CN214592696U - Transformer plug-in components machine - Google Patents

Abstract

The utility model relates to a transformer plug-in components machine, the workstation is located in the frame, and have and be used for inserting transformer and PCB board and join in marriage the processing position together, loading attachment and processing position are arranged relatively, the stirring device is located between loading attachment and the processing position, carry the material frame that contains the transformer to the loading attachment through second material loading passageway, simultaneously under loading attachment's transport screening, the transformer is in stirring device department upset to electric contact foot down and positive up state, and place in on the well revolving stage, the transformer on the revolving stage snatchs in the arm, and be in processing position and carry the PCB board of carrying to processing position department at first material loading passageway and insert and join in marriage, it has direct the carrying and go out of discharging channel after inserting and joining in marriage. Like this loading attachment, turning device and first material loading passageway, second material loading passageway and discharging channel's cooperation need not artifical the participation, and the realization transformer that can be automatic material loading and upset can also be accomplished simultaneously and the transformer is inserted with PCB's directness and is joined in marriage, and degree of automation is high, and the practicality is strong.

Description

Transformer plug-in components machine

Technical Field

The utility model relates to a transformer assembly field especially relates to a transformer plug-in components machine.

Background

The transformer is usually arranged on an electronic circuit board, a winding framework can be omitted from the PCB type transformer, the heat dissipation area can be increased, the eddy current loss caused by the skin effect and the proximity effect during high-frequency work can be reduced, the current density can also be increased, and the transformer is widely applied to the field of numerous electronic devices, particularly the field of intelligent electric meters.

The installation of PCB board and transformer needs to be realized through special machine, chinese utility model application like patent number CN201410158265.4 has just disclosed "an automatic wire winding of transformer PCB, equipment and welding all-in-one", in this all-in-one, through the cooperation of drawing mechanisms, soldering tin structure and getting mechanisms such as material structure, can realize the completion PCB board that can be full-automatic around the copper line, around rubber-covered wire and welding, assemble the work to the PCB board with the coil, its work efficiency has obtained very big improvement for traditional artifical manual assembly.

Although the integrated machine can realize the assembly of the transformer wound by the original coil structure and the PCB, the combination mode of the transformer and the PCB needs enterprises to specially control the quality of the transformer, and also needs to spend a large amount of manpower and material resources for research and development. Therefore, enterprises in the downstream of some industrial chains choose to purchase finished transformers, and the transformers are assembled as mature parts, so that the transformers can complete basic duties in the products, thereby not only avoiding the cost of the transformers in research and development, but also enabling the enterprises to concentrate on the products. Under the condition, the integrated machine cannot meet the installation requirements of the existing enterprises.

Therefore, an apparatus for directly inserting and assembling the transformer and the PCB is needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the first technical problem that will solve is to prior art's current situation, provides a transformer plug-in components machine that realizes automatic feeding and insert the joining in marriage.

The utility model discloses the second technical problem that will solve is to prior art's current situation, provides a transformer plug-in components machine that realizes overturning transformer to openly state up.

The utility model discloses the third technical problem that will solve is to prior art's current situation, provides one kind can arrange the transformer after the upset neat to in get the transformer plug-in components machine of material.

The utility model provides a technical scheme that above-mentioned first technical problem adopted does: a transformer plug-in machine comprises

A frame;

the workbench is arranged on the rack and is provided with a processing position for inserting and matching the transformer and the PCB together;

also includes:

the feeding device is arranged on the other side of the workbench opposite to the processing position;

the first feeding channel is used for conveying the PCB to be spliced to a processing position, is arranged at the periphery of the workbench and is arranged adjacent to the processing position, and the discharge end of the first feeding channel corresponds to the feed end of the processing position;

the discharging channel is used for conveying the spliced PCB and is arranged on the periphery of the workbench and opposite to the first feeding channel, and the feeding end of the discharging channel corresponds to the discharging end of the processing station;

the second feeding channel is used for conveying the transformer contained by the material frame to the feeding device, is arranged on the periphery of the workbench, and has a discharging end corresponding to the feeding end of the feeding device;

the material turning device is arranged on the workbench, is arranged between the feeding device and the processing position, and is used for turning over the transformer conveyed to the position by the feeding device to a state that the electric contact pins face downwards and the front face of the transformer faces upwards;

and the mechanical arm is arranged at the processing position and used for inserting the turned transformer on the PCB.

