CN113488829A - Pin sleeve machine for producing internet of things connecting module - Google Patents

Abstract

The invention relates to the field of production of Internet of things, in particular to a stitch sleeving machine for producing an Internet of things connection module, which comprises a special-shaped slotted underframe, a placing plate I, a blanking box, a placing plate II and the like; a placing plate I is fixedly mounted on the special-shaped slotted chassis, a blanking box is fixedly mounted on the placing plate I, and a placing plate II is arranged on the special-shaped slotted chassis. The sliding slotting wedge-shaped frame and the device on the sliding slotting wedge-shaped frame are pushed to move oppositely through the L-shaped wedge-shaped frame, the limiting wedge-shaped block does not block the special-shaped slotting push plate any more, the stretching spring in a stretching state resets and drives the special-shaped slotting push plate to move towards the direction close to the blanking box, the special-shaped slotting push plate pushes the pins to move towards the direction close to the blanking box, and the pins are sleeved in the insulating sleeve to be installed into the electronic connector.

Description

Pin sleeve machine for producing internet of things connecting module

Technical Field

The invention relates to the field of Internet of things production, in particular to a stitch sleeving machine for producing an Internet of things connection module.

Background

The internet of things module is a most important key part in the internet of things, is an important link for connecting a cognitive layer and a network layer of the internet of things, belongs to necessary hardware configuration, gathers data information caused by all terminal equipment of the internet of things into computer network machine equipment according to the internet of things module, and then carries out remote control supervision uniformly according to an electronic computer, so that pushing and receiving of wireless network data information between objects can be completed, and the aim of improving the working efficiency according to management method data information is fulfilled.

In the internet of things connection module production technology, a plurality of electronic connectors need to be assembled into the internet of things connection module, and in the existing electronic connector assembly technology, large-scale mechanical equipment is generally adopted to sleeve the pin on the insulating sleeve, and the pin is fragile, so that the pin is easily damaged by the large-scale mechanical equipment, and the qualified rate is low.

Disclosure of Invention

The invention aims to provide a pin sleeving machine for producing an internet of things connecting module, which can sleeve pins into an insulating sleeve, can complete the installation of an electronic connector, can collect the installed electronic connector and is not easy to damage the pins, so as to solve the problem that the pins are easy to damage by large-scale mechanical equipment in the background art.

The technical scheme of the invention is as follows: the utility model provides a stitch cover machine for producing thing networking link module, including heterotypic fluting chassis, place board one, the blanking box, place board two, promote clamping mechanism, aligning gear, stop gear and pushing mechanism, fixed mounting places board one on the heterotypic fluting chassis, place board one and go up fixed mounting and have the blanking box, be provided with on the heterotypic fluting chassis and place board two, stop gear sets up on the heterotypic fluting chassis, promote clamping mechanism and locate on stop gear, the symmetry is equipped with aligning gear on the heterotypic fluting chassis, pushing mechanism sets up on the heterotypic fluting chassis equally.

As a preferred technical scheme of the invention, the pushing and clamping mechanism comprises an N-shaped push rod frame, an electric push rod, a special-shaped connecting rod, a supporting wedge frame, a rotating shaft, a triangular frame, a first torsion spring, a rectangular sliding block, a slotting sliding frame, a first return spring, a clamping plate, a second return spring, a shifting rod and a second torsion spring, wherein the N-shaped push rod frame is arranged on a limiting mechanism, the electric push rod is fixedly arranged on the N-shaped push rod frame, the special-shaped connecting rod is welded on an expansion shaft of the electric push rod, the supporting wedge frame is symmetrically and fixedly arranged on the special-shaped slotting bottom frame, the two pairs of rotating shafts are rotatably connected on the supporting wedge frame, the triangular frame is welded on the rotating shaft, the first torsion spring is fixedly connected on the rotating shaft, one end of the first torsion spring is connected with the supporting wedge frame, the rectangular sliding block is fixedly arranged on the special-shaped connecting rod, the slotting sliding frame is connected on the rectangular sliding block in a lifting manner, the slotting sliding frame is in mutual contact with two triangular supports, a first reset spring is connected to the slotting sliding frame, one end of the first reset spring is connected with the rectangular sliding block, the slotting sliding frame is connected with two clamping plates in a sliding mode, a second reset spring is connected to the clamping plates in a connecting mode, one end of the second reset spring is fixedly connected with the slotting sliding frame, two special-shaped sliding grooves are formed in the slotting sliding frame, the clamping plates are connected with a shifting rod in a rotating mode, the shifting rod is located in the slotting sliding frame and is in limit fit with the special-shaped sliding grooves, and a pair of second torsion springs are connected between the shifting rod and the clamping plates.

