CN118824750B - Aluminum foil disc positioning device for capacitor nailing machine - Google Patents

Abstract

An aluminum foil disc positioning device for a capacitor coil nailing machine belongs to the technical field of capacitor coil nailing machines, and solves the problem that the existing aluminum foil disc positioning device for the capacitor coil nailing machine is poor in limiting effect on an aluminum foil disc; according to the invention, the first rack is driven to move by starting the hydraulic rod fixed on the inner wall of the round frame, the first rack and the gear drive the disc on the surface of the rotating rod to rotate, and the four groups of arc-shaped sliding blocks in the channels which are arranged on the surface of the disc at equal intervals slide from one end of the channel close to the rotating rod to one end far away from the rotating rod, so that the sliding blocks drive the sliding rod to slide in the sliding groove formed on the surface of the long connecting plate to the outside, and the sliding rod drives the limiting plate to move out of the opening, thereby realizing accurate positioning and compaction of the disc, avoiding the problem of offset or dislocation and improving the positioning accuracy.

Description

Aluminum foil disc positioning device for capacitor nailing machine

Technical Field

The invention relates to the technical field of capacitor nailing and rolling machines, in particular to an aluminum foil disc positioning device for a capacitor nailing and rolling machine.

Background

The electrolytic capacitor is one of indispensable components in electronic products, along with the rapid development of electronic technology, the assembly density and the integration degree of the whole electronic machine are further increased, in the manufacturing process of the electrolytic capacitor, a guide pin is riveted on an anode aluminum foil and a cathode aluminum foil by adopting a nailing machine, an electrolytic paper is clamped between the anode aluminum foil and the cathode aluminum foil to form a core package, and in the processing process, the aluminum foil disc is required to be pressed and positioned.

Through retrieving current chinese patent CN208489118U, a capacitor coil machine aluminum foil disc compressing device is disclosed for compress tightly the aluminum foil disc, wherein, capacitor coil machine aluminum foil disc compressing device includes the spacing dish, along spacing dish central point department axial extension's gag lever post, spring and the sleeve of cover on locating the gag lever post, be equipped with recess and with the communicating a plurality of direction knot position holes of recess in the axial of gag lever post, correspond be equipped with on the telescopic inner wall with the direction knot position hole assorted be used for with corresponding direction knot position hole looks lock behind the sleeve compress tightly the spring. The aluminum foil disc pressing device of the capacitor nailing machine provided by the utility model has the advantages of simple structure and convenience in assembly and disassembly; saving cost and improving working efficiency.

Although the above-mentioned comparison patent achieves the effect of positioning and compacting the aluminum foil disc through the limiting disc, the limiting rod, the spring and the sleeve which are arranged, some problems still exist in the operation and use process: the current work that compresses tightly of location block through a plurality of knot position holes wastes time and energy to be difficult to fix a position according to not unidimensional aluminium foil dish and compress tightly fixed work, have certain limitation, adjust the flexibility ratio low, and fix a position and compress tightly and dismouting all need manual the operation, drag slow holistic work progress, degree of automation is low, the practicality is poor, and efficiency is lower.

Disclosure of Invention

In order to solve the problems, the invention discloses an aluminum foil disc positioning device for a capacitor nailing machine, which solves the problem that the existing aluminum foil disc positioning device for the capacitor nailing machine is poor in limiting effect on an aluminum foil disc.

The technical scheme of the invention is as follows: the aluminum foil disc positioning device for the capacitor nailing machine comprises a frame plate, a motor arranged on one side of the frame plate, a driving rod arranged at the output end of the motor, and a disc body sleeved on the surface of the driving rod, wherein a fixed plate is arranged on the surface of the driving rod, a clamping block is arranged on the surface of the fixed plate, a clamping groove is formed in the surface of the disc body, the clamping block is clamped with the clamping groove, and an expansion limiting structure is arranged at one end of the driving rod;

The expansion limit structure comprises a round frame arranged at one end of a driving rod, a hydraulic rod arranged inside the round frame, a rack I arranged at the output end of the hydraulic rod, a gear I meshed with one end of the rack I, a rotating rod arranged inside the gear I, a disc arranged at one end of the rotating rod, a channel arranged on the surface of the disc, a sliding block in the channel in a sliding mode, a sliding rod arranged at one end of the sliding block, a limit plate arranged at one end of the sliding rod, and an opening arranged on the surface of the round frame, wherein the limit plate moves out of the opening, the diameter of the limit plate is larger than that of the driving rod, and the limit plate is attached to the other end of the disc body, pressed and clamped and positioned.