In order to realize the loading action, preferably, the loading device comprises a receiving platform, a lifting mechanism, a positioning platform and a clamping mechanism, wherein:

the receiving platform is arranged at the discharge end of the feeding channel and used for receiving a plurality of stacked material frames conveyed to the receiving platform by the feeding channel;

the power output end of the lifting mechanism is in driving connection with the receiving table and can drive the receiving table and a material frame placed on the receiving table to synchronously move upwards;

the positioning table is arranged above the material receiving table, a feeding port matched with the material receiving table is formed in the positioning table, at least one pair of clamping pieces which are oppositely arranged on two sides of the feeding port are arranged in the circumferential direction of the feeding port, and the power output end of each clamping piece acts on the corresponding side wall of each material frame, so that the uppermost material frame in the stacked material frames is positioned at the feeding port;

the clamping mechanism is arranged above the feeding port, and the output end of the clamping mechanism is provided with a clamping jaw for taking out and conveying the transformer in the feeding port feeding frame to the next station. Receive the material loading passageway through connecing the material platform and carry to a plurality of material frames that stack that connect material platform department, will connect the material platform through elevating system afterwards and upwards carry simultaneously as to the whole material frame that stacks on it, and stop in the material loading mouth department that connects material bench side location platform, realize spacing to the material frame of top through the holder of locating material loading mouth circumference, and then fixture's clamping jaw can follow and take out the transformer in the material frame and carry to next station, connect the material platform like this, the location platform, the cooperation of holder and clamping jaw, make whole material loading process automation, the inefficiency of artifical material loading and can be to the damage that the assembly original paper caused have been avoided.

In order to ensure that the lifting mechanism can drive the receiving platform to move up and down, preferably, the bottom of the receiving platform is connected with a frame, and a power output end of the lifting mechanism is connected to the frame and can drive the frame and the receiving platform to move up and down synchronously; the material receiving platform is provided with a vertically extending supporting plate at a position adjacent to the lower part, a vertically extending gap part is formed in the supporting plate, the lifting mechanism is arranged on one side of the supporting plate, the frame is arranged on the other side of the supporting plate, a connecting part penetrating through the gap part is arranged at a position, adjacent to the gap part, of the frame, and a power output end of the lifting mechanism is connected to the connecting part.

Elevating system can be different forms, preferably, elevating system includes first driving motor and transmission lead screw, first driving motor's output shaft with the equal vertical extension of transmission lead screw, just coaxial coupling has first drive wheel on first driving motor's the output shaft the power input end coaxial coupling of transmission lead screw has the second drive wheel, first drive wheel and second drive wheel pass through the linkage area linkage, connecting portion are for connecting the extension board of transmission lead screw power take off end, just under first driving motor's drive, the power of transmission lead screw goes out the output and drives extension board, frame and connect the synchronous rebound of material platform.

Connect the material platform can be independent veneer, but for the convenience material frame can be accurate be located the below position of material loading mouth, preferably, connect the material platform including plate body, drive belt, second driving motor and along material frame direction of delivery arrange the driving shaft and the driven shaft of both sides around the plate body, the axis of rotation of driving shaft and driven shaft parallel with the direction of delivery of material frame is mutually perpendicular, the both ends of drive belt are respectively around establishing on driving shaft and driven shaft to form two sections of sliding of relative arrangement from top to bottom between driving shaft and driven shaft, the plate body is arranged between two sections of sliding, the power take off end of second driving motor with the driving shaft drive is connected.

In order to further solve the second technical problem, the utility model discloses the technical scheme who adopts does: the stirring device comprises a supporting seat, a turning plate, a first driving mechanism and a conveying belt, wherein:

the supporting seat is arranged on the workbench, the top of the supporting seat is provided with a rotating shaft, and the rotating axis of the rotating shaft is parallel to the workbench;

the turning plate is provided with a turning position used for restraining the transformer to be turned, is connected to the rotating shaft and extends in the same direction as the rotating shaft;

the power output end of the first driving mechanism is in driving connection with the rotating shaft so as to drive the rotating shaft to rotate along the axis of the rotating shaft, so that the turning plate is turned over relative to the workbench and is in a transverse extending state or a vertical extending state;

the conveyer belt is arranged on the workbench and extends in the same direction as the turning plate, and the feeding end of the conveyer belt is positioned below the turning plate when the turning plate is turned to a vertical extending state. Through the pivot of locating the supporting seat top, will turn over the action of board and combine together with the rotation of pivot, when first actuating mechanism drive pivot rotated, place and will turn into openly up and electric contact foot down state along with turning over the rotation of board at the transformer that turns over on the board, in the convenient subsequent handling, directly insert the transformer and join in marriage on the PCB board, need not extra upset action.

