CN115275732A - Automobile wire harness connector production equipment - Google Patents

Abstract

The invention relates to the technical field of connector processing, in particular to an automobile wire harness connector production device; comprises a supporting frame; the upper end surface of the support frame is provided with a rotating disc through a rotating table, the upper end surface of the rotating disc is uniformly provided with fixing mechanisms along the circumferential direction of the rotating disc, and the front side of the support frame is provided with a feeding mechanism; the invention solves the problems that the existing feeding limits the movement of the shell through the width of the vibration disc, the feeding interruption is easy to be discontinuous, and the visual processing and the mechanical arm are matched for taking, placing and rotating, so that the working efficiency is influenced, and the manufacturing cost is increased; the shell is clamped only by two sides, so that the shell is easy to deviate, the contact element is not easy to insert into the jack of the shell, the jack of the shell is damaged and enlarged, the sealing performance is affected, the contact element is easy to bend and scrap, and the like; the invention reduces the manufacturing cost, improves the processing efficiency and ensures the assembly quality of the shell and the contact element.

Description

Automobile wire harness connector production equipment

Technical Field

The invention relates to the technical field of connector processing, in particular to automobile wire harness connector production equipment.

Background

The automobile wire harness connector is used for connecting each connecting point of an automobile circuit, is an important part on an automobile, and directly influences the transmission effect of electric power or signals on the quality of the automobile wire harness connector; it is mainly composed of a shell, an insulator, a contact, accessories and the like.

The automotive wire harness connector mainly comprises an injection molding shell and a punch forming contact element, and then the contact element and the shell are assembled through a pin inserting machine.

However, the current automotive harness connector mainly has the following problems in the production process: 1. the shell of the existing connector is separated by the vibrating disc and then is sequentially conveyed to a processing area to assemble the shell and the contact piece, but the feeding is carried out in the mode, the shell is limited to move by the width of the vibrating disc, the feeding interruption is easily discontinuous, and the shell needs to be matched with visual processing and a mechanical arm to be taken, placed and rotated, so that the working efficiency is influenced, and the manufacturing cost is increased.

2. The existing connector shell is clamped and fixed from two sides through the air cylinder, but the shell is only clamped through the two sides, so that the shell is tilted by generated extrusion force in the clamping process, the shell is deviated, the contact piece is not easy to insert into the jack of the shell, the jack of the shell is damaged and enlarged, the sealing performance is affected, the contact piece is easy to bend and scrap, and the machining quality of the connector is affected.

Therefore, in order to reduce the manufacturing cost, improve the processing efficiency and ensure the quality of the assembly of the shell and the contact element; the invention provides an automobile wire harness connector production device.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme: an automobile wire harness connector production device comprises a support frame; the rotary disc is installed through the revolving stage to the support frame up end, the up end of rotary disc evenly is provided with fixed establishment along its circumference direction, the front side of support frame is provided with feeding mechanism.

The fixed establishment include the fixed plate, the fixed plate is evenly installed along its circumference direction to the up end of rotary disk, one side that the rotary disk axle center was kept away from each other to the up end of fixed plate respectively is provided with a backup pad, backup pad and fixed plate sliding connection, and the backup pad passes through the driving piece and slides on the fixed plate, the stripper plate is all installed through the spring post to the opposite face of two backup pads, the backup pad is close to a side end face of stripper plate and is provided with the bulldozing piece, a side up end that is close to the rotary disk axle center of fixed plate is provided with down the pressure piece.

The lower pressing piece comprises a square plate, the upper end face of one side, close to the axis of the rotating disk, of the fixing plate is provided with the square plate, a sliding groove is formed in the square plate, an ejector rod is connected in the sliding groove in a sliding mode, the upper end of the ejector rod extends to the upper side of the square plate, a through hole is formed in the end of the ejector rod in the sliding groove, the bottom wall of an inner cavity of the through hole is an inclined plane, a pressing plate is arranged at the end of the ejector rod in the upper portion of the square plate, a first pressure spring is arranged between the pressing plate and the square plate, a lifting 21274plate is arranged on one side, away from the axis of the rotating disk, of the pressing plate, a reset spring is arranged between a vertical section of the lifting 21274plate and the pressing plate, and a pushing piece is arranged on one side, away from the axis of the rotating disk, of the square plate.

