic processing device of a high-efficiency male and female plug butt-joint terminal, which comprises a case, a feeding mechanism, a turning mechanism, a processing mechanism and a delivery mechanism, wherein the feeding mechanism, the processing mechanism, the turning mechanism and the delivery mechanism are all arranged on a panel of the case; the processing mechanism comprises a first drilling device, a second drilling device, a first grooving device, a second grooving device, a tapping device and a closing device, and the first drilling device, the second drilling device, the first grooving device, the second grooving device, the tapping device and the closing device are circumferentially distributed on the panel of the case by taking the circle center of the disc as the center; the equipment can effectively solve the problems of complex processing process, low integration level of working procedures, low precision of finished products, low productivity, high labor cost and the like in the production process of the terminal equipment.

Description

Automatic processing equipment for efficient male and female plug butt-joint terminal

Technical Field

The utility model relates to a technical field of terminal processing equipment, concretely relates to high-efficient public female automatic processing equipment who inserts butt joint terminal.

Background

The male and female butt-joint terminals are one of the important parts of the butt-joint type electrical plug, and poor-quality terminals are prone to loose due to the conditions of insecure connection, poor contact and the like, so that the electrical performance of male and female plug connection is poor, even the electrical short circuit and other safety problems are caused.

The terminal needs to be drilled, tapped, grooved, closed and the like from a blank to a finished product, the processes need to be completed in different devices in the existing production process, the terminal needs to be manually participated in the transfer among the processes, the loss of the terminal is easily caused in the transfer and the transfer of the manual work, and the material needs to be discharged again, fed again, repositioned and the like before entering the next processing process again.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

The utility model aims to solve terminal equipment in process of production, the course of working is loaded down with trivial details, and the integrated level of process is low, the finished product precision is low, the productivity is low, the problem that the cost of labor is high, and provides a high-efficient public female automatic processing equipment who inserts the butt joint terminal.

(II) technical scheme

The utility model discloses can realize through following technical scheme: the utility model provides an automatic processing device of a high-efficiency male and female plug butt-joint terminal, which comprises a case, a feeding mechanism, a turning mechanism, a processing mechanism and a delivery mechanism, wherein the feeding mechanism, the turning mechanism, the processing mechanism and the delivery mechanism are all arranged on a panel of the case; the feeding mechanism comprises a vibrating disc and a material pushing device, a supporting frame is arranged at the lower end of the vibrating disc, a discharge port of the vibrating disc is connected with one end of a first material rail, and the other end of the first material rail is connected with the material pushing device.

The rotating mechanism comprises a disc, one surface of the disc is connected with a rotating device, and the other surface of the disc is provided with a plurality of bin positions which are distributed on the disc by taking the circle center of the disc as the center and using the circumference;

the rotating device is arranged below the disc and comprises a shell, a servo motor, a steering box, a cam and a sensor, wherein the sensor is arranged on the outer side of the shell, an output shaft of the servo motor is connected with an input shaft of the steering box, a first output shaft of the steering box is connected with the center of the disc, and a second output shaft of the steering box is connected with the cam.

The processing mechanism comprises a first drilling device, a second drilling device, a first grooving device, a second grooving device, a tapping device and a closing device, and the first drilling device, the second drilling device, the first grooving device, the second grooving device, the tapping device and the closing device are circumferentially distributed on the panel of the case by taking the circle center of the disc as the center;

the first drilling device comprises a first support, a first sliding block, a first guide rail, a first electric drill and a first air cylinder, the first guide rail is arranged on the first support, the first electric drill is arranged on the first sliding block, one end of the first sliding block is connected with a piston rod of the first air cylinder, the first sliding block can move up and down in the first guide rail, and therefore the first electric drill is driven to move up and down to complete a first drilling process.

The second drilling device comprises a second support, a second sliding block, a second guide rail, a second electric drill and a second air cylinder, the second guide rail is arranged on the second support, the second electric drill is arranged on the second sliding block, one end of a sliding second moving block is connected with a piston rod of the second air cylinder, and the second sliding block can move back and forth in the second guide rail so as to drive the second electric drill to move back and forth and complete a second drilling process.