In order to ensure that the turning plate is driven by the rotating shaft to turn, preferably, the supporting seat comprises two fixing plates which are vertically arranged on the workbench and are oppositely arranged, the rotating shaft is arranged between the two fixing plates, the two ends of the side wall of the turning plate, which is adjacent to the rotating shaft, are respectively provided with a connecting plate, and each connecting plate is provided with a through hole for the rotating shaft to pass through; the wall surface of one side of the fixing plate, which is far away from the rotating shaft, is provided with a concave limiting groove, and the limiting groove forms the turning position.

The specific transmission form of the first driving mechanism is as follows: the first driving mechanism is a telescopic cylinder, the power output end of the telescopic cylinder is in driving connection with the rotating shaft through a transmission piece, the transmission piece is in a strip shape, the first end of the transmission piece is in coaxial connection with the rotating shaft, a telescopic rod at the output end of the telescopic cylinder is in rotating connection with the second end of the transmission piece through a transmission shaft, the second end of the transmission piece is opposite to the workbench and moves up and down under the telescopic action of the telescopic rod in the telescopic cylinder, and then the first end of the transmission piece and the rotating shaft rotate synchronously.

In order to further solve the third technical problem, the utility model discloses the technical scheme who adopts is: the transformer plug-in machine further comprises a transfer table used for containing the overturned transformer and feeding materials to the next process, wherein the transfer table is arranged on the workbench and arranged at the discharge end of the conveyor belt, and a positioning seat used for containing the overturned transformer is arranged on the transfer table.

In order to facilitate the transfer of the transformer on the conveyor belt to the transfer platform, the transfer platform further comprises a material transfer mechanism which is arranged adjacent to the downstream section of the conveyor belt,

move material mechanism and include slip subassembly and lifting unit, wherein:

the sliding assembly comprises a sliding plate and a third driving mechanism, and a power output end of the third driving mechanism is in driving connection with the sliding plate so as to drive the sliding plate to slide back and forth along the direction of the conveying belt;

the lifting assembly comprises a lifting plate and a fourth driving mechanism, the fourth driving mechanism is arranged on the sliding plate, the power output end of the fourth driving mechanism is in driving connection with the lifting plate, the lifting plate is driven to move up and down relative to the sliding plate, and a claw head used for grabbing the transformer on the guide rail to the positioning seat is arranged on the lifting plate.

Compared with the prior art, the utility model has the advantages of: in the transformer plug-in machine, a material frame containing a transformer is conveyed to a feeding device through a second feeding channel, under the material taking and conveying of the feeding device, the transformer is turned over to a state that an electric contact pin faces downwards and the front face faces upwards at a material turning device and is placed on a transfer table, the transformer on the transfer table is grabbed by a mechanical arm, the PCB which is positioned at a processing position and conveyed to the processing position through a first feeding channel is inserted, and the PCB is directly conveyed and discharged through a discharging channel after the insertion. Like this loading attachment, turning device and first material loading passageway, second material loading passageway and discharging channel's cooperation need not artifical the participation, and the realization transformer that can be automatic material loading and upset can also be accomplished simultaneously and the transformer is inserted with PCB's directness and is joined in marriage, and degree of automation is high, and the practicality is strong.

Drawings

Fig. 1 is a schematic view of an assembly of a material frame and a transformer in an embodiment of the present invention;

fig. 2 is a schematic view of the overall structure of the transformer inserter of the present embodiment;

fig. 3 is a schematic view of the overall structure of the feeding device in this embodiment;

FIG. 4 is a schematic structural view of FIG. 3 with a part of the structure omitted;

FIG. 5 is a schematic view of the receiving platform of the present embodiment;

FIG. 6 is a schematic view of the frame and the support plate;

FIG. 7 is a schematic view of the structure of FIG. 6 from another angle;

FIG. 8 is a schematic view of a clamping mechanism in the present embodiment;

FIG. 9 is an enlarged schematic view of a portion of the structure of FIG. 8;

FIG. 10 is a schematic view of the overall structure of the stirring device;

FIG. 11 is an enlarged view taken at A in FIG. 10;

FIG. 12 is a schematic view of the overall structure of FIG. 10 at another angle with part of the structure omitted;

FIG. 13 is an enlarged schematic view at A of FIG. 12;

fig. 14 is a schematic view of the structure of fig. 12 from another angle.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 14, in a preferred embodiment of the present invention, the transformer inserter includes a frame 1, a workbench 1a, a feeding device 2, a first feeding channel 4, a discharging channel 5, a second feeding channel 6, a material turning device 3, and a mechanical arm 7.