Further, the inner wall of circle frame is connected with the bottom plate, and the notch has been seted up to the top surface of bottom plate, and the inside slip of notch has the sliding block, and the sliding block is connected with rack one, the one end and the circle frame inner wall bearing of bull stick are connected, and the other end swing joint of bull stick has the spliced pole, and the spliced pole is connected with the circle frame inner wall.

Further, the surface of spliced pole is provided with long fishplate bar, and long fishplate bar equidistant distribution has four groups, and four groups long fishplate bar's surface has respectively been seted up the spout, and slide bar equidistant distribution has four groups, four groups the slide bar slides in the spout inside.

Further, the channel is the arc, the channel is the diffusion state outwards by the disc centre of a circle, and the slider slides to the other end from the one end that the channel is close to the bull stick, and the slider drives the slide bar and to the outside removal of circle frame, and the slider slides to the other end from the one end that the bull stick was kept away from to the channel, and the slider drives the slide bar and to the inside removal of circle frame.

Further, the frame plate is L-shaped, the top surface of the frame plate is provided with a cylinder, the top end of the cylinder is provided with a supporting plate, and the top end of the supporting plate is provided with a disc collecting frame.

Further, pushing disc structures are arranged at the top ends of the supporting plates, each pushing disc structure comprises a second rack arranged at the top ends of the supporting plates, one end of each second rack is meshed with a second gear, a screw is arranged in each second gear, one end of each screw is movably connected with the corresponding frame plate, threaded columns are connected to the surfaces of the screw in a threaded mode, and a top plate is arranged at one end of each threaded column.

Further, the extension platform has been placed to one side of frame plate, and one side of extension platform is provided with feeding structure, and feeding structure is including setting up the motor in extension platform one end, and the output of motor is provided with the dwang, and the inside of dwang slides there is the swinging arms, and the one end of swinging arms is provided with the rotation seat, and the surface cover of swinging arms is equipped with the spring, and the both ends of spring respectively with dwang and rotation seat fixed connection prevent that the swinging arms from droing in the dwang, and the one end of rotation seat is provided with the pivot, and the one end of pivot is provided with the movable plate, and one side of movable plate is provided with the connecting plate, one side of extension platform is provided with the fixed plate, and the fixed plate symmetry is provided with two sets of, and two sets of be provided with the horizontal pole between the fixed plate, the surface slip of horizontal pole has the lantern ring, and the bottom of lantern ring is provided with the montant surface slip at the montant.

Further, one side of connecting plate is provided with the fixed shell, and the top of fixed shell is provided with the clamping structure, and the clamping structure is including setting up at the inside servo motor of fixed shell, and servo motor's output is provided with the rotary rod, and the surface of rotary rod is provided with the gear III, and gear III's upper and lower both ends all mesh has the rack III, and rack III's one end is provided with the connecting rod, and the one end of connecting rod is provided with splint, and splint are the arc, and splint have two sets of with fixed shell center pin symmetric distribution, two sets of splint reverse movement, and the elongated slot has been seted up to the top surface of fixed shell, and the connecting rod moves in the elongated slot, and the embedded groove has been seted up to the inner wall of fixed shell, and the inside of embedded groove slides has the rectangle piece, and the rectangle piece is connected with the rack three-phase.

Further, the top of connecting plate is provided with the pushing structure, and the pushing structure runs through the inside of connecting plate surface offer the pole groove including the driven lever that sets up in rotary rod one end, driven lever's one end and connecting plate inner wall swing joint, the one end of connecting plate is provided with the curb plate, curb plate one end swing joint has the lead screw, is provided with annular belt between lead screw and the driven lever, and the surface threaded connection of lead screw has the sleeve, and the lead screw drives the sleeve and removes along its axial to the direction of frame plate, and telescopic one end fixed mounting has the push pedal, the bottom and the fixed shell top parallel and level of push pedal.

