CN113579152B

CN113579152B - Feeder of extruder for processing power capacitor aluminum shell

Info

Publication number: CN113579152B
Application number: CN202110946574.8A
Authority: CN
Inventors: 郑国祥
Original assignee: Chizhou Rongda Electrical Appliance Co ltd
Current assignee: Chizhou Rongda Electrical Appliance Co ltd
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2024-06-14
Anticipated expiration: 2041-08-18
Also published as: CN113579152A

Abstract

The invention relates to a feeder of an extruder for processing an aluminum shell of a power capacitor, which belongs to the field of capacitor production and manufacturing and comprises a feeding track vertically arranged at one side of an extrusion groove on the left surface of a heating forming die, a receiving device capable of sliding along the front-back direction and used for receiving aluminum blocks in the feeding track one by one, a moving direction synchronous changing device for driving the receiving device to move back and forth through the left-right movement of the extrusion head, and a filling device for filling the aluminum blocks in the receiving device into the extrusion groove when the receiving device moves to a position corresponding to the extrusion groove. The invention can solve the problems that a feeder of the existing extruder for processing the aluminum shell of the power capacitor is easy to interfere with an extrusion device and is easy to wear.

Description

Feeder of extruder for processing power capacitor aluminum shell

Technical Field

The invention relates to the field of capacitor production and manufacturing, in particular to a feeder of an extruder for processing an aluminum shell of a power capacitor.

Background

The existing extruder comprises a machine body 1, wherein an extrusion device 11 and a heating forming die 12 are respectively arranged on the left side and the right side of the machine body, the extrusion device comprises an extrusion head 111 which moves in a reciprocating mode and an extrusion rod 112 arranged in the middle of one side of the extrusion head 111, which is pointed to the extrusion groove 121, and a circular extrusion groove 121 is arranged on the surface of the heating forming die at a position corresponding to the extrusion rod. When producing power capacitor aluminum hull, the extruder sends into the extrusion groove one by one with the cross-section for circular aluminium piece 7 that matches with the extrusion groove through the feeder, and the heating forming die heats the aluminium piece in the extrusion groove, and the extrusion pole is impressed in the extrusion groove, and the aluminium piece is extruded into cylindric aluminum hull under the extrusion force effect of extrusion pole to adhere to at the extrusion pole surface by the extrusion pole and take out the extrusion groove under the effect of extrusion force, take out the aluminum hull in extrusion groove by discharge apparatus 6 collection, the extrusion production of next capacitor aluminum hull is continued to the extruder. The discharging device 6 comprises a discharging plate 61 fixed between the front side wall and the rear side wall of the machine body 1, wherein the middle part of the discharging plate is provided with a perforation 62 at a position corresponding to the extrusion rod 112, and the diameter of the perforation 62 is larger than the diameter of the extrusion rod 112 and smaller than the diameter of the formed capacitor aluminum shell. The feeder of the existing extruder has the following defects:

1. The feeder and the extrusion device of the existing extruder are not synchronously arranged, the feeding interval of the feeder is different from the extrusion interval of the extrusion device, the feeder is easy to interfere with the extrusion device during feeding, and idle stroke conditions of the extrusion device or collision conditions of the extrusion rod and the feeding device are caused.

2. The feeder structure of the existing extruder is more complex, the conveying device 81 is arranged inside the extruder, the conveying device drives through the bevel gear transmission mechanism, aluminum blocks can enter the extrusion groove through the pushing device 82 and the poking device 83 after being conveyed by the conveying device (see fig. 4), the bevel gear transmission mechanism is worn out more after being used for a long time, the service life is lower, feeding is easy to occur, large noise is generated, and serious potential safety hazards are generated.