The first grooving device comprises a third support, a third sliding block, a third guide rail, a third air cylinder and a first grooving machine, the third guide rail is arranged on the third support, the first grooving machine is arranged on the third sliding block, one end of a third sliding block which slides is connected with a piston rod of the third air cylinder, and the third sliding block can move back and forth in the third guide rail so as to drive the first grooving machine to move back and forth and complete a first grooving process.

The second grooving device comprises a fourth support, a fourth sliding block, a fourth guide rail, a fourth air cylinder and a second grooving machine, the fourth guide rail is arranged on the fourth support, the second grooving machine is arranged on the fourth sliding block, one end of the fourth sliding block is connected with a piston rod of the fourth air cylinder, and the fourth sliding block can move back and forth in the fourth guide rail so as to drive the second grooving machine to move back and forth and complete a second grooving process.

The tapping device comprises a fifth support, a fifth sliding block, a fifth guide rail, a fifth air cylinder and a tapping electric drill, the fifth guide rail is arranged on the fifth support, the tapping electric drill is arranged on the fifth sliding block, one end of the fifth sliding block is connected with a piston rod of the fifth air cylinder, and the fifth sliding block can move back and forth in the fifth guide rail so as to drive the tapping electric drill to move back and forth to complete a tapping process.

The closing-in device comprises a sixth support, a sleeve and a sixth air cylinder, the sleeve is connected with a piston rod of the sixth air cylinder, the piston rod of the sixth air cylinder pushes the sleeve upwards, and the sleeve moves upwards, so that the closing-in process is completed.

The discharging mechanism comprises a seventh cylinder, a connecting block and a seventh support, the seventh cylinder is arranged on the seventh support, a push rod is arranged on a piston rod of the seventh cylinder, the connecting block is arranged on the seventh support, a square groove is formed in the top of the connecting block, a through hole is formed in the bottom of the connecting block, and a second air pipe connecting port is formed in the side face of the connecting block.

Preferably, the case further comprises an air compressor, a control cabinet and a control panel.

Preferably, one end of the sleeve is provided with a first air pipe connecting port, and the first air pipe connecting port is connected with the air compressor through an air pipe.

Preferably, a baffle is arranged on the seventh support and connected with one end of the connecting block.

Preferably, a plurality of sensors are arranged below the disc, and the sensors are respectively arranged on stations of the first drilling device, the second drilling device, the first grooving device, the second grooving device, the tapping device and the closing-up device and are fixed on the case panel.

Preferably, the pushing device comprises a push rod and a second material rail, the push rod is connected with a piston rod of the air cylinder, and one end of the second material rail is connected with the first material rail.

The working method of the equipment specifically comprises the following steps:

the method comprises the following steps: workpieces enter the material pushing mechanism from the first material rail after being sequenced by the vibrating disc, a material pushing rod on the material feeding mechanism pushes the workpieces into a bin, the disc rotates, and the bin rotates to a station of the first drilling device;

step two: when a workpiece reaches the first drilling device, the disc stops rotating, the first electric drill works, the first air cylinder pushes the first sliding block, the first electric drill drills holes in the workpiece to finish a first drilling process, and the bin position rotates to a station of the first groove cutting device;

step three: when a workpiece reaches the first grooving device, the disc stops rotating, the first grooving machine works, the second air cylinder pushes the second sliding block, the first grooving machine performs grooving on the workpiece to finish a first grooving process, and the bin rotates to a station of the second drilling device;

step four: when a workpiece reaches a station of the second drilling device, the disc stops rotating, the second electric drill works, the third air cylinder pushes the third sliding block to complete a second hole rotating process, and the bin rotates to the station of the second grooving device;

step five: when a workpiece reaches a station of the second grooving device, the disc stops rotating, the second grooving device works, the fourth cylinder pushes the fourth sliding block to complete a second grooving process, and the bin rotates to a station of the collecting device;

step six: when the workpiece reaches the station of the closing device, the disc stops rotating, and the fifth cylinder pushes the fifth sliding block to complete the closing process;

step seven: when a workpiece reaches the tapping device, the disc stops rotating, the sixth cylinder pushes the sixth sliding block to complete a tapping process, and the bin position rotates to a station of the bin discharging mechanism;

step eight: and when the workpiece reaches the station of the warehouse outlet mechanism, the ejector rod on the piston rod of the seventh cylinder rises to eject the workpiece to the connecting block, and the air blowing port on the connecting plate blows out the workpiece.