Wherein the worktable 1a is arranged on the frame 1 and is provided with a processing position 1b for inserting and matching a transformer and a PCB together, the loading device 2 and the processing position 1b are arranged on the other side of the worktable 1a oppositely, the first loading channel 4 is used for conveying the PCB to be spliced to the processing position 1b, the first loading channel 4 is arranged on the periphery of the worktable 1a and is adjacent to the processing position 1b, the discharge end of the first loading channel 4 corresponds to the feed end of the processing position 1b, the discharge channel 5 is used for conveying the spliced PCB, is arranged on the periphery of the worktable 1a and is opposite to the first loading channel 4, the feed end of the discharge channel 5 corresponds to the discharge end of the processing position 1b, the second loading channel 6 is used for conveying the transformer 101 placed by the material frame 100 to the loading device 2 and is arranged on the periphery of the worktable 1a, and the discharge end corresponds to the feed end of the loading device 2, the material turning device 3 is arranged on the workbench 1a and arranged between the material feeding device 2 and the processing position 1b, and is used for turning over the transformer conveyed to the position by the material feeding device 2 to the state that the electric contact pin 101b faces downwards and the front side 101a faces upwards, a middle rotating platform for containing the turned transformer is arranged at the material discharging end of the material turning device, and the mechanical arm 7 is arranged at the processing position 1b and is used for inserting the turned transformer on a PCB.

Referring to fig. 2 to 9, the feeding device 2 specifically includes a receiving platform 20, a lifting mechanism 21, a positioning platform 22, and a clamping mechanism 23. In this embodiment, the receiving platform 20 is disposed at the discharging end of the second feeding channel 6, and is used for receiving a plurality of stacked material frames 100 conveyed to the receiving platform 20 by the second feeding channel 6, the power output end of the lifting mechanism 21 is drivingly connected to the receiving platform 20, and can drive the receiving platform and the material frames 100 placed on the receiving platform 20 to move upward synchronously, the positioning platform 22 is disposed above the receiving platform 20, the positioning platform 22 defines a feeding opening 220 adapted to be connected to the receiving platform 20, the feeding opening 220 has at least one pair of clamping members 221 disposed at two sides of the feeding opening 220 in a circumferential direction, the power output end of each clamping member 221 acts on a corresponding side wall of the material frame 100, so that the uppermost material frame 100 in the stacked material frames 100 is positioned at the feeding opening 220, the clamping members 221 can be in different forms, in this embodiment, the clamping members 221 include a cylinder 222 and a 223 connected to the power output end of the cylinder 222, under the action of the cylinder 222, the push plate 223 can extend into the feeding port 220 and abut against the corresponding side wall of the material frame 100 at the feeding port 220.

In this embodiment, the up-and-down movement of the receiving platform 20 is specifically realized by: the bottom of the material receiving table 20 is connected with a frame 201, and a power output end of the lifting mechanism 21 is connected to the frame 201 and can drive the frame 201 and the material receiving table 20 to move upwards synchronously. In the present embodiment, in order to ensure that the lifting mechanism 21 is connected with the frame 201, a vertically extending support plate 202 is provided at a position adjacent to the lower side of the receiving platform 20, a vertically extending notch portion 203 is opened on the support plate 202, the lifting mechanism 21 is arranged at one side of the support plate 202, the frame 201 is arranged at the other side of the support plate 202, a connecting portion 204 penetrating through the notch portion 203 is provided at a position adjacent to the notch portion 203 of the frame 201, and a power output end of the lifting mechanism 21 is connected to the connecting portion 204. The lifting mechanism 21 may be in different forms, in this embodiment, the lifting mechanism 21 includes a first driving motor 211 and a transmission screw rod 212, an output shaft of the first driving motor 211 and the transmission screw rod 212 both extend vertically, an output shaft of the first driving motor 211 is coaxially connected with a first transmission wheel 213, a power input end of the transmission screw rod 212 is coaxially connected with a second transmission wheel 214, the first transmission wheel 213 and the second transmission wheel 214 are linked through a linkage belt 215, the connection portion 204 is a connection plate connected to a power output end of the transmission screw rod 212, and a power output end of the transmission screw rod 212 drives the connection plate, the frame 201 and the material receiving table 20 to move upward synchronously under the driving of the first driving motor 211.