Disclosure of Invention

The invention aims to solve the technical problem of providing a feeder of an extruder for processing an aluminum shell of a power capacitor, and solves the problem that the feeder of the existing extruder for processing the aluminum shell of the power capacitor is easy to interfere with an extrusion device and is easy to wear.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a feeder of extruder for processing of power capacitor aluminum hull, includes the feeding track of vertical setting in extrusion groove one side of heating forming die left surface, feeding track below sets up and is used for accepting the material receiving device of aluminium piece in the feeding track one by one along fore-and-aft direction slip, the feeder still includes the synchronous change device of direction of motion that drives material receiving device back-and-forth movement through the left and right sides motion of extrusion head and fills the filler device of extrusion groove with the aluminium piece in the material receiving device when material receiving device moves to the position that corresponds with the extrusion groove.

Further, the feeding track is fixedly connected with the machine body through a feeding track mounting plate.

Further, one side of pay-off track back extrusion groove sets up the base plate, the bottom height of base plate is less than the bottom height of pay-off track, receiving device passes through slide rail and spout and base plate sliding connection, sets up the material receiving groove that matches with the aluminium block on the receiving device, the upper surface and the right surface of material receiving groove all set up the opening, and the degree of depth of material receiving groove matches with the diameter of single aluminium block and sets up.

Further, the synchronous change device of direction of motion includes first fixed block, first fixed block and pay-off track setting are at the homonymy of extrusion groove and with the lateral wall rigid coupling that the organism corresponds, and the end of first fixed block sets up the pivot of being connected rather than the bearing, first connecting plate and second connecting plate of top and bottom rigid coupling respectively, the left end upper surface of first connecting plate sets up first gyro wheel, and one side of first connecting plate dorsad extrusion pole is connected with the lateral wall that the organism corresponds through first spring, set up the spacing post to first connecting plate spacing on the lateral wall of organism dorsad extrusion pole one side, when first connecting plate and spacing post butt, connect the trough to move to and correspond the position with the extrusion groove, the directional extrusion groove one side of extrusion head sets up and is used for using the pivot to the wedge of extrusion pole pivoted as the center through first gyro wheel drive first connecting plate, the upper surface of material receiving device sets up the recess in first fixed block homonymy, the lower surface that the one end was kept away from to first fixed block sets up the driving lever, driving lever inserts in the recess, the recess is in the recess setting up with the lateral wall clearance when driving lever.

Further, the packing device includes bending plate and the second fixed block of setting on the material receiving device left surface, the bending plate includes first bending section and second bending section, the end rotation of first bending section and second fixed block is connected, sets up the second spring between the tip of first bending section and the left surface of material receiving device, the tip of second bending section sets up the filler post towards material receiving device one side, material receiving device's left surface sets up the through-hole in corresponding position with the filler post, the right-hand member and the material receiving groove intercommunication of through-hole, through-hole and filler post clearance setting, the left surface of pay-off track sets up the third fixed block, the below of third fixed block and bending plate the same altitude setting with the second gyro wheel of third fixed block rotation connection, when material receiving device slides in the fore-and-aft direction and the material receiving groove does not slide to correspond the position with the extrusion groove, second gyro wheel and the filler post can's unable get into in the material receiving groove under the butt effect of second gyro wheel, when material receiving device slides in the fore-and-aft direction and the joint groove corresponds to the second elasticity of second bending section and the second gyro wheel and the extrusion groove.

The invention has the following beneficial effects:

The feeding interval of the feeder of the extruder for processing the aluminum shell of the power capacitor is synchronous with the extrusion interval of the extrusion device of the extruder, so that the feeder does not interfere with the extrusion device during feeding, and the idle stroke condition of the extrusion device and the collision condition of the extrusion rod and the feeding device are avoided.

The feeder of the extruder for processing the aluminum shell of the power capacitor is simple in structure, and a bevel gear transmission mechanism is not arranged, so that the feeder is long in service life, the condition of not feeding in place can not occur, and larger noise and potential safety hazard can not be generated.

Drawings

FIG. 1 is a top view of a feeder of the present invention feeding aluminum blocks into an extrusion tank;

FIG. 2 is a left side view of the feed rail;

FIG. 3 is an enlarged view of FIG. 1 at A;

FIG. 4 is a schematic diagram of a prior art feeder connected to an extruder.