Compared with the prior art, the invention has the beneficial effects that:

1. the equipment is provided with a feeding mechanism, a turning mechanism, a processing mechanism and a delivery mechanism, wherein the processing mechanism is provided with a first drilling device, a second drilling device, a first grooving device, a second grooving device, a tapping device and a closing device, the equipment can complete all procedures of terminals from blank body finished products, and the simplified traditional complicated process of producing the terminals is realized.

2. The rotating mechanism is provided with a disc, a servo motor, a first transmission shaft, a second transmission shaft, a cam and a sensor, a plurality of bin positions are arranged on the disc, and a machining device of the machining mechanism can machine workpieces on the current bin positions at the same time, so that the capacity of the equipment is greatly improved.

3. The closing-up device is provided with the sleeve, and the inside air current that is provided with in the gas blow mouthful sleeve of sleeve can blow away the metal piece that remains in the preceding cutting of work piece and the drilling process, prevents that the metal piece from adhering in the work piece to improve the precision of closing up, improve the quality of product.

Drawings

FIG. 1: do the utility model discloses the whole spatial structure schematic diagram of equipment.

FIG. 2: do the utility model discloses the equipment overlooks the structure sketch map.

FIG. 3: do the utility model discloses feed mechanism structure schematic diagram.

FIG. 4: do the utility model discloses the processing agency structure sketch map.

FIG. 5: do the utility model discloses a drilling equipment's schematic structure diagram.

FIG. 6: do the utility model discloses the structural schematic diagram of second drilling equipment.

FIG. 7: is the structure schematic diagram of the first grooving device of the utility model.

FIG. 8: is a schematic view of a second grooving device of the present invention.

FIG. 9: is the structure schematic diagram of the tapping device of the utility model.

FIG. 10: do the utility model discloses the structure schematic diagram of binding off device.

FIG. 11: do the utility model discloses the structure schematic diagram of mechanism of delivering from godown.

FIG. 12: does the structure schematic diagram of the turning mechanism of the utility model.

FIG. 13: do the utility model discloses position of a storehouse and work piece complex sketch map.

Reference numerals:

1-case, 2-feeding mechanism, 3-turning mechanism, 4-processing mechanism, 5-discharging mechanism, 101-air compressor, 102-control cabinet, 103 control panel, 201-vibration disc, 202 pushing device, 203-support frame, 204-first material rail, 205-push rod, 206-second material rail, 301-disc, 302-rotating device, 304-shell, 305-servo motor, 306-steering box, 307-cam, 308-first sensor, 309-bin position, 310-second sensor, 401-first drilling device, 402-second drilling device, 403-first grooving device, 404-second grooving device, 405-tapping device, 406-closing device, 407-first support, 407-second support, 408-first sliding block, 409-first guide rail, 410-first electric drill, 411-first air cylinder, 412-second support, 413-second sliding block, 414-second guide rail, 415-second electric drill, 416-second air cylinder, 417-third support, 418-third sliding block, 419-third guide rail, 420-third air cylinder, 421-first groove cutter, 423-fourth support, 424-fourth sliding block, 425-fourth guide rail, 426-fourth air cylinder, 427-second groove cutter, 428-sixth support, sleeve 429, 430-sixth air cylinder, 431-fifth support, 432-fifth sliding block, 433-fifth guide rail, 434-fifth air cylinder, 435 tapping electric drill, 437-first air pipe connecting port, 501-warehouse outlet mechanism, 502-connecting block, 503-seventh support, 504-ejector rod, 505-baffle, 506-square groove, 507-through hole, 508-second air pipe connecting port.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-11, the utility model provides an automatic processing device for a high-efficiency male-female plug butt terminal, which comprises a case 1, a feeding mechanism 2, a turning mechanism 3, a processing mechanism 4 and a delivery mechanism 5, wherein the feeding mechanism 2, the turning mechanism 3, the processing mechanism 4 and the delivery mechanism 5 are all arranged on a panel of the case 1; the feeding mechanism 2 comprises a vibration disc 201 and a material pushing device 202, a support frame 203 is arranged at the lower end of the vibration disc 201, a discharge hole of the vibration disc 201 is connected with one end of a first material rail 204, and the other end of the first material rail 204 is connected with the material pushing device 202.