Further, the top of fixed shell is provided with places the board, places the board and is used for placing the disk body, and the top of fixed shell is provided with the moving structure, and the moving structure is including setting up the driven plate at placing the board both ends, and the bottom of driven plate is provided with the lug, the top of fixed shell is provided with the longboard, and the top surface of longboard is seted up flutedly, and the lug slides in the recess inside, and the one end of lug is provided with the extension spring, and the one end and the recess inner wall of extension spring are connected.

The invention has the advantages that: firstly, the hydraulic rod fixed on the inner wall of the round frame is started to drive the rack I to move through the external button, the rack I is meshed with the gear I, the gear I drives the rotating rod to rotate, and the rotating rod drives the disc to rotate, so that four groups of sliding blocks inside arc-shaped channels formed on the surface of the disc at equal intervals slide outwards from one end of the channels close to the rotating rod to one end far away from the rotating rod, the sliding blocks drive the sliding rods to slide outwards in the sliding grooves formed on the surface of the long connecting plate, the four groups of sliding rods drive the four groups of limiting plates to move outwards to move out of the outside of the opening, the accurate positioning and compression of the disc body are realized, the problems of offset or dislocation are avoided, and the positioning accuracy is improved.

Drawings

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is a schematic three-dimensional structure of the motor, drive rod, disk, stator and expansion limit structure of the present invention;

FIG. 3 is a schematic three-dimensional structure of the expansion limit structure of the present invention;

FIG. 4 is a schematic view of a three-dimensional structure of a cylinder, a support plate and a take-up frame according to the present invention;

FIG. 5 is a schematic three-dimensional structure of the push plate structure of the present invention;

FIG. 6 is a schematic three-dimensional structure of the feeding structure, the clamping structure, the pushing structure and the moving structure of the present invention;

FIG. 7 is a schematic three-dimensional structure of a feeding structure according to the present invention;

FIG. 8 is a schematic three-dimensional structure of a clamping structure according to the present invention;

FIG. 9 is a schematic three-dimensional structure of the pushing structure of the present invention;

Fig. 10 is a schematic three-dimensional structure of the moving structure of the present invention.

Wherein: 1. a frame plate; 2. a motor; 3. a driving rod; 4. a tray body; 5. a fixed plate; 6. a clamping block; 7. a clamping groove; 8. expanding a limit structure; 81. a round frame; 82. a hydraulic rod; 83. a first rack; 84. a first gear; 85. a rotating rod; 86. a disc; 87. a channel; 88. a slide block; 89. a connecting column; 810. a long connecting plate; 811. a chute; 812. a slide bar; 813. an opening; 814. a limiting plate; 9. a cylinder; 10. a support plate; 11. a disc collecting frame; 12. a pushing disc structure; 121. a second rack; 122. a second gear; 123. a screw; 124. a threaded column; 125. a top plate; 13. an extension table; 14. a feeding structure; 141. a motor; 142. a rotating block; 143. a swinging rod; 144. a rotating seat; 145. a rotating shaft; 146. a moving plate; 147. a vertical rod; 148. a collar; 149. a fixing plate; 1410. a cross bar; 1411. a spring; 15. a connecting plate; 16. a clamping structure; 162. a servo motor; 163. a rotating rod; 164. a third gear; 165. a third rack; 166. a connecting rod; 167. a clamping plate; 168. a long groove; 17. a fixed case; 18. a pushing structure; 181. a driven rod; 182. a belt; 183. a screw rod; 184. a sleeve; 185. a push plate; 186. a side plate; 19. a moving structure; 191. a driven plate; 192. a bump; 193. a long plate; 194. a groove; 195. a tension spring; 20. the plate is placed.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-3, the expansion limit structure 8 comprises a round frame 81 arranged at one end of a driving rod 3, a hydraulic rod 82 arranged inside the round frame 81, a first rack 83 arranged at the output end of the hydraulic rod 82, a first gear 84 meshed with one end of the first rack 83, a rotating rod 85 arranged inside the first gear 84, a disc 86 arranged at one end of the rotating rod 85, a channel 87 arranged on the surface of the disc 86, a sliding block 88 in sliding connection with the channel 87, a sliding rod 812 arranged at one end of the sliding block 88, a limit plate 814 arranged at one end of the sliding rod 812, and an opening 813 arranged on the surface of the round frame 81, wherein the diameter of the limit plate 814 is larger than that of the driving rod 3, the limit plate 814 is attached to, pressed and clamped and positioned at the other end of the disc 4, the inner wall of the round frame 81 is connected with a bottom plate, the top surface of the bottom plate is provided with a notch, the inside of the notch is provided with a sliding block in a sliding way, the sliding block is connected with a first rack 83, one end of a rotating rod 85 is connected with the inner wall of a round frame 81 in a bearing way, the other end of the rotating rod 85 is movably connected with a connecting column 89, the connecting column 89 is connected with the inner wall of the round frame 81, the surface of the connecting column 89 is provided with long connecting plates 810, four groups of long connecting plates 810 are distributed at equal intervals, the surfaces of the four groups of long connecting plates 810 are respectively provided with a sliding groove 811, four groups of sliding rods 812 are distributed at equal intervals in the sliding groove 811, the sliding groove 87 is arc-shaped, the center of the circular disc 86 of the sliding groove 87 is outwards in a diffusion state, the sliding block 88 slides to the other end from one end of the sliding groove 87, which is close to the rotating rod 85, of the sliding block 88 drives the sliding rod 812 to the outside of the round frame 81, the sliding block 88 slides from one end of the sliding rod 87, which is far away from the rotating rod 85, the slide block 88 drives the slide rod 812 to move towards the inside of the round frame 81 to achieve the effect of accurately positioning and compressing the disc body 4.