Detailed Description

As shown in fig. 1-3, a feeder of an extruder for processing aluminum shells of power capacitors comprises a feeding track 2 vertically arranged on one side of an extrusion groove 121 on the left surface of a heating forming die 12, a receiving device 4 capable of sliding along the front-back direction and used for receiving aluminum blocks 7 in the feeding track 2 one by one, a moving direction synchronous changing device 3 driving the receiving device 4 to move back and forth through the left-right movement of the extrusion head 111, and a filling device 5 filling the aluminum blocks 7 in the receiving device 4 into the extrusion groove 121 when the receiving device 4 moves to a position corresponding to the extrusion groove 121.

The feeding track 2 is fixedly connected with the machine body 1 through a feeding track mounting plate 21.

The feeding track 2 sets up the base plate 22 in the one side of extrusion groove 121 dorsad, the bottom height of base plate 22 is less than the bottom height of feeding track 2, receiving device 4 passes through slide rail and spout and base plate 22 sliding connection, sets up the material receiving groove 41 that matches with aluminium piece 7 on the receiving device 4, the upper surface and the right surface of material receiving groove 41 all set up the opening, and the degree of depth that connects groove 41 matches with the diameter of single aluminium piece 7 and sets up.

An opening is arranged on the upper surface of the receiving groove 41, so that the aluminum block 7 can fall into the receiving groove 41 from the feeding track 2; an opening is arranged on the right surface of the receiving groove 41, so that the filling device 5 can fill the aluminum block 7 into the extrusion groove from the receiving groove 41; the depth of the receiving channel 41 is set to match the diameter of the individual aluminium blocks 7 so that the receiving channel can transport only one aluminium block 7 at a time.

The moving direction synchronous changing device 3 comprises a first fixed block 31, the first fixed block 31 and the feeding track 2 are arranged on the same side of the extrusion groove 121 and are fixedly connected with the side wall corresponding to the machine body 1, the tail end of the first fixed block 31 is provided with a rotating shaft 311 connected with a bearing of the first fixed block, the top end and the bottom end of the rotating shaft 311 are fixedly connected with a first connecting plate 312 and a second connecting plate 313 respectively, the upper surface of the left end of the first connecting plate 312 is provided with a first roller 314, one side of the first connecting plate 312, which is opposite to the extrusion rod 112, is connected with the corresponding side wall of the machine body 1 through a first spring 315, the side wall of the first connecting plate 312, which is opposite to the extrusion rod 112, is provided with a limit post 33 limiting the first connecting plate 312, when the first connecting plate 312 is in butt joint with the limit post 33, the connecting groove 41 moves to a position corresponding to the extrusion groove 121, the extrusion head 111 points to the extrusion groove 121, one side of the first connecting plate 312 is provided with an inclined roller 32 for driving the first connecting plate 312 to rotate towards the extrusion rod 112 by taking the rotating shaft 311 as a center, the upper surface of the first roller 314 is provided with a groove 317, the upper surface of the material connecting device 4 is provided with a groove 317 on the same side as the first fixed block 31, the groove 317 is provided with a groove 317, the groove 316 is arranged in the groove 317 is far away from the center from the groove 316, and the groove 317 is provided with the groove 317 is arranged at the groove 317, when the groove is arranged at the groove 317 is opposite side is opposite the groove is opposite side 31, and the groove is provided with the groove is positioned at the groove 317, and the groove is positioned is opposite groove is positioned.