As a preferred technical scheme of the invention, the correcting mechanism comprises a double-sided slide rail frame, a gear, a T-shaped connecting rod, a first rack, a rectangular slide rail frame, a slotting sliding block, a third return spring, a special-shaped slotting push rod, a fourth return spring, a second rack, a slotting swing rod, a sliding wedge block and a fifth return spring, wherein the double-sided slide rail frame is symmetrically arranged on a special-shaped slotting underframe, the double-sided slide rail frame is rotatably connected with the gear, the double-sided slide rail frame is rotatably connected with the T-shaped connecting rod, the two T-shaped connecting rods are mutually contacted, the first rack is welded on the T-shaped connecting rod, the rectangular slide rail frame is fixedly arranged at two sides of the blanking box, the rectangular slide rail frame is rotatably connected with the slotting sliding block, the third return spring is connected on the slotting sliding block in a linkage manner, one end of the third return spring is connected with the rectangular slide rail frame, the special-shaped slotting push rod is slidably connected with the special-shaped slotting push rod, the fourth return spring is fixedly connected on the special-shaped slotting push rod, one end of a fourth reset spring is fixedly connected with the slotting sliding block, a second rack is welded on the slotting sliding block, two slotting swing rods are fixedly installed on the top surface of the blanking box, the slotting swing rods are in limit fit with the special-shaped slotting push rod, a sliding wedge block is connected on the special-shaped slotting push rod in a sliding mode, a fifth reset spring is connected between the sliding wedge block and the special-shaped slotting push rod, and the fifth reset spring is located in the special-shaped slotting push rod.

As a preferred technical scheme of the invention, the limiting mechanism comprises an L-shaped slotting frame, an L-shaped wedge frame, a sixth reset spring, a sliding slotting wedge frame, a seventh reset spring, a limiting wedge block and an eighth reset spring, the L-shaped slotting frame is symmetrically and fixedly arranged on the special-shaped slotting underframe, N-shaped push rod frames are commonly supported on the two L-shaped slotting frames, the L-shaped slotting frame is connected with the L-shaped wedge frame in a sliding way, the L-shaped wedge frame is fixedly connected with the sixth reset spring, one end of the sixth reset spring is connected with the L-shaped slotting frame, the special-shaped slotting underframe is connected with the sliding slotting wedge frame in a sliding way, the inclined plane of the sliding slotting wedge frame is level with the inclined plane of the L-shaped wedge frame, the sliding slotting wedge frame is connected with the seventh reset spring, one end of the seventh reset spring is connected with the special-shaped slotting underframe, the limiting sliding block is connected with the sliding slotting wedge frame, an eighth reset spring is fixedly connected to the limiting wedge block, and one end of the eighth reset spring is connected with the sliding slotted wedge frame.

As a preferred technical scheme of the invention, the pushing mechanism comprises a special-shaped slotting push plate, an extension spring, a fixed wedge-shaped frame, a reset rod and a ninth reset spring, the special-shaped slotting push plate is connected on a special-shaped slotting chassis in a sliding manner, a limiting wedge-shaped block is in mutual contact with the special-shaped slotting push plate, the extension spring is connected on the special-shaped slotting push plate in a coupling manner, one end of the extension spring is connected with the special-shaped slotting chassis, the fixed wedge-shaped frames are symmetrically arranged on the special-shaped slotting chassis, the reset rod is connected on the special-shaped slotting push plate in a sliding manner, the reset rod is in mutual contact with the fixed wedge-shaped frame, the top surface of the reset rod is welded with the ninth reset spring, and one end of the ninth reset spring is fixedly connected with the special-shaped slotting push plate.

As a preferred technical scheme of the invention, the special-shaped slotting machine further comprises a wedge-shaped blocking plate and a tenth reset spring, the two wedge-shaped blocking plates are connected on the special-shaped slotting chassis in a sliding mode, the wedge-shaped blocking plates are in mutual contact with the special-shaped slotting push plate, the tenth reset spring is connected on the wedge-shaped blocking plates in a connecting mode, and one end of the tenth reset spring is fixedly connected with the special-shaped slotting chassis.

The invention has the beneficial effects that:

the slotting sliding frame and the upper device of the slotting sliding frame can be pushed to move downwards through the triangular frame, the supporting wedge-shaped frame can push the clamping plate and the upper device of the clamping plate to move in opposite directions, and the pin is clamped by the clamping plate, so that the clamping plate drives the pin to move towards the direction close to the blanking box, and the pin is convenient to place on the special-shaped slotting chassis.