Preferably, feeding mechanism include the frame No. one, the front side of support frame is provided with the frame No. one, the baffle is respectively installed to the symmetry around the up end of frame No. one, one side that the baffle is close to the rotary disk is provided with the pay-off passageway, install the conveyer belt between two baffles No. one, the front side of frame is provided with the unit that turns to, the right side of frame is provided with the frame No. two, the symmetry is respectively installed a baffle No. two around the up end of frame No. two, install the conveyer belt No. two between two baffles, no. two conveyer belts are higher than the conveyer belt No. one, be provided with the upset unit between No. two conveyer belts and the conveyer belt.

Preferably, the thrust piece include the push rod, one side sliding connection that the rotary disk axle center was kept away from to the square plate has the push rod, and the push rod runs through the through-hole, is provided with the sloping block of contradicting with the through-hole diapire on the push rod, and the push pedal is installed to one side terminal surface that the square plate was kept away from to the push rod, and the below of push rod is provided with the gag lever post, and the one end of gag lever post is fixed in the push pedal, the other end and the square plate sliding connection of gag lever post, all overlap on gag lever post and the push rod and be equipped with No. two pressure springs, and install respectively on push pedal and square plate No. two pressure spring both ends.

Preferably, the upset unit include the guide bar, two the guide bar is installed through the support in the top of No. two baffles, and the right side of two guide bars is horn mouth shape structure, is provided with the roller between a conveyer belt and No. two conveyer belts, the both ends of roller and No. two baffle rotations are connected, the circumference outer wall front and back symmetry of roller evenly is provided with the square, the up end and the roller upper surface of No. two conveyer belts are tangent.

Preferably, the steering unit comprises a frame, the frame is arranged on the front side of the first frame, the U-shaped conveying belt is arranged on the upper end face of the frame, square openings are formed in the first baffle on the front side and the two ends of the U-shaped conveying belt correspondingly, and a U-shaped opening corresponding to the right square opening is formed in the first baffle on the rear side.

Preferably, the piece that bulldozes include the square groove, the square groove has all been seted up to the opposite face of two backup pads, the sliding connection of square inslot portion has the L shaped plate, a side end face that the L shaped plate of square inslot portion is close to the clamp plate is provided with the conflict piece, and the conflict piece is the right trapezoid structure, the stripper plate is close to a side end face of L shaped plate and installs the actuating lever, and through T-shaped piece and T-shaped groove sliding fit between actuating lever and the conflict piece.

Preferably, the driving part comprises a screw rod, the screw rod is connected in the fixed plate in a rotating mode, the thread section of the screw rod is in threaded connection with the supporting plate, and the two screw rods are connected through a belt pulley mechanism.

Preferably, a material guide plate is arranged on the rear side of the feeding channel, the upper end face of the material guide plate and the bottom wall of the feeding channel are located on the same horizontal plane, and one side, close to the rotating disc, of the material guide plate is an arc-shaped face.

The invention has the beneficial effects that:

1. according to the invention, the limitation on multiple degrees of freedom of the connector shell is realized through the fixing mechanism, so that the connector shell is accurately fixed, the butt joint of the contact element and the shell is ensured, and the contact element is prevented from being bent and damaged due to dislocation, and the sealing performance of the shell is prevented from being influenced due to the damage to the jack of the shell.

2. The pushing and pressing piece synchronously moves the two fixing plates to move towards the shell through the driving piece, so that the L-shaped plates are synchronously driven to extrude the shell in the process of extruding and fixing the extruding plates and the shell, the fixing of the shell by the pushing and pressing piece is ensured, the use of a driving source is reduced, the manufacturing cost is reduced, and the multidirectional limiting of the shell is realized.

3. The feeding mechanism provided by the invention shapes and positions the shell through the steering unit and the overturning unit, so that the shell is ensured to be correctly moved to the fixing mechanism for fixing, the continuous feeding of the shell is ensured, and the smooth and efficient processing of the connector is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the main structure of the present invention.