The packing device 5 comprises a bent plate 52 and a second fixed block 51 arranged on the left surface of the material connecting device 4, the bent plate 52 comprises a first bent section 521 and a second bent section 522, the first bent section 521 is rotatably connected with the tail end of the second fixed block 51, a second spring 53 is arranged between the end of the first bent section 521 and the left surface of the material connecting device 4, a packing column 54 is arranged at the end of the second bent section 522 towards one side of the material connecting device 4, a through hole 55A is arranged at the position corresponding to the packing column 54 on the left surface of the material connecting device 4, the right end of the through hole 55A is communicated with the material connecting groove 41, the through hole 55A is in clearance arrangement with the packing column 54, a third fixed block 55 is arranged on the left surface of the material feeding track 2, a second roller 56 rotatably connected with the third fixed block 55 is arranged below the third fixed block 55, when the material connecting device 4 slides in the front-rear direction and the material connecting groove 121 to the position corresponding to the pressing groove 121, the second roller 56 slides into the elastic force connecting groove 53 corresponding to the second roller 56 in the front-rear direction and the second bent section 53 and can not slide into the elastic force connecting groove 53 corresponding to the second roller 53 and can not slide into the elastic force connecting groove 54 in the position corresponding to the second roller section 41 and the second roller 53 when the elastic force connecting section 53 slides into the elastic force connecting groove 41 and the second roller section 53 and the elastic force connecting groove 41.

Working principle:

1. The operator places a plurality of aluminium blocks 7 into the feed rail 2.

2. The extrusion head 111 and the extrusion rod 112 move rightwards, the extrusion head 111 drives the wedge 32 to move rightwards, the inclined surface of the wedge 32 is contacted with the first roller 314 and pushes the first roller and the first connecting plate 312 to rotate anticlockwise around the rotating shaft 311, the first spring 315 stretches, the second connecting plate 313 and the deflector 316 rotate anticlockwise around the rotating shaft 311, the deflector 316 drives the material receiving device 4 to slide backwards through the groove 317, the material receiving groove 41 slides to the lower part of the feeding track 2, the lowest aluminum block 7 in the feeding track 2 falls into the material receiving groove 41, meanwhile, the second roller 56 rolls from the first bending section 521 to the second bending section 522 along the bending plate 52,

The filler column 54 is pulled out of the receiving groove 41 by the abutting action of the second roller 56.

3. The extrusion head 111 and the extrusion rod 112 move leftwards, the wedge 32 moves leftwards, the first connecting plate 312 and the second connecting plate 313 rotate clockwise around the rotating shaft 311 under the action of the tension of the first spring 315, the first connecting plate 312 moves to be abutted with the limit post 33, the deflector 316 drives the material receiving device 4 to slide forwards through the groove 317, the material receiving groove 41 moves to a position corresponding to the extrusion groove 121, the second roller 56 rolls from the second bending section 522 to the first bending section 521 along the bending plate 52, and the packing column 54 enters the material receiving groove 41 to fill the aluminum block 7 in the material receiving groove 41 into the extrusion groove 121 under the action of the elasticity of the second spring 53.

4. The extrusion head 111 and the extrusion rod 112 move rightwards, the extrusion rod 112 extrudes the aluminum block 7 in the extrusion groove 121 into a capacitor aluminum shell, meanwhile, the receiving groove 41 slides to the lower part of the feeding track 2, the filling column 54 is separated from the receiving groove 41 under the abutting action of the second roller 56, and the last aluminum block in the feeding track 2 is the second last aluminum block

7 Fall into the receiving chute 41.

5. The extrusion head 111 and the extrusion rod 112 move leftwards, the extrusion rod 112 brings the capacitor aluminum shell which is just extruded out of the extrusion groove 121, the end part of the extrusion rod 112 is retracted into the perforation 62, the capacitor aluminum shell falls off after being blocked by the stripper plate 61 because the diameter of the capacitor aluminum shell is larger than that of the perforation, the receiving groove 41 moves to a position corresponding to the extrusion groove 121, and the packing column 54 enters the receiving groove 41 under the elastic force of the second spring 53 to pack the aluminum block 7 in the receiving groove 41 into the extrusion groove 121.