The rotating mechanism 3 comprises a disc 301, one surface of the disc 301 is connected with a rotating device 302, the other surface of the disc is provided with a plurality of bins 309, and the bins 309 are circumferentially distributed on the disc 301 by taking the circle center of the disc 301 as the center;

wherein, the rotating device 302 is arranged below the disc 301, the rotating device 302 comprises a shell 304, a servo motor 305, a steering box 306, a cam 307 and a sensor 308, the sensor 308 is arranged outside the shell 304, an output shaft of the servo motor 305 is connected with an input shaft of the steering box 306, a first output shaft of the steering box 306 is connected with the center of the disc, and a second output shaft of the steering box 306 is connected with the cam 307.

Specifically, the number of the bins 309 is 8, the transmission ratio between the first output shaft and the second output shaft of the steering box 306 is 1: 8, that is, when the rotation angle of the first output shaft is 45 °, the rotation angle of the second output shaft is 360 °, the cam 307 is connected with the second output shaft, and each signal detected by the sensor 308 corresponds to the rotation of the cam by 360 °.

The machining mechanism 4 comprises a first drilling device 401, a second drilling device 402, a first grooving device 403, a second grooving device 404, a tapping device 405 and a closing device 406, and the first drilling device 401, the second drilling device 402, the first grooving device 403, the second grooving device 404, the tapping device 405 and the closing device 406 are circumferentially distributed on the panel of the case 1 by taking the circle center of the disc 301 as the center;

the first drilling device 401 comprises a first support 407, a first sliding block 408, a first guide rail 409, a first electric drill 410 and a first air cylinder 411, the first guide rail 409 is arranged on the first support 407, the first electric drill 410 is arranged on the first sliding block 408, one end of the first sliding block 408 is connected with a piston rod of the first air cylinder 411, and the first sliding block 408 can move up and down in the first guide rail 409 so as to drive the first electric drill 410 to move up and down and complete a first drilling process.

The second drilling device 402 includes a second support 412, a second slider 413, a second guide rail 414, a second electric drill 415, and a second air cylinder 416, where the second guide rail 414 is disposed on the second support 412, the second electric drill 415 is disposed on the second slider 413, one end of the slid second slider 413 is connected to a piston rod of the second air cylinder 416, and the second slider 413 can move back and forth in the second guide rail 414, so as to drive the second electric drill 415 to move back and forth, thereby completing a second drilling process.

The first grooving device (403) comprises a third bracket 417, a third slide block 418, a third guide rail 419, a third air cylinder 420 and a first grooving machine 421, wherein the third guide rail 419 is arranged on the third bracket 417, the first grooving machine 421 is arranged on the third slide block 418, one end of the third sliding block 418 is connected with a piston rod of the third air cylinder 420, and the third slide block 418 can move back and forth in the third guide rail 419 to drive the first grooving machine 420 to move back and forth, thereby completing a first grooving process.

The second grooving apparatus 422 includes a fourth support 423, a fourth slider 424, a fourth guide 425, a fourth cylinder 426 and a second grooving machine 427, the fourth guide 425 is disposed on the fourth support 423, the second grooving machine 427 is disposed on the fourth slider 424, one end of the fourth slider 424 is connected to a piston rod of the fourth cylinder 426, and the fourth slider 424 can move back and forth in the fourth guide 425 to drive the second grooving machine 427 to move back and forth, thereby completing the second grooving process.