Fig. 2 is a schematic structural view of the feeding mechanism of the present invention.

Fig. 3 is a schematic diagram of the turning unit structure of the present invention.

Fig. 4 is a partial enlarged view of the invention at a in fig. 1.

FIG. 5 is a schematic view of the pusher construction of the present invention.

Fig. 6 is a schematic view of the hold-down member structure of the present invention.

In the figure: 10. a support frame; 11. rotating the disc; 2. a fixing mechanism; 3. a feeding mechanism; 20. a fixing plate; 21. a support plate; 22. a spring post; 23. a pressing plate; 4. a drive member; 5. a biasing member; 6. a push-down member; 60. a square plate; 61. a chute; 62. a top rod; 63. a through hole; 64. pressing a plate; 65. a wrapper 21274; 7. a pushing element; 30. a first frame; 31. a first baffle; 32. a feed channel; 33. a first conveying belt; 34. a second frame; 35. a second baffle plate; 36. a second conveying belt; 8. a steering unit; 9. a turning unit; 70. a push rod; 71. a sloping block; 72. pushing the plate; 73. a limiting rod; 74. a second pressure spring; 90. a guide bar; 91. a roll shaft; 92. a square block; 80. a frame; 81. a U-shaped conveyor belt; 82. square opening; 83. u-shaped port; 50. a square groove; 51. an L-shaped plate; 52. a contact block; 53. a drive rod; 40. a screw rod; 41. a belt pulley mechanism; 12. a material guide plate.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

In addition, the following terms are defined based on the functions of the present invention, and may be different depending on the intention of a user or an operator or a common practice. Therefore, these terms are defined based on the entire contents of the present specification.

Referring to fig. 1, an automotive harness connector production apparatus includes a support frame 10; the upper end surface of the support frame 10 is provided with a rotating disc 11 through a rotating table, the upper end surface of the rotating disc 11 is uniformly provided with fixing mechanisms 2 along the circumferential direction, and the front side of the support frame 10 is provided with a feeding mechanism 3.

Referring to fig. 1 and 2, the feeding mechanism 3 includes a frame 30, the front side of the support frame 10 is provided with the frame 30, a baffle 31 is respectively installed in front and back symmetry of the upper end surface of the frame 30, a feeding channel 32 is arranged on one side of the baffle 31 close to the rotating disk 11, a first conveying belt 33 is installed between the two baffles 31, the front side of the frame 30 is provided with a steering unit 8, the right side of the frame 30 is provided with a second frame 34, a second baffle 35 is respectively installed in front and back symmetry of the upper end surface of the second frame 34, a second conveying belt 36 is installed between the two baffles 35, the second conveying belt 36 is higher than the first conveying belt 33, and a turnover unit 9 is arranged between the second conveying belt 36 and the first conveying belt 33.

During specific work, the vibration dish through the restriction of great size export sends the casing to No. two conveyer belts 36 in proper order on, the casing passes through the in-process of upset unit 9, if the ear seat of casing both sides and No. two conveyer belts 36 laminating (as shown in fig. 1 the casing state on No. two conveyer belts 36), upset unit 9 can overturn behind the casing plastic and move a conveyer belt 33, if the ear seat of casing both sides is up (as shown in fig. 1 the casing state on the conveyer belt), upset unit 9 can directly move a conveyer belt 33 behind the casing plastic, turn to the unit 8 on a conveyer belt 33 and turn to the regulation with the casing of wrong direction.

Referring to fig. 2 and 3, the overturning unit 9 includes guide rods 90, two there is guide rod 90 above the second baffle 35 through the support mounting, the right sides of two guide rods 90 are horn mouth shaped structures, a roller shaft 91 is arranged between the first conveying belt 33 and the second conveying belt 36, the two ends of the roller shaft 91 are rotatably connected with the second baffle 35, the front and back symmetry of the circumferential outer wall of the roller shaft 91 is uniformly provided with square blocks 92, and the upper end surface of the second conveying belt 36 is tangent to the upper surface of the roller shaft 91.