6. And repeating the steps 4 and 5 until all the aluminum blocks 7 in the feeding track 2 are fed.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. The present invention is not limited to the above-described embodiments, and the above-described embodiments and descriptions merely illustrate the principles of the invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a feeder of extruder for processing of power capacitor aluminum hull, characterized by, including vertical pay-off track (2) of setting up in one side of extrusion groove (121) of heating forming die (12) left surface, pay-off track (2) below sets up and is used for accepting material receiving device (4) of aluminium piece (7) in pay-off track (2) one by one along fore-and-aft direction slip, the feeder still includes through the synchronous change device (3) of the direction of motion of extrusion head (111) left and right movement drive material receiving device (4) fore-and-aft movement and when material receiving device (4) moves to the position corresponding to extrusion groove (121), pack the filler device (5) of extrusion groove (121) with aluminium piece (7) in material receiving device (4), pay-off track (2) pass through pay-off track mounting panel (21) and organism (1) rigid coupling, one side of pay-off track (2) back extrusion groove (121) sets up base plate (22), the bottom height of base plate (22) is less than the bottom height of pay-off track (2), material receiving device (4) are through slide rail and base plate (22) and are connected with aluminium piece (4) and are connected with the upper surface (41) of material receiving device (41) and are all set up on the upper surface of material receiving device (41), the depth of the connecting trough (41) is matched with the diameter of a single aluminum block (7), the moving direction synchronous changing device (3) comprises a first fixed block (31), the first fixed block (31) is fixedly connected with the side wall of the machine body (1) which is arranged on the same side of the extrusion trough (121) and corresponds to the machine body (1), the tail end of the first fixed block (31) is provided with a rotating shaft (311) connected with a bearing of the first fixed block, the top end and the bottom end of the rotating shaft (311) are fixedly connected with a first connecting plate (312) and a second connecting plate (313) respectively, the upper surface of the left end of the first connecting plate (312) is provided with a first roller (314), one side of the first connecting plate (312) opposite to the extrusion trough (112) is connected with the side wall of the machine body (1) through a first spring (315), a limit post (33) which limits the first connecting plate (312) is arranged on the side wall of the machine body (1) opposite to the extrusion trough (112), when the first connecting plate (312) is connected with the limit post (33), the first connecting plate (312) moves to the corresponding to the extrusion trough (121) to the corresponding position (121) through the first roller (314), the first connecting plate (312) is arranged to the rotating center (32) and is arranged to be used for driving the extrusion trough (121), the upper surface of receiving device (4) sets up recess (317) in first fixed block (31) homonymy, the lower surface of one end that second connecting plate (313) kept away from first fixed block (31) sets up driving lever (316), driving lever (316) insert in recess (317), when driving lever (316) are in the central point of recess (317), the lateral wall clearance setting of driving lever (316) and recess (317).

2. The feeder of the extruder for processing aluminum cases of power capacitors according to claim 1, wherein the filler device (5) comprises a bent plate (52) and a second fixing block (51) arranged on the left surface of the material receiving device (4), the bent plate (52) comprises a first bent section (521) and a second bent section (522), the first bent section (521) is rotatably connected with the tail end of the second fixing block (51), a second spring (53) is arranged between the end of the first bent section (521) and the left surface of the material receiving device (4), a filler column (54) is arranged at one side of the end of the second bent section (522) towards the material receiving device (4), a through hole (55A) is arranged at the position corresponding to the filler column (54), the right end of the through hole (55A) is communicated with the material receiving groove (41), a third fixing block (55) is arranged on the left surface of the material feeding track (2) in a clearance mode, the third fixing block (55) is arranged at the position corresponding to the position of the left surface of the material receiving device (4) and is not connected with the second connecting groove (55) in a sliding mode when the lower side of the second bent section (522) is in the same height as the direction of the material receiving device (4), the second roller (56) is abutted with the second bending section (522) and the filler column (54) cannot enter the material receiving groove (41) under the abutting action of the second roller (56), and when the material receiving device (4) slides along the front-back direction and the material receiving groove (41) slides to a position corresponding to the extrusion groove (121), the second roller (56) abuts against the first bending section (521) and the filler column (54) enters the material receiving groove (41) under the elastic action of the second spring (53).