In the present embodiment, in order to ensure that the frame 201 moves up and down more smoothly, among four sides of the circumference of the frame 201, the support plate 202 adjacent to one side is disposed, and among the other three sides, at least two support rods 24 are disposed adjacent to each other, each support rod 24 and the support plate 202 are provided with a vertically extending guide rail 241, and the frame 201 is provided with a slide block 242 matched with each guide rail 241 at a corresponding position.

The receiving platform 20 may be a separately arranged plate, but in order to ensure that the material frame 100 can accurately move to the lower part of the feeding port 220 and then move upwards under the driving of the lifting mechanism 21, the receiving platform 20 includes a plate body 205, a transmission belt 206, a second driving motor 209, and a driving shaft 207 and a driven shaft 208 which are arranged on the front and rear sides of the plate body 205 along the conveying direction of the material frame 100, the rotation axes of the driving shaft 207 and the driven shaft 208 are parallel to and perpendicular to the conveying direction of the material frame 100, two ends of the transmission belt 206 are respectively wound on the driving shaft 207 and the driven shaft 208, so that two sliding sections which are arranged oppositely up and down are formed between the driving shaft 207 and the driven shaft 208, the plate body 205 is arranged between the two sliding sections, and the power output end of the second driving motor 209 is in driving connection with the driving shaft 207.

In this embodiment, the material receiving platform 20 is provided with side plates 200 on two sides of the material frame 100 in the conveying direction, each side plate 200 is connected to the top of the corresponding side of the frame 201, and through holes for the ends of the driving shaft 207 and the driven shaft 208 to penetrate through are formed in the front and rear ends of the side plate 200.

The clamping mechanism 23 is disposed above the feeding port 220, and the output end thereof has a clamping jaw 231 for taking out and conveying the transformer 101 in the material frame 100 at the feeding port 220 to the next station. Specifically, the clamping mechanism 23 includes a first translation assembly 231 and a second translation assembly 232, the first translation assembly 231 and the second translation assembly 232 respectively have a first slide seat 233 and a second slide seat 234, wherein the first slide seat 233 extends along the conveying direction of the material frame 100, the second slide seat 234 extends along the direction perpendicular to the conveying direction of the material frame 100, one end of the second slide seat 234 is slidably constrained on the first slide seat 233, and the other end is located above the material receiving table 20, and the clamping mechanism 23 is connected to the second slide seat 234 and can slide back and forth along the extending direction of the second slide seat 234. The clamping mechanism 23 further comprises a lifting assembly, the lifting assembly comprises a fixed seat 235, a movable seat 236 and a driving member 237, the fixed seat 235 is connected to the second sliding seat 234, the movable seat 236 and the driving member 237 are both arranged on the fixed seat 235, the clamping jaw 231 is arranged at the bottom of the movable seat 236, the power output end of the driving member 237 is in driving connection with the movable seat 236, and then the movable seat 236 and the clamping jaw 231 are driven to synchronously move up and down relative to the material platform 20.

As shown in fig. 1, which is a schematic view of a conventional finished transformer 101, before the transformer 101 is inserted, a housing of the transformer 101 is in a block shape, the transformers 101 are placed side by side in a material frame 100, and a plurality of material frames 100 are stacked together. Since the transformer 101 is usually disposed laterally in the material frame 100 during transportation in order to avoid damage to the electrical contact pins 101b at the tail of the transformer 101, that is, the electrical contact pins 101b face one of the side walls of the material frame 100 rather than downward, a special process is required to turn the transformer 101 to an insertion state in which the front side 101a faces upward and the electrical contact pins 101b face downward when the transformer 101 is assembled with a PCB.