The sliding slotting wedge-shaped frame and the device on the sliding slotting wedge-shaped frame are pushed to move oppositely through the L-shaped wedge-shaped frame, the limiting wedge-shaped block does not block the special-shaped slotting push plate any more, the stretching spring in a stretching state resets and drives the special-shaped slotting push plate to move towards the direction close to the blanking box, the special-shaped slotting push plate pushes the pins to move towards the direction close to the blanking box, and the pins are sleeved in the insulating sleeve to be installed into the electronic connector.

Through the effect of the slotting oscillating bar, the relative motion of the special-shaped slotting push rod does not clamp the installed electronic connector any more, and the sliding wedge block pushes the installed electronic connector into the blanking box, so that the electronic connector can be conveniently collected by subsequent workers.

Drawings

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

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a partial perspective view of the push clamping mechanism of the present invention.

Fig. 5 is an enlarged schematic view of the structure of the present invention a.

Fig. 6 is a partially disassembled perspective view of the push clamping mechanism of the present invention.

FIG. 7 is an enlarged schematic view of the present invention B.

FIG. 8 is a schematic diagram of a separated perspective structure of the calibration mechanism of the present invention.

Fig. 9 is a schematic separated perspective structure of the limiting mechanism of the present invention.

Fig. 10 is a schematic perspective view of the pushing mechanism of the present invention.

Wherein: 1-special-shaped slotted underframe, 2-first placing plate, 3-blanking box, 4-second placing plate, 5-pushing clamping mechanism, 51-N-shaped push rod frame, 52-electric push rod, 53-special-shaped connecting rod, 54-supporting wedge frame, 55-rotating shaft, 56-tripod, 57-first torsion spring, 58-rectangular sliding block, 59-slotted sliding frame, 510-first return spring, 511-clamping plate, 512-second return spring, 513-special-shaped sliding groove, 514-deflector rod, 515-second torsion spring, 6-correcting mechanism, 61-double-sided sliding rail frame, 62-gear, 63-T-shaped connecting rod, 64-first rack, 65-rectangular sliding rail frame, 66-slotted sliding block, 67-third return spring, 68-special-shaped slotted push rod, 69-fourth return spring, 610-rack II, 611-slotted swing rod, 612-sliding wedge block, 613-fifth return spring, 7-limiting mechanism, 71-L-shaped slotted frame, 72-L-shaped wedge frame, 73-sixth return spring, 74-sliding slotted wedge frame, 75-seventh return spring, 76-limiting wedge block, 77-eighth return spring, 8-pushing mechanism, 81-special-shaped slotted push plate, 82-extension spring, 83-fixed wedge frame, 84-return rod, 85-ninth return spring, 9-wedge block plate and 10-tenth return spring.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example 1

A pin sleeve machine for producing an Internet of things connecting module comprises a special-shaped slotted chassis 1, a first placing plate 2, a blanking box 3, a second placing plate 4, a pushing clamping mechanism 5, a correcting mechanism 6, a limiting mechanism 7 and a pushing mechanism 8, wherein the first placing plate 2 for placing an insulating sleeve is fixedly installed on the special-shaped slotted chassis 1, the first placing plate 2 is fixedly installed with the blanking box 3, the blanking box 3 is used for placing an installed electronic connector, the second placing plate 4 for placing pins is arranged on the special-shaped slotted chassis 1 far away from the first placing plate 2, the limiting mechanism 7 is arranged on the special-shaped slotted chassis 1, the pushing clamping mechanism 5 is arranged on the limiting mechanism 7, the correcting mechanism 6 is symmetrically arranged on the special-shaped slotted chassis 1, and the pushing mechanism 8 for pushing the pins to move is also arranged on the special-shaped slotted chassis 1.