The tapping device comprises a fifth support 431, a fifth sliding block 432, a fifth guide rail 433, a fifth air cylinder 434 and a tapping electric drill 435, wherein the fifth guide rail 433 is arranged on the fifth support 431, the tapping electric drill 435 is arranged on the fifth sliding block 432, one end of the fifth sliding block 432 is connected with a piston rod of the fifth air cylinder 434, and the fifth sliding block 432 can move back and forth in the fifth guide rail 433, so that the tapping electric drill 435 is driven to move back and forth, and the tapping process is completed.

The necking device comprises a sixth support 428, a sleeve 429 and a sixth air cylinder 430, the sleeve 429 is connected with a piston rod of the sixth air cylinder 430, the sixth air cylinder 430 is mounted on the panel of the chassis, the piston rod of the sixth air cylinder 430 pushes the sleeve 429 upwards, and the sleeve 429 moves upwards, so that the necking process is completed.

The discharging mechanism 5 comprises a seventh air cylinder 501, a connecting block 502 and a seventh support 503, the seventh air cylinder 501 is arranged on the seventh support 503, a push rod 504 is arranged on a piston rod of the seventh air cylinder 501, the connecting block 502 is arranged on the seventh support 503, a square groove 506 is arranged at the top of the connecting block 502, a through hole 507 is arranged at the bottom of the connecting block 502, and a second air pipe connecting port 508 is arranged on the side surface of the connecting block 502. The processing device of the processing mechanism 4 can process the workpieces on the current bin 309 at the same time, so that the capacity of the equipment is greatly improved.

As a preferred embodiment of the present invention, the case 1 further includes an air compressor 101, a control cabinet 102 and a control panel 103.

As a preferred embodiment of the present invention, the first support 407, the second support 412, the third support 417, the fourth support 423, the fifth support 431, and the sixth support 428 are all provided with an auxiliary cylinder 438 at the top thereof, a piston rod of the auxiliary cylinder 438 penetrates through the top of the support and extends toward the direction of the storage 309, when the machining device machines a workpiece, the piston rod of the auxiliary cylinder 438 moves downward to fix the machined workpiece, thereby preventing the workpiece from shifting during machining, and improving the precision.

As the preferred embodiment of the present invention, the sleeve 429 has one end provided with a first air pipe connection port 437, the first air pipe connection port 437 is connected to the air compressor 101 through an air pipe, the air flow generated inside the sleeve 429 can blow away the metal chips left in the cutting and drilling processes in front of the workpiece, so as to prevent the metal chips from adhering to the workpiece.

As the utility model discloses the embodiment of preferred, be provided with baffle 505 on the seventh support 503, the one end of baffle 505 with connecting block 502 one end is connected, the other end of baffle 505 with connect the hopper to be connected, when the air current on the connecting block 502 blew off the work piece, the baffle can keep off the work piece and go into and connect the hopper, owing to connect the hopper only be used for accepting the finished product, its shape and position can be according to setting up in the actual production, no longer describe in this embodiment.

As an embodiment of the present invention, a plurality of second sensors 310 are disposed under the disc 301, the second sensors 310 are respectively disposed on the corresponding stations of the first drilling device 401, the second drilling device 402, the first grooving device 403, the second grooving device 404, the tapping device 405, and the closing device 406, and are fixed on the housing 304, the second sensors 310 are used to check whether there is a workpiece in the corresponding bin 309 of the current processing device, and if no workpiece is detected in the bin, the processing device does not operate, so that the energy consumption of the equipment is reduced.

As the preferred embodiment of the present invention, the material pushing device 201 includes a push rod 205 and a second material rail 206, the push rod 205 is connected to the piston rod of the cylinder, and one end of the second material rail 206 is connected to the first material rail 204.