During specific work, the shell is moved to the second conveying belt 36 through the vibrating disc, the shell moves through the guide rod 90 through the second conveying belt 36, the guide rod 90 shapes and aligns the shell, then the shell moves to the roller shaft 91, and the roller shaft 91 drives the shell to move to the first conveying belt 33; if the ear seats on the two sides of the shell sent out from the vibrating disk are attached to the second conveying belt 36, the square 92 on the roller shaft 91 can be inserted into the waist holes of the ear seats on the two sides of the shell in the shell moving process, so that the shell is overturned and moved onto the first conveying belt 33 in the rotating process of the roller shaft 91, if the ear seats on the two sides of the shell sent out from the vibrating disk are upward, the shell can be shaped by the guide rod 90 and then rotationally moved onto the first conveying belt 33 through the roller shaft 91, and because the ear seats on the two sides of the shell are upward, the square 92 is not contacted with the ear seats on the two sides of the shell, and the shell can not be overturned and directly keeps the original state to be moved onto the first conveying belt 33.

Referring to fig. 2, the steering unit 8 includes a frame 80, the frame 80 is disposed on the front side of the first frame 30, a U-shaped conveying belt 81 is disposed on the upper end surface of the frame 80, square openings 82 are disposed on the first baffle 31 on the front side and the U-shaped opening 83 corresponding to the right square opening 82 are disposed on the first baffle 31 on the rear side.

During specific work, the shell is moved to the first conveying belt 33 through the overturning unit 9, the first conveying belt 33 moves the shell to the position of the feeding channel 32, then the shell is pushed through the existing telescopic cylinder, and the shell is moved to the fixing mechanism 2 through the feeding channel 32; the first baffle 31 positioned on the front side is provided with the infrared sensor, the shell can firstly pass through the infrared sensor in the process of moving to the feeding channel 32, if the shell is an ear seat facing the infrared sensor, the ear seats on the two sides of the shell can shield the infrared sensor, the infrared sensor transmits information to the receiver, the receiver enables the first conveying belt 33 to stop rotating and controls the operation of an existing air cylinder, the air cylinder operates to push the shell to move to the U-shaped conveying belt 81 through the U-shaped port 83, so that the shell is pushed to the U-shaped conveying belt 81, the U-shaped conveying belt 81 turns to the shell, the right square port 82 is moved to the first conveying belt 33, otherwise, the ear seat of the shell is positioned in the direction far away from the infrared sensor, the discharge position of the shell at the moment is correct, and the shell can be directly moved to the feeding channel.

Referring to fig. 1, 4 and 5, the fixing mechanism 2 includes a fixing plate 20, the fixing plate 20 is uniformly installed on the upper end surface of the rotating disk 11 along the circumferential direction, one side of the upper end surface of the fixing plate 20 away from the axis of the rotating disk 11 is provided with a supporting plate 21, the supporting plate 21 is connected with the fixing plate 20 in a sliding manner, the supporting plate 21 slides on the fixing plate 20 through a driving member 4, the opposite surfaces of the two supporting plates 21 are provided with a pressing plate 23 through a spring column 22, one side end surface of the supporting plate 21 close to the pressing plate 23 is provided with a pushing member 5, and the upper end surface of the fixing plate 20 close to the axis of the rotating disk 11 is provided with a pressing member 6.

Referring to fig. 4, the driving member 4 includes a screw rod 40, the screw rod 40 is rotatably connected in the fixing plate 20, a thread section of the screw rod 40 is in threaded connection with the support plate 21, and the two screw rods 40 are connected through a pulley mechanism 41.

When the feeding mechanism works specifically, the feeding mechanism 3 pushes the shell to the fixed plate 20, at the moment, the shell can be abutted to the lower pressing piece 6, the upper and lower freedom degrees of the shell are limited, then the motor-driven screw rod 40 is arranged at the present, the extrusion plate 23 is moved towards the shell, the shell is clamped tightly, the pushing and pressing piece 5 can synchronously move and is abutted to the shell, the pushing and pressing piece 5 is enabled to be limited to the shell, the shell is enabled to be fixed to be attached to the fixed plate 20, the shell is prevented from being clamped in the clamping process, the shell inclined contact piece is deviated from the jack of the shell, and the contact piece is enabled to be difficult to align and buckle and damage occurs.