The pushing and clamping mechanism 5 comprises an N-shaped push rod frame 51, an electric push rod 52, a special-shaped connecting rod 53, a supporting wedge frame 54, a rotating shaft 55, a triangular frame 56, a first torsion spring 57, a rectangular sliding block 58, a slotted sliding frame 59, a first return spring 510, a clamping plate 511, a second return spring 512, a deflector rod 514 and a second torsion spring 515, wherein the N-shaped push rod frame 51 is arranged on the limiting mechanism 7, the electric push rod 52 is fixedly arranged on the N-shaped push rod frame 51, the special-shaped connecting rod 53 is welded on a telescopic shaft of the electric push rod 52, the supporting wedge frame 54 is symmetrically and fixedly arranged on the special-shaped slotted underframe 1, the supporting wedge frame 54 is used for pushing the clamping plate 511 and the devices on the same to move oppositely, the supporting wedge frame 54 is rotatably connected with two pairs of rotating shafts 55, the rotating shaft 55 is welded with the special-shaped connecting rod 56, the rotating shaft 55 is fixedly connected with the first torsion spring 57, one end of the first torsion spring 57 far away from the rotating shaft 55 is connected with the supporting wedge frame 54, the special-shaped connecting rod 53 is fixedly provided with a rectangular sliding block 58, a slotting sliding frame 59 is connected to the rectangular sliding block 58 in a lifting mode, the slotting sliding frame 59 is in contact with two tripods 56, the tripods 56 are used for pushing the slotting sliding frame 59 and the device thereon to move downwards, a first return spring 510 is connected to the slotting sliding frame 59, one end of the first return spring 510 far away from the slotting sliding frame 59 is connected with the rectangular sliding block 58, the slotting sliding frame 59 is connected with two clamping plates 511 in a sliding mode, the clamping plates 511 are used for clamping connecting pins, a second return spring 512 is connected to the clamping plates 511, one end of the second return spring 512 far away from the clamping plates 511 is fixedly connected with the slotting sliding frame 59, the slotting sliding frame 59 is internally provided with two special-shaped sliding grooves 513, the clamping plates 511 are connected with a deflector rod 514 in a rotating mode, the deflector rod 514 is positioned in the slotting sliding frame 59, and the deflector rod 514 is in spacing fit with the special-shaped sliding grooves 513, a pair of second torsion springs 515 are coupled between the shift lever 514 and the clamping plate 511.

The correcting mechanism 6 comprises a double-sided slide rail frame 61, a gear 62, a T-shaped connecting rod 63, a first rack 64, a rectangular slide rail frame 65, a slotted slide block 66, a third return spring 67, a special-shaped slotted push rod 68, a fourth return spring 69, a second rack 610, a slotted swing rod 611, a sliding wedge block 612 and a fifth return spring 613, the double-sided slide rail frame 61 is symmetrically arranged on the special-shaped slotted underframe 1, the gear 62 is rotationally connected on the double-sided slide rail frame 61, the T-shaped connecting rod 63 is rotationally connected on the double-sided slide rail frame 61 far away from the gear 62, the two T-shaped connecting rods 63 are mutually contacted, the first rack 64 is welded on the T-shaped connecting rod 63, the rectangular slide rail frames 65 are fixedly arranged on two sides of the blanking box 3, the slotted slide rail frame 65 is rotationally connected with the slotted slide block 66, the slotted slide block 66 is connected with the third return spring 67, one end of the third return spring 67 far away from the slotted slide block 66 is connected with the rectangular slide rail frame 65, a special-shaped slotted push rod 68 is connected to the slotted slide block 66 in a sliding manner, a fourth return spring 69 is fixedly connected to the special-shaped slotted push rod 68, one end of the fourth return spring 69 far away from the special-shaped slotted push rod 68 is fixedly connected to the slotted slide block 66, a second rack 610 is welded to the slotted slide block 66 close to the special-shaped slotted push rod 68, two slotted swing rods 611 are fixedly installed on the top surface of the blanking box 3 far away from the rectangular slide rail frame 65, the slotted swing rods 611 are in limit fit with the special-shaped slotted push rod 68, a sliding wedge block 612 is connected to the special-shaped slotted push rod 68 in a sliding manner, the sliding wedge block 612 is used for pushing the installed electronic connector into the blanking box 3, a fifth return spring 613 is connected between the sliding wedge block 612 and the special-shaped slotted push rod 68, and the fifth return spring 613 is located in the special-shaped slotted push rod 68.