The working method of the equipment specifically comprises the following steps:

the method comprises the following steps: workpieces enter the pushing mechanism 202 from the first material rail 204 after being sequenced by the vibrating disc 201, the workpieces are pushed into a bin by a pushing rod 205 on the feeding mechanism 202, the disc 301 rotates, and the bin 309 rotates to a station of the first drilling device 401;

step two: when a workpiece reaches the first drilling device 401, the disc 301 stops rotating, the first electric drill works 410, the first air cylinder 411 pushes the first sliding block 408, the first electric drill 410 drills the workpiece to complete a first drilling process, the disc 301 rotates, and the bin 309 rotates to a station of the first grooving device 401;

step three: when a workpiece reaches the first grooving device 403, the disc 301 stops rotating, the first grooving machine 421 works, the third air cylinder 420 pushes the third sliding block 418, the first grooving machine 421 performs grooving on the workpiece, a first grooving process is completed, the disc 301 rotates, and the bin 309 rotates to a station of the second drilling device 402;

step four: when a workpiece arrives at a station of the second drilling device 402, the disc 301 stops rotating, the second electric drill 415 works, the second air cylinder 416 pushes the second sliding block 413, the second electric drill 415 drills the workpiece to complete a second hole drilling process, the disc 301 rotates, and the bin 309 rotates to a station of the second grooving device 422;

step five: when a workpiece arrives at the station of the second grooving apparatus 422, the rotation of the disc 301 is stopped, the second grooving apparatus 427 is operated, the fourth cylinder 426 pushes the fourth slider 424, the second grooving apparatus 427 performs grooving on the workpiece to complete the second grooving process, the disc 301 rotates, and the bin 309 rotates to the station of the take-up apparatus 406;

step six: when a workpiece arrives at a station of the closing device 406, the disc 301 stops rotating, the sixth air cylinder 430 pushes the sleeve 429, the sleeve 429 moves upwards and sleeves one end of the workpiece to complete a closing process, the disc 301 rotates, and the bin 309 rotates to the station of the tapping device 405;

step seven: when a workpiece reaches a station of the tapping device 405, the disc 301 stops rotating, the electric tapping drill works, the fifth cylinder 434 pushes the fifth slider 432, the electric tapping drill 435 taps the workpiece to complete a tapping process, the disc 301 rotates, and the bin 309 rotates to the station of the discharging mechanism 5;

step eight: when the workpiece reaches the station of the warehouse-out mechanism 5, the ejector rod 504 on the piston rod of the seventh cylinder 501 ascends to eject the workpiece to the connecting block 502, and the air blowing port on the connecting block 502 generates air flow to blow the workpiece out.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (9)

1. The utility model provides an automatic processing equipment of high-efficient public female butt joint terminal of inserting which characterized in that, includes quick-witted case (1), feeding mechanism (2), turns mechanism (3), processing mechanism (4) and delivery mechanism (5), feeding mechanism (2), turn mechanism (3), processing mechanism (4) and delivery mechanism (5) all set up on the panel of quick-witted case (1).

2. The automatic processing equipment for the efficient male-female plug butt-joint terminal is characterized in that the rotator mechanism comprises a disc (301), one surface of the disc (301) is connected with a rotating device (302), the rotating device (302) comprises a shell (304), a servo motor (305), a steering box (306), a cam (307) and a sensor (308), the sensor (308) is arranged outside the shell (304), an output shaft of the servo motor (305) is connected with an input shaft of the steering box (306), a first output shaft of the steering box (306) is connected with the center of the disc (301), and a second output shaft of the steering box (306) is connected with the cam (307);

the machining mechanism (4) comprises a first drilling device (401), a second drilling device (402), a first grooving device (403), a second grooving device (404), a tapping device (405) and a closing device (406), and the first drilling device (401), the second drilling device (402), the first grooving device (403), the second grooving device (404), the tapping device (405) and the closing device (406) are circumferentially distributed on a panel of the case (1) by taking the circle center of the disc (301) as the center.

3. The automatic processing equipment for the efficient male and female plug butt-joint terminal according to claim 1, wherein the feeding mechanism (2) comprises a vibrating disk (201) and a material pushing device (202), a supporting frame (203) is arranged at the lower end of the vibrating disk (201), a discharge hole of the vibrating disk (201) is connected with one end of a first material rail (204), and the other end of the first material rail (204) is connected with the material pushing device (202).