Referring to fig. 2, a material guide plate 12 is arranged at the rear side of the feeding channel 32, the upper end surface of the material guide plate 12 and the bottom wall of the feeding channel 32 are located on the same horizontal plane, and one side of the material guide plate 12 close to the rotating disc 11 is an arc-shaped surface; during specific work, the arc-shaped surface of the material guide plate 12 improves the distance and the area between the material guide plate 12 and the fixed plate 20 on the premise of not interfering the rotation of the rotating disk 11, so that the stability of moving the shell to the fixed plate 20 is improved.

Referring to fig. 4 and 6, the lower pressing member 6 includes a square plate 60, the upper end surface of one side of the fixed plate 20 close to the axis of the rotating disk 11 is provided with the square plate 60, the inside of the square plate 60 is provided with a sliding groove 61, a push rod 62 is slidably connected in the sliding groove 61, the upper end of the push rod 62 extends to the upper side of the square plate 60, the end of the push rod 62 in the sliding groove 61 is provided with a through hole 63, the bottom wall of an inner cavity of the through hole 63 is an inclined surface, the end of the push rod 62 at the upper part of the square plate 60 is provided with a pressing plate 64, a first pressure spring is arranged between the pressing plate 64 and the square plate 60, one side of the pressing plate 64 far away from the axis of the rotating disk 11 is provided with a \\\ 21274, a return spring is arranged between a vertical section of the shape plate 65 and the pressing plate 64, and one side of the square plate 60 far away from the axis of the rotating disk 11 is provided with a pushing member 7.

During specific work, the feeding mechanism 3 pushes the shell to move towards the fixing plate 20, the shell can be abutted against the pushing piece 7, the pushing piece 7 is extruded to extrude the ejector rod 62 downwards, the ejector rod 62 pulls the pressing plate 64 to move towards the shell, the shell is compressed and compressed by the first pressure spring, meanwhile, the inner wall of the shell and the \ 21274, the shape plate 65 is pushed to extrude the shell, at the moment, the pushing piece 5 clamps and fixes the shell, and meanwhile, the pressing plate 64 is kept limited to the shell, so that accurate fixation of the shell is guaranteed, and the combination of the contact piece and the shell is facilitated.

Referring to fig. 6, the pushing element 7 includes a push rod 70, one side of the square plate 60 away from the axis of the rotating disk 11 is slidably connected with the push rod 70, the push rod 70 penetrates through the through hole 63, an inclined block 71 abutting against the bottom wall of the through hole 63 is arranged on the push rod 70, a push plate 72 is installed on one side end face of the push rod 70 away from the square plate 60, a limit rod 73 is arranged below the push rod 70, one end of the limit rod 73 is fixed on the push plate 72, the other end of the limit rod 73 is slidably connected with the square plate 60, two pressure springs 74 are respectively sleeved on the limit rod 73 and the push rod 70, and two ends of each pressure spring 74 are respectively installed on the push plate 72 and the square plate 60.

During specific work, the shell pushes the push plate 72 to move towards the square plate 60, the push rod 70 drives the inclined block 71 to move towards the axis direction of the rotating disc 11, meanwhile, the inclined block 71 is abutted to the inclined surface of the bottom wall of the through hole 63, so that the push rod 62 is pushed downwards, the push rod 62 pulls the press plate 64 to move towards the shell, the shell is pressed downwards, and the vertical freedom degree of the shell is limited.

Referring to fig. 4 and 5, the pushing element 5 includes a square groove 50, the opposite surfaces of the two support plates 21 are provided with the square groove 50, the square groove 50 is connected with an L-shaped plate 51 in a sliding manner, a side end surface of the L-shaped plate 51 in the square groove 50, which is close to the pressing plate 64, is provided with a contact block 52, the contact block 52 is in a right trapezoid structure, a side end surface of the extrusion plate 23, which is close to the L-shaped plate 51, is provided with a driving rod 53, and the driving rod 53 is in sliding fit with the contact block 52 through a T-shaped block and a T-shaped groove.