The limiting mechanism 7 comprises an L-shaped slotting frame 71, an L-shaped wedge frame 72, a sixth reset spring 73, a sliding slotting wedge frame 74, a seventh reset spring 75, a limiting wedge block 76 and an eighth reset spring 77, the L-shaped slotting frame 71 is symmetrically and fixedly arranged on the special-shaped slotting chassis 1, the N-shaped push rod frame 51 is commonly supported on the two L-shaped slotting frames 71, the L-shaped slotting frame 71 is connected with the L-shaped wedge frame 72 in a sliding manner, the L-shaped wedge frame 72 is fixedly connected with the sixth reset spring 73, one end of the sixth reset spring 73 far away from the L-shaped wedge frame 72 is connected with the L-shaped slotting frame 71, the sliding slotting wedge frame 74 is symmetrically and slidably connected on the special-shaped slotting chassis 1, the inclined plane of the sliding slotting wedge frame 74 is flush with the inclined plane of the L-shaped wedge frame 72, the L-shaped wedge frame 72 is used for pushing the sliding slotting wedge frame 74 and the upper device to move relatively, the sliding slotting frame 74 is connected with the seventh reset spring 75, one end of a seventh reset spring 75 far away from the sliding slotting wedge-shaped frame 74 is connected with the special-shaped slotting chassis 1, the limiting wedge-shaped block 76 is connected on the sliding slotting wedge-shaped frame 74 in a sliding manner, an eighth reset spring 77 is fixedly connected on the limiting wedge-shaped block 76, and one end of the eighth reset spring 77 far away from the limiting wedge-shaped block 76 is connected with the sliding slotting wedge-shaped frame 74.

The pushing mechanism 8 comprises a special-shaped slotting push plate 81, an extension spring 82, a fixed wedge-shaped frame 83, a reset rod 84 and a ninth reset spring 85, the special-shaped slotting push plate 81 is connected on the special-shaped slotting chassis 1 in a sliding manner, the special-shaped slotting push plate 81 is used for pushing pins to move towards the direction close to the blanking box 3, a limiting wedge block 76 is in contact with the special-shaped slotting push plate 81, the limiting wedge block 76 is used for blocking the special-shaped slotting push plate 81, the extension spring 82 is connected on the special-shaped slotting push plate 81, one end of the extension spring 82 far away from the special-shaped slotting push plate 81 is connected with the special-shaped slotting chassis 1, the fixed wedge-shaped frames 83 are symmetrically arranged on the special-shaped slotting chassis 1, the reset rod 84 is connected on the special-shaped slotting push plate 81 in a sliding manner, the reset rod 84 is in contact with the fixed wedge-shaped frame 83, the fixed wedge-shaped frame 83 is used for pushing the reset rod 84 to move upwards, the ninth reset spring 85 is welded on the top surface of the reset rod 84, one end of a ninth return spring 85 far away from the return rod 84 is fixedly connected with the special-shaped slotted push plate 81.

This equipment sets up in thing networking link module production water line, when needs install the electronic connector in the link module, carries the stitch to placing board two 4 through conveying equipment intermittent type nature on, conveying equipment intermittent type nature is carried the insulating cover to placing board 2. The operator manually controls the electric push rod 52 to extend, the electric push rod 52 extends to drive the special-shaped connecting rod 53 and the device thereon to move towards the direction close to the blanking box 3, the triangular frame 56 can push the slotting sliding frame 59 and the device thereon to move downwards, the clamping plate 511 can be contacted with the supporting wedge-shaped frame 54, the supporting wedge-shaped frame 54 can push the clamping plate 511 and the device thereon to move towards each other, the clamping plate 511 clamps the pins, so that the shifting rod 514 slides along the special-shaped sliding groove 513, then the supporting wedge-shaped frame 54 is separated from the clamping plate 511, and the compressed second return spring 512 is reset to drive the clamping plate 511 and the device thereon to move relatively, so that the shifting rod 514 is clamped in the concave part of the special-shaped sliding groove 513. At the same time, the tripod 56 is separated from the slotted sliding frame 59, and the compressed first return spring 510 is reset to drive the slotted sliding frame 59 and the devices thereon to move upwards, so that the clamping plate 511 clamps the pins.

The special-shaped connecting rod 53 and the device thereon continue to move towards the direction close to the blanking box 3, the clamping plate 511 drives the pins to move towards the direction close to the blanking box 3, the triangular frame 56 is in contact with the slotting sliding frame 59, the triangular frame 56 can push the slotting sliding frame 59 and the device thereon to move downwards, so that the clamping plate 511 puts the pins down, the supporting wedge frame 54 is in contact with the clamping plate 511 again, the supporting wedge frame 54 can push the clamping plate 511 and the device thereon to move towards each other, the deflector rod 514 is not clamped in the concave part of the special-shaped chute 513, the compressed second return spring 512 is reset to drive the clamping plate 511 and the device thereon to move relative to each other, and the clamping plate 511 does not clamp the pins any more, so that the pins are placed on the special-shaped bottom frame 1.