In order to ensure that the transformer 101 can be turned before insertion, in the present embodiment, the transformer inserter is provided with a turning device 3, see fig. 10 to 14, wherein the turning device 3 comprises a support 31, a turning plate 32, a first driving mechanism 33 and a conveyor belt 34. In this embodiment, the supporting seat 31 is disposed on the workbench 1a, the top of the supporting seat 31 has a rotating shaft 311, a rotating axis of the rotating shaft 311 is parallel to the workbench 1a, the turning plate 32 has a turning position 32a for restraining the transformer 101 to be turned, the turning plate 32 is connected to the rotating shaft 311 and extends in the same direction as the rotating shaft 311, the first driving mechanism 33 has a power output end connected to the rotating shaft 311, and further drives the rotating shaft 311 to rotate along its own axis to turn the turning plate 32 relative to the workbench 1a, so as to be in a horizontally extending state or a vertically extending state, the conveyor belt 34 is disposed on the workbench 1a and extends in the same direction as the turning plate 32, and when the turning plate 32 is turned to the vertically extending state, a feeding end of the conveyor belt 34 is located below the turning plate 32.

The supporting seat 31 includes two fixing plates 312 vertically disposed on the working platform 1a and disposed oppositely, the rotating shaft 311 is disposed between the two fixing plates 312, the two ends of the side wall of the turning plate 32 adjacent to the rotating shaft 311 are respectively provided with a connecting plate 313, each connecting plate 313 is provided with a through hole for the rotating shaft 311 to pass through, a wall surface of the fixing plate 312 facing away from one side of the rotating shaft 311 is provided with an inward concave limiting groove, and the turning position 32a is formed by the limiting groove.

In the embodiment, in order to prevent the transformer 100 on the turning plate 32 from falling after turning, a pressing member 321 for locking the transformer 101 on the turning position 32a is further provided on the turning plate 32, the pressing member 321 is arranged adjacent to the limiting groove, and the power output end of the pressing member 3211 swings up and down relative to the turning plate 32.

The first driving mechanism 33 is a telescopic cylinder, a power output end of the telescopic cylinder is in driving connection with the rotating shaft 311 through a transmission piece 331, the transmission piece 331 is in a strip shape, a first end of the transmission piece 331 is coaxially connected with the rotating shaft 311, a telescopic rod 33a at an output end of the telescopic cylinder is rotatably connected to a second end of the transmission piece 331 through a transmission shaft 332, and under the telescopic action of the telescopic rod 33a in the telescopic cylinder, the second end of the transmission piece 331 moves up and down relative to the workbench 1a, so that the first end of the transmission piece 331 and the rotating shaft 311 rotate synchronously.

In order to convey the turned transformer to the next process conveniently, the turning device further comprises a transfer table 35 for containing the turned transformer 101 and supplying materials to the next process, the transfer table 35 is arranged on the workbench 1a and arranged at the discharge end of the conveyor belt 34, and a positioning seat 36 for containing the turned transformer 101 is arranged on the transfer table 35. The above-mentioned transfer table 35 is further provided with a second driving mechanism 351, and a power output end of the second driving mechanism 351 is connected to the positioning seat 36 so as to drive the positioning seat 36 to horizontally slide along a direction perpendicular to the extending direction of the conveyor belt 34. In order to facilitate the adjustment of the positioning seat 36, the above-mentioned transfer table 35 is provided with a guide rail 352 arranged perpendicular to the extending direction of the conveyor belt 34, the bottom of the positioning seat 36 is provided with a sliding groove adapted to the guide rail 352, and the positioning seat 36 slides relative to the positioning seat 36 through the sliding fit of the sliding groove and the guide rail 352.

In this embodiment, in order to ensure that the transformer 100 downstream of the conveyor belt 34 is moved onto the transfer table 35, the upender further comprises a material moving mechanism 37, the material moving mechanism 37 is arranged adjacent to the downstream section of the conveyor belt 34, and the power output end of the material moving mechanism has a claw head 373 for grabbing the transformer 101 on the guide rail 352 onto the positioning seat 36. The above-mentioned material moving mechanism 37 includes a sliding component 371 and a lifting structure 372, wherein:

the sliding structure 371 comprises a sliding plate 3711 and a third driving mechanism 3712, wherein the power output end of the third driving mechanism 3712 is in driving connection with the sliding plate 3711, so as to drive the sliding plate 3711 to slide back and forth along the direction of the conveyor belt 34; the lifting assembly 372 includes a lifting plate 3721 and a fourth driving mechanism 3722, the fourth driving mechanism 3722 is disposed on the sliding plate 3711, the power output end thereof is drivingly connected to the lifting plate 3721, so as to drive the lifting plate 3721 to move up and down relative to the sliding plate 3711, and the claw 373 is disposed on the lifting plate 3721.

The output shaft of the fourth driving mechanism 3722 in this embodiment extends downward, and a protrusion 3723 connected to the output shaft of the fourth driving mechanism 3722 extends laterally on one side of the lifting plate 3721.