When the device works specifically, the shell moves towards the fixing mechanism 2 through the feeding mechanism 3, the shell can extrude the lower pressing piece 6, the lower pressing piece 6 downwards compresses and fixes the lower pressing piece 6, the pushing of the feeding mechanism 3 to the shell is kept at the moment, then the two opposite fixing plates 20 are pushed by the telescopic cylinder to synchronously move towards the shell, the extruding plate 23 is enabled to be abutted against the shell, along with the movement of the fixing plates 20, the extruding plate 23 is kept abutted against the shell, the fixing plates 20 move towards the extruding plate 23, the driving rod 53 is enabled to be abutted against the abutting block 52, the L-shaped plate 51 is further pushed to move towards the axis direction of the rotating disk 11, the L-shaped plate 51 moves to extrude the shell, the lower pressing piece 6 is kept to downwards extrude and fix the shell, and then under the matching of the extruding plate 23, the shell is subjected to multi-angle limiting, the stability for fixing the shell is guaranteed, the deviation is reduced, and the assembling quality of the shell and the contact element is improved.

When the automobile wire harness connector is machined, a shell is firstly conveyed to the feeding mechanism 3 through the existing vibrating disc, the feeding mechanism 3 shapes and positions the shell to ensure that the shell is correctly pushed to the fixing mechanism 2, then the upper freedom degree and the lower freedom degree of the shell are limited through the pressing piece 6 of the fixing mechanism 2, then the whole shell is limited through the extruding plate 23 and the pushing piece 5, the shell rotates to the next station through the rotating disc 11 to perform pin inserting machining, the next fixing mechanism 2 moves to the feeding mechanism 3 to receive materials, and therefore continuous machining of the connector is achieved, machining efficiency is improved, the machined connector moves to the downward moving station, the motor drives the screw rod 40 to rotate to loosen the shell, and then the connector is pushed away from the fixing plate 20 to be collected and processed in a concentrated mode through the shape plate 65 under the action of the reset spring.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An automotive harness connector production apparatus includes a support frame (10); the method is characterized in that: the upper end surface of the support frame (10) is provided with a rotating disc (11) through a rotating table, the upper end surface of the rotating disc (11) is uniformly provided with fixing mechanisms (2) along the circumferential direction, and the front side of the support frame (10) is provided with a feeding mechanism (3); wherein:

the fixing mechanism (2) comprises a fixing plate (20), the fixing plate (20) is uniformly arranged on the upper end surface of the rotating disc (11) along the circumferential direction of the upper end surface, one side, away from the axis of the rotating disc (11), of the upper end surface of the fixing plate (20) is provided with a supporting plate (21), the supporting plates (21) are connected with the fixing plate (20) in a sliding mode, the supporting plates (21) slide on the fixing plate (20) through driving pieces (4), the opposite surfaces of the two supporting plates (21) are provided with extrusion plates (23) through spring columns (22), one side end surface, close to the extrusion plates (23), of each supporting plate (21) is provided with a pushing piece (5), and the upper end surface of one side, close to the axis of the rotating disc (11), of the fixing plate (20) is provided with a lower pressing piece (6);

the lower pressing piece (6) comprises a square plate (60), the square plate (60) is installed on the upper end face of one side, close to the axis of the rotating disc (11), of the fixing plate (20), a sliding groove (61) is formed in the square plate (60), a push rod (62) is connected in the sliding groove (61) in a sliding mode, the upper end of the push rod (62) extends to the upper side of the square plate (60), a through hole (63) is formed in the end of the push rod (62) in the sliding groove (61), the bottom wall of an inner cavity of the through hole (63) is an inclined plane, a pressing plate (64) is installed at the end of the push rod (62) in the upper portion of the square plate (60), a first compression spring is installed between the pressing plate (64) and the square plate (60), a v-21274plate (65) is arranged on one side, far away from the axis of the rotating disc (11), a reset spring is installed between the vertical section of the pressing plate (65) and the pressing plate (64), and a pushing piece (7) is arranged on one side, far away from the axis of the rotating disc (11), of the square plate (60).