Then the rectangular sliding block 58 is contacted with the two T-shaped connecting rods 63, the rectangular sliding block 58 pushes the T-shaped connecting rod 63 and the rack I64 to move towards the direction far away from the placing plate II 4, the rack I64 drives the rack II 610 and the device on the rack II to move towards the direction close to the placing plate II 4 through the gear 62, the third return spring 67 is compressed, the special-shaped slotted push rod 68 moves towards each other through the action of the slotted swing rod 611, the fourth return spring 69 is compressed, the special-shaped slotted push rod 68 moves towards each other to clamp the insulating sleeve on the placing plate II 4, the sliding wedge block 612 is contacted with the insulating sleeve, the insulating sleeve pushes the sliding wedge block 612 to move towards each other, then the sliding wedge block 612 is separated from the insulating sleeve, the compressed fifth return spring 613 resets to drive the sliding wedge block 612 to move towards each other to reset, and the sliding wedge block 612 blocks the insulating sleeve. Then the special-shaped slotting push rod 68 can push the L-shaped wedge-shaped frame 72 to move towards the direction far away from the blanking box 3, the L-shaped wedge-shaped frame 72 pushes the sliding slotting wedge-shaped frame 74 and the device on the sliding slotting wedge-shaped frame to move relatively, the limiting wedge block 76 does not block the special-shaped slotting push plate 81 any more, the stretching spring 82 in the stretching state resets and drives the special-shaped slotting push plate 81 to move towards the direction close to the blanking box 3, so that the special-shaped slotting push plate 81 pushes the pins to move towards the direction close to the blanking box 3, the pins are sleeved in the insulating sleeve, and the insulating sleeve is installed into an electronic connector. At the same time, the fixed wedge frame 83 pushes the reset lever 84 to move upward, and the ninth reset spring 85 is compressed.

Then the worker manually controls the electric push rod 52 to contract, the electric push rod 52 contracts to drive the special-shaped connecting rod 53 and the device on the special-shaped connecting rod to move towards the direction far away from the blanking box 3, the rectangular sliding block 58 is separated from the two T-shaped connecting rods 63, the compressed third return spring 67 resets to drive the slotted sliding block 66 and the device on the slotted sliding block to move towards the direction far away from the placing plate two 4, the special-shaped slotted push rod 68 is separated from the L-shaped wedge frame 72, the sixth return spring 73 in a compressed state resets to drive the L-shaped wedge frame 72 to move towards the direction close to the blanking box 3, the L-shaped wedge frame 72 is separated from the sliding slotted wedge frame 74, and the compressed seventh return spring 75 resets to drive the sliding slotted wedge frame 74 and the device on the sliding slotted wedge frame 74 to move towards each other. Meanwhile, under the action of the slotting swing rod 611, the special-shaped slotting push rod 68 does not clamp the installed electronic connector any more in relative motion, and the sliding wedge-shaped block 612 pushes the installed electronic connector into the blanking box 3, so that the electronic connector can be conveniently collected by a follow-up worker. The second rack 610 drives the first rack 64 to move and reset towards the direction close to the second placing plate 4 through the gear 62.

The special-shaped connecting rod 53 and the upper device thereof continue to move in the direction away from the blanking box 3, when the slotting carriage 59 and the tripod 56 are in contact with each other, the slotting carriage 59 pushes the tripod 56 to rotate, then the special-shaped connecting rod 53 and the reset rod 84 are in contact with each other, the special-shaped connecting rod 53 pushes the reset rod 84 and the upper device thereof to move in the direction away from the blanking box 3, the extension spring 82 is extended, when the special-shaped slotting push plate 81 and the limiting wedge block 76 are in contact with each other, the special-shaped slotting push plate 81 pushes the limiting wedge block 76 to move relatively, then the compressed eighth reset spring 77 resets to drive the limiting wedge block 76 to move relatively to reset, the limiting wedge block 76 blocks the special-shaped slotting push plate 81 to block, and meanwhile, the compressed ninth reset spring 85 resets to drive the reset rod 84 to move downwards to reset under the action of the fixed wedge frame 83.

Example 2

On the basis of the embodiment 1, as shown in fig. 10, the special-shaped slotting chassis further comprises a wedge-shaped blocking plate 9 and a tenth return spring 10, the special-shaped slotting chassis 1 is connected with the two wedge-shaped blocking plates 9 in a sliding mode, the wedge-shaped blocking plates 9 are used for blocking pins, the wedge-shaped blocking plates 9 are in contact with a special-shaped slotting push plate 81, the special-shaped slotting push plate 81 is used for pushing the wedge-shaped blocking plates 9 to move upwards, the wedge-shaped blocking plates 9 are connected with the tenth return spring 10 in a connecting mode, and one end, far away from the wedge-shaped blocking plates 9, of the tenth return spring 10 is fixedly connected with the special-shaped slotting chassis 1.