Claims (10)

1. A transformer plug-in machine comprises

A frame (1);

the workbench (1a) is arranged on the rack (1) and is provided with a processing position (1b) for inserting and matching the transformer and the PCB together;

it is characterized by also comprising:

the feeding device (2) is arranged on the other side of the workbench (1a) opposite to the processing station (1 b);

the first feeding channel (4) is used for conveying the PCB to be spliced to the processing station (1b), is arranged on the periphery of the workbench (1a) and is arranged adjacent to the processing station (1b), and the discharging end of the first feeding channel (4) corresponds to the feeding end of the processing station (1 b);

the discharging channel (5) is used for conveying the spliced PCB and is arranged on the periphery of the workbench (1a) and opposite to the first feeding channel (4), and the feeding end of the discharging channel (5) corresponds to the discharging end of the processing station (1 b);

the second feeding channel (6) is used for conveying the transformer placed by the material frame to the feeding device (2), is arranged on the periphery of the workbench (1a), and has a discharging end corresponding to the feeding end of the feeding device (2);

the material turning device (3) is arranged on the workbench (1a), is arranged between the material feeding device (2) and the processing position (1b), and is used for turning over the transformer conveyed to the position by the material feeding device (2) to a state that the electric contact pin (101b) faces downwards and the front face (101a) faces upwards, and a middle rotating table (35) for containing the turned transformer is arranged at the discharge end of the material turning device (3);

and the mechanical arm (7) is arranged at the processing position (1b) and used for taking down the transformer turned over on the transfer table (35) to move to the processing position (1b) and inserting the transformer on the PCB.

2. The transformer inserter of claim 1, wherein: loading attachment (2) are including connecing material platform (20), elevating system (21), location platform (22) and fixture (23), wherein:

the receiving platform (20) is arranged at the discharge end of the feeding channel and used for receiving a plurality of stacked material frames (100) conveyed to the receiving platform (20) by the feeding channel;

the power output end of the lifting mechanism (21) is in driving connection with the receiving platform (20) and can drive the receiving platform and a material frame (100) placed on the receiving platform (20) to synchronously move upwards;

the positioning table (22) is arranged above the receiving table (20), a feeding port (220) matched with the receiving table (20) is formed in the positioning table (22), at least one pair of clamping pieces (221) oppositely arranged on two sides of the feeding port (220) are arranged in the circumferential direction of the feeding port (220), and the power output end of each clamping piece (221) acts on the corresponding side wall of the material frame (100) so that the uppermost material frame (100) in the stacked material frames (100) is positioned at the feeding port (220);

the clamping mechanism (23) is arranged above the feeding opening (220), and the output end of the clamping mechanism is provided with a clamping jaw (231) for taking out and conveying the transformer (101) in the feeding frame (100) at the feeding opening (220) to the next station.

3. The transformer inserter of claim 2, wherein: the bottom of the receiving platform (20) is connected with a frame (201), and the power output end of the lifting mechanism (21) is connected to the frame (201) and can drive the frame (201) and the receiving platform (20) to move upwards synchronously; the material receiving platform (20) is provided with a vertically extending supporting plate (202) at a position adjacent to the lower part, a vertically extending notch part (203) is formed in the supporting plate (202), the lifting mechanism (21) is arranged on one side of the supporting plate (202), the frame (201) is arranged on the other side of the supporting plate (202), a connecting part (204) penetrating through the notch part (203) is arranged at a position, adjacent to the notch part (203), of the frame (201), and the power output end of the lifting mechanism (21) is connected to the connecting part (204).

4. The transformer inserter of claim 3, wherein: the lifting mechanism (21) comprises a first driving motor (211) and a transmission screw rod (212), an output shaft of the first driving motor (211) and the transmission screw rod (212) extend vertically, a first transmission wheel (213) is coaxially connected to the output shaft of the first driving motor (211), a second transmission wheel (214) is coaxially connected to a power input end of the transmission screw rod (212), the first transmission wheel (213) and the second transmission wheel (214) are linked through a linkage belt (215), a connecting portion (204) is connected to an extension plate of a power output end of the transmission screw rod (212), and the extension plate, a frame (201) and a material receiving platform (20) are driven by the first driving motor (211) to move upwards synchronously.