2. The automotive harness connector production apparatus according to claim 1, wherein: feeding mechanism (3) including a frame (30), the front side of support frame (10) is provided with frame (30) No. one, baffle (31) are respectively installed to the symmetry around the up end of frame (30), one side that baffle (31) are close to rotary disk (11) is provided with pay-off passageway (32), install No. one conveyer belt (33) between two baffle (31), the front side of frame (30) is provided with and turns to unit (8), the right side of frame (30) is provided with No. two frames (34), no. two baffle (35) are respectively installed to the symmetry around the up end of No. two frames (34), install No. two conveyer belt (36) between No. two baffle (35), no. two conveyer belt (36) are higher than conveyer belt (33), be provided with upset unit (9) between No. two conveyer belt (36) and a conveyer belt (33).

3. The automotive harness connector production apparatus according to claim 1, wherein: pusher (7) including push rod (70), one side sliding connection that rotary disk (11) axle center was kept away from in square plate (60) has push rod (70), and push rod (70) run through-hole (63), be provided with sloping block (71) of contradicting with through-hole (63) diapire on push rod (70), push rod (70) keep away from one side end face of square plate (60) and install push plate (72), the below of push rod (70) is provided with gag lever post (73), the one end of gag lever post (73) is fixed on push plate (72), the other end and square plate (60) sliding connection of gag lever post (73), all overlap on gag lever post (73) and push rod (70) and be equipped with No. two pressure springs (74), and No. two pressure spring (74) both ends are installed respectively on push plate (72) and square plate (60).

4. The automotive harness connector production apparatus according to claim 2, wherein: upset unit (9) including guide bar (90), two guide bar (90) are installed through the support in the top of No. two baffle (35), the right side of two guide bar (90) is horn mouth shape structure, be provided with roller (91) between a conveyer belt (33) and No. two conveyer belts (36), the both ends and No. two baffle (35) of roller (91) rotate to be connected, the symmetry evenly is provided with square (92) around the circumference outer wall of roller (91), the up end and the roller (91) upper surface of No. two conveyer belts (36) are tangent.

5. The automotive harness connector production apparatus according to claim 2, wherein: the steering unit (8) comprises a frame (80), the frame (80) is arranged on the front side of the frame (30), a U-shaped conveying belt (81) is arranged on the upper end face of the frame (80), a baffle (31) positioned on the front side corresponds to the two ends of the U-shaped conveying belt (81) and is provided with square openings (82), and a U-shaped opening (83) corresponding to the right square opening (82) is formed in the baffle (31) positioned on the rear side.

6. The automotive harness connector production apparatus according to claim 1, wherein: bulldoze piece (5) including square groove (50), square groove (50) have all been seted up to the opposite face of two backup pads (21), square groove (50) inside sliding connection has L shaped plate (51), a side end face that square groove (50) inside L shaped plate (51) are close to clamp plate (64) is provided with conflict piece (52), and conflict piece (52) are the right trapezoid structure, one side end face that extrusion plate (23) are close to L shaped plate (51) installs actuating lever (53), and through T-shaped piece and T-shaped groove sliding fit between actuating lever (53) and conflict piece (52).

7. The automotive harness connector production apparatus according to claim 1, wherein: the driving piece (4) comprises a screw rod (40), the screw rod (40) is connected in the fixing plate (20) in a rotating mode, the thread section of the screw rod (40) is in threaded connection with the supporting plate (21), and the two screw rods (40) are connected through a belt pulley mechanism (41).

8. The automotive harness connector production apparatus according to claim 2, wherein: the rear side of the feeding channel (32) is provided with a material guide plate (12), the upper end surface of the material guide plate (12) and the bottom wall of the feeding channel (32) are positioned on the same horizontal plane, and one side of the material guide plate (12) close to the rotating disc (11) is an arc-shaped surface.

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