When the special-shaped slotting push plate 81 moves towards the direction close to the blanking box 3, the special-shaped slotting push plate 81 pushes the wedge-shaped blocking plate 9 to move upwards, and the wedge-shaped blocking plate 9 blocks the stitches to prevent the stitches from swinging when being pushed. When the special-shaped slotting push plate 81 moves towards the direction far away from the blanking box 3, the special-shaped slotting push plate 81 is separated from the wedge-shaped blocking plate 9, and the compressed tenth reset spring 10 resets to drive the wedge-shaped blocking plate 9 to move downwards for resetting.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A stitch cover machine for producing thing networking link module which characterized in that: the special-shaped slotting machine comprises a special-shaped slotting chassis (1), a first placing plate (2), a blanking box (3), a second placing plate (4), a pushing and clamping mechanism (5), a correcting mechanism (6), a limiting mechanism (7) and a pushing mechanism (8), wherein the first placing plate (2) is fixedly installed on the special-shaped slotting chassis (1), the blanking box (3) is fixedly installed on the first placing plate (2), the second placing plate (4) is arranged on the special-shaped slotting chassis (1), the limiting mechanism (7) is arranged on the special-shaped slotting chassis (1), the pushing and clamping mechanism (5) is arranged on the limiting mechanism (7), the correcting mechanism (6) is symmetrically arranged on the special-shaped slotting chassis (1), and the pushing mechanism (8) is also arranged on the special-shaped slotting chassis (1).

2. The pin bushing machine for producing the internet of things connection module as claimed in claim 1, wherein: the pushing and clamping mechanism (5) comprises an N-shaped push rod frame (51), an electric push rod (52), a special-shaped connecting rod (53), a supporting wedge frame (54), a rotating shaft (55), a tripod (56), a first torsion spring (57), a rectangular sliding block (58), a slotted sliding frame (59), a first reset spring (510), a clamping plate (511), a second reset spring (512), a shifting rod (514) and a second torsion spring (515), wherein the N-shaped push rod frame (51) is arranged on the limiting mechanism (7), the electric push rod (52) is fixedly arranged on the N-shaped push rod frame (51), the special-shaped connecting rod (53) is welded on the telescopic shaft of the electric push rod (52), the supporting wedge frame (54) is symmetrically and fixedly arranged on the special-shaped slotted bottom frame (1), the supporting wedge frame (54) is rotatably connected with two pairs of rotating shafts (55), and the tripod (56) is welded on the rotating shafts (55), a first torsion spring (57) is fixedly connected to the rotating shaft (55), one end of the first torsion spring (57) is connected with the supporting wedge-shaped frame (54), a rectangular sliding block (58) is fixedly installed on the special-shaped connecting rod (53), a slotting sliding frame (59) is connected to the rectangular sliding block (58) in a lifting mode, the slotting sliding frame (59) is in contact with two triangular frames (56) in the slotting sliding frame, a first return spring (510) is connected to the slotting sliding frame (59), one end of the first return spring (510) is connected to the rectangular sliding block (58), two clamping plates (511) are connected to the slotting sliding frame (59) in a sliding mode, a second return spring (512) is connected to the clamping plates (511) in a connecting mode, one end of the second return spring (512) is fixedly connected to the slotting sliding frame (59), two special-shaped sliding grooves (513) are formed in the slotting sliding frame (59), and a shifting lever (514) is connected to the clamping plates (511) in a rotating mode, the deflector rod (514) is positioned in the slotted sliding frame (59), the deflector rod (514) is in limit fit with the special-shaped sliding groove (513), and a pair of second torsion springs (515) is connected between the deflector rod (514) and the clamping plate (511).