4. The automatic processing equipment for the efficient male and female plug butt-joint terminal as claimed in claim 2, wherein a plurality of bins (309) are arranged on the other surface of the disc (301), and the bins (309) are distributed on the disc (301) circumferentially around the center of the circle of the disc (301).

5. The automatic processing equipment for the efficient male-female plug butt-joint terminal is characterized in that the first drilling device (401) comprises a first support (407), a first sliding block (408), a first guide rail (409), a first electric drill (410) and a first air cylinder (411), wherein the first guide rail (409) is arranged on the first support (407), the first electric drill (410) is arranged on the first sliding block (408), one end of the first sliding block (408) is connected with a piston rod of the first air cylinder (411), and the first sliding block (408) can move up and down in the first guide rail (409);

the second drilling device (402) comprises a second support (412), a second sliding block (413), a second guide rail (414), a second electric drill (415) and a second air cylinder (416), wherein the second guide rail (414) is arranged on the second support (412), the second electric drill (415) is arranged on the second sliding block (413), one end of the second sliding block (413) is connected with a piston rod of the second air cylinder (416), and the second sliding block (413) can move back and forth in the second guide rail (414);

the first grooving device comprises a third bracket (417), a third sliding block (418), a third guide rail (419), a third air cylinder (420) and a first grooving machine (421), wherein the third guide rail (419) is arranged on the third bracket (417), the first grooving machine (421) is arranged on the third sliding block (418), one end of the third sliding block (418) is connected with a piston rod of the third air cylinder (420), and the third sliding block (418) can move back and forth in the third guide rail (419);

the second grooving device (404) comprises a fourth bracket (423), a fourth sliding block (424), a fourth guide rail (425), a fourth air cylinder (426) and a second grooving machine (427), wherein the fourth guide rail (425) is arranged on the fourth bracket (423), the second grooving machine (427) is arranged on the fourth sliding block (424), one end of the fourth sliding block (424) is connected with a piston rod of the fourth air cylinder (426), and the fourth sliding block (424) can move back and forth in the fourth guide rail (425);

the tapping device (405) comprises a fifth support (431), a fifth sliding block (432), a fifth guide rail (433), a fifth air cylinder (434) and a tapping electric drill (435), wherein the fifth guide rail (433) is arranged on the fifth support (431), the tapping electric drill (435) is arranged on the fifth sliding block (432), one end of the fifth sliding block (432) is connected with a piston rod of the fifth air cylinder (434), and the fifth sliding block (432) can move back and forth in the fifth guide rail (433);

the closing-in device (406) comprises a sixth support (428), a sleeve (429) and a sixth air cylinder (430), the sixth air cylinder (430) is installed on the panel of the case (1), and the sleeve (429) is connected with a piston rod of the sixth air cylinder (430).

6. The automatic processing equipment for the efficient male and female plug butt-joint terminal according to claim 2, wherein the warehouse outlet mechanism (5) comprises a seventh cylinder (501), a connecting block (502) and a seventh support (503), the seventh cylinder (501) is arranged on the seventh support (503), a push rod (504) is arranged on a piston rod of the seventh cylinder (501), the connecting block (502) is arranged on the seventh support (503), a square groove (506) is arranged at the top of the connecting block (502), a through hole (507) is arranged at the bottom of the connecting block (502), and a second air pipe connecting port (508) is arranged at the side of the connecting block (502).

7. The automatic processing equipment for the efficient male-female plug butt-joint terminal is characterized in that the machine box (1) further comprises an air compressor (101), a control cabinet (102) and a control panel (103).

8. The automatic processing equipment for the high-efficiency male-female plug butt-joint terminal according to claim 6, wherein a baffle (505) is arranged on the seventh bracket (503), and the baffle (505) is connected with one end of the connecting block (502).

9. The automatic processing equipment for the efficient male-female plug butt-joint terminal according to claim 3, wherein the material pushing device (202) comprises a push rod (205) and a second material rail (206), the push rod (205) is connected with a cylinder, and one end of the second material rail (206) is connected with the first material rail (204).

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