5. The transformer inserter of claim 4, wherein: connect material platform (20) including plate body (205), drive belt (206), second driving motor (209) and arrange along material frame (100) direction of delivery in driving shaft (207) and driven shaft (208) of plate body (205) front and back both sides, the axis of rotation of driving shaft (207) and driven shaft (208) parallel with the direction of delivery of material frame (100) is mutually perpendicular, the both ends of drive belt (206) are respectively around establishing on driving shaft (207) and driven shaft (208), thereby form two sections of sliding of relative arrangement from top to bottom between driving shaft (207) and driven shaft (208), plate body (205) are arranged between two sections of sliding, the power take off end of second driving motor (209) with driving shaft (207) drive connection.

6. The transformer plug-in machine of any one of claims 1-5, wherein: the stirring device (3) comprises a supporting seat (31), a turning plate (32), a first driving mechanism (33) and a conveying belt (34), wherein:

the supporting seat (31) is arranged on the workbench (1a), the top of the supporting seat (31) is provided with a rotating shaft (311), and the rotating axis of the rotating shaft (311) is parallel to the workbench (1 a);

the turning plate (32) is provided with a turning bit (32a) for restraining the transformer (101) to be turned, and the turning plate (32) is connected to the rotating shaft (311) and extends in the same direction with the rotating shaft (311);

the power output end of the first driving mechanism (33) is in driving connection with the rotating shaft (311), so that the rotating shaft (311) is driven to rotate along the axis of the rotating shaft (311), the turning plate (32) is turned over relative to the workbench (1a), and the turning plate is in a transverse extending state or a vertical extending state;

the conveying belt (34) is arranged on the workbench (1a) and extends in the same direction as the turning plate (32), and the feeding end of the conveying belt (34) is positioned below the turning plate (32) when the turning plate (32) is turned to a vertical extending state.

7. The transformer inserter of claim 6, wherein: the supporting seat (31) comprises two fixing plates (312) which are vertically arranged on the workbench (1a) and are oppositely arranged, the rotating shaft (311) is arranged between the two fixing plates (312), the two ends of the side wall of the turning plate (32) adjacent to the rotating shaft (311) are respectively provided with a connecting plate (313), and each connecting plate (313) is provided with a through hole for the rotating shaft (311) to pass through; the wall surface of one side of the fixing plate (312) which is far away from the rotating shaft (311) is provided with an inwards concave limiting groove, and the limiting groove forms the turning position (32 a).

8. The transformer inserter of claim 7, wherein: the first driving mechanism (33) is a telescopic cylinder, the power output end of the telescopic cylinder is in driving connection with the rotating shaft (311) through a transmission piece (331), the transmission piece (331) is in a strip shape, the first end of the transmission piece is coaxially connected with the rotating shaft (311), a telescopic rod (33a) at the output end of the telescopic cylinder is rotatably connected to the second end of the transmission piece (331) through a transmission shaft (332), and under the telescopic action of the telescopic rod (33a) in the telescopic cylinder, the second end of the transmission piece (331) moves up and down relative to the workbench (1a), so that the first end of the transmission piece (331) and the rotating shaft (311) rotate synchronously.

9. The transformer inserter of claim 8, wherein: the automatic feeding device is characterized by further comprising a transfer table (35) used for containing the turned transformer (101) and feeding materials to the next process, wherein the transfer table (35) is arranged on the workbench (1a) and arranged at the discharging end of the conveyor belt (34), and a positioning seat (36) used for containing the turned transformer (101) is arranged on the transfer table (35).

10. The transformer inserter of claim 9, wherein: also comprises a material moving mechanism (37), the material moving mechanism (37) is arranged adjacent to the downstream section of the conveyor belt (34),

move material mechanism (37) and include slip subassembly (371) and lifting unit (372), wherein:

the sliding assembly (371) comprises a sliding plate (3711) and a third driving mechanism (3712), wherein the power output end of the third driving mechanism (3712) is in driving connection with the sliding plate (3711), so that the sliding plate (3711) is driven to slide back and forth along the direction of the conveyor belt (34);

the lifting assembly (372) comprises a lifting plate (3721) and a fourth driving mechanism (3722), the fourth driving mechanism (3722) is arranged on the sliding plate (3711), the power output end of the fourth driving mechanism is in driving connection with the lifting plate (3721), the lifting plate (3721) is driven to move up and down relative to the sliding plate (3711), and a claw head (373) used for grabbing the transformer (101) on the guide rail (352) to the positioning seat (36) is arranged on the lifting plate (3721).

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