3. The pin bushing machine for producing the internet of things connection module as claimed in claim 2, wherein: the correcting mechanism (6) comprises a double-sided slide rail frame (61), a gear (62), a T-shaped connecting rod (63), a first rack (64), a rectangular slide rail frame (65), a slotting sliding block (66), a third reset spring (67), a special-shaped slotting push rod (68), a fourth reset spring (69), a second rack (610), a slotting swing rod (611), a sliding wedge block (612) and a fifth reset spring (613), the double-sided slide rail frame (61) is symmetrically arranged on the special-shaped slotting bottom frame (1), the gear (62) is rotatably connected on the double-sided slide rail frame (61), the T-shaped connecting rod (63) is slidably connected on the double-sided slide rail frame (61), the two T-shaped connecting rods (63) are mutually contacted, the first rack (64) is welded on the T-shaped connecting rod (63), the rectangular slide rail frames (65) are fixedly installed on two sides of the blanking box (3), the slotting sliding block (66) is slidably connected on the rectangular slide rail frame (65), a third return spring (67) is connected to the slotted sliding block (66), one end of the third return spring (67) is connected with the rectangular sliding rail frame (65), the slotted sliding block (66) is connected with a special-shaped slotted push rod (68) in a sliding mode, a fourth return spring (69) is fixedly connected to the special-shaped slotted push rod (68), one end of the fourth return spring (69) is fixedly connected with the slotted sliding block (66), a second rack (610) is welded to the slotted sliding block (66), two slotted swing rods (611) are fixedly installed on the top surface of the blanking box (3), the slotted swing rods (611) are in limit fit with the special-shaped slotted push rod (68), a sliding wedge block (612) is connected to the special-shaped slotted push rod (68) in a sliding mode, a fifth return spring (613) is connected between the sliding wedge block (612) and the special-shaped slotted push rod (68), and the fifth return spring (613) is located in the special-shaped slotted push rod (68).

4. A pin bushing machine for producing an internet of things connection module as claimed in claim 3, wherein: the limiting mechanism (7) comprises an L-shaped slotting frame (71), an L-shaped wedge frame (72), a sixth reset spring (73), a sliding slotting wedge frame (74), a seventh reset spring (75), a limiting wedge block (76) and an eighth reset spring (77), the L-shaped slotting frame (71) is symmetrically and fixedly installed on the special-shaped slotting chassis (1), the N-shaped push rod frame (51) is jointly supported on the two L-shaped slotting frames (71), the L-shaped slotting frame (71) is connected with the L-shaped wedge frame (72) in a sliding mode, the L-shaped wedge frame (72) is fixedly connected with the sixth reset spring (73), one end of the sixth reset spring (73) is connected with the L-shaped slotting frame (71), the sliding slotting wedge frame (74) is symmetrically connected on the special-shaped slotting chassis (1) in a sliding mode, the inclined plane of the sliding slotting wedge frame (74) is parallel to the inclined plane of the L-shaped wedge frame (72), the seventh reset spring (75) is connected on the sliding slotting wedge frame (74), one end of a seventh reset spring (75) is connected with the special-shaped slotted underframe (1), a limiting wedge block (76) is connected on the sliding slotted wedge frame (74) in a sliding manner, an eighth reset spring (77) is fixedly connected on the limiting wedge block (76), and one end of the eighth reset spring (77) is connected with the sliding slotted wedge frame (74).

5. The pin bushing machine for producing the internet of things connection module as claimed in claim 4, wherein: the pushing mechanism (8) comprises a special-shaped slotted push plate (81), an extension spring (82), a fixed wedge-shaped frame (83), a reset rod (84) and a ninth reset spring (85), the special-shaped slotting push plate (81) is connected with the special-shaped slotting push plate (1) in a sliding mode, the limiting wedge block (76) is in contact with the special-shaped slotting push plate (81), the special-shaped slotting push plate (81) is connected with an extension spring (82) in a connecting mode, one end of the extension spring (82) is connected with the special-shaped slotting push plate (1), the fixed wedge-shaped frame (83) is symmetrically arranged on the special-shaped slotting push plate (1), the special-shaped slotting push plate (81) is connected with a reset rod (84) in a sliding mode, the reset rod (84) is in contact with the fixed wedge-shaped frame (83) in a mutual mode, a ninth reset spring (85) is welded to the top surface of the reset rod (84), and one end of the ninth reset spring (85) is fixedly connected with the special-shaped slotting push plate (81).

6. The pin bushing machine for producing the internet of things connection module as claimed in claim 5, wherein: the special-shaped slotting machine is characterized by further comprising wedge-shaped blocking plates (9) and tenth reset springs (10), the special-shaped slotting chassis (1) is connected with the two wedge-shaped blocking plates (9) in a sliding mode, the wedge-shaped blocking plates (9) are in contact with the special-shaped slotting push plate (81), the tenth reset springs (10) are connected to the wedge-shaped blocking plates (9) in a linkage mode, and one ends of the tenth reset springs (10) are fixedly connected with the special-shaped slotting chassis (1).

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