Specifically, firstly, staff passes through the surface of the driving rod 3 through a rod groove formed in the center of the disc body 4, so that one end of the disc body 4 is contacted with a fixed plate 5 arranged on the surface of the driving rod 3, four groups of clamping grooves 7 formed on the surface of the disc body 4 at equal intervals are clamped with four groups of clamping blocks 6 arranged on the surface of the fixed plate 5 at equal intervals, the position of the disc body 4 is fixed, as one end of the driving rod 3 far away from the motor 2 is provided with a round frame 81, the diameter of the round frame 81 is equal to that of the driving rod 3, the disc body 4 can also pass through the round frame 81 to be sleeved on the surface of the driving rod 3, the round frame 81 is not blocked by the disc body 4, then a hydraulic rod 82 fixed on the inner wall of the round frame 81 is started through an external button, the hydraulic rod 82 drives a rack 83 at an output end to move, the rack 83 is meshed with a gear 84, the gear 84 drives a rotating rod 85 to rotate, one end of the rotating rod 85 is movably connected with the inner wall of the round frame 81, the rotating rod 85 drives the disc 86 to rotate, thus the sliding blocks 88 in the four groups of arc-shaped channels 87 which are formed on the surface of the disc 86 at equal intervals slide outwards from one end of the channels 87 close to the rotating rod 85 to one end far away from the rotating rod 85, so that the sliding blocks 88 drive the sliding rods 812 to slide outwards in the sliding grooves 811 formed on the surface of the long connecting plate 810, the long connecting plate 810 is connected with the connecting posts 89, the connecting posts 89 are movably connected with the rotating rod 85, thus the four groups of sliding rods 812 drive the four groups of limiting plates 814 to move outwards, as the four groups of limiting plates 814 correspond to the positions of the four groups of openings 813 formed on the surface of the four groups of round frames 81, the further four groups of limiting plates 814 move out of the four groups of openings 813, the diameter of the four groups of limiting plates 814 is larger than the diameter of the driving rod 3, the further four groups of limiting plates 814 are attached, pressed and clamped to the other end of the disc 4 without being fixed by bolts, the operation is convenient, when the disc body 4 needs to be disassembled, only the hydraulic rod 82 is required to be driven reversely, so that the four groups of limiting plates 814 retract into the round frame 81, the disc body 4 is accurately positioned and pressed, the offset or dislocation problem is avoided, and the positioning accuracy is improved.

As shown in fig. 4-10, the frame plate 1 is L-shaped, the top surface of the frame plate 1 is provided with a cylinder 9, the top end of the cylinder 9 is provided with a supporting plate 10, and the top end of the supporting plate 10 is provided with a tray collecting frame 11, so that automatic material receiving is facilitated.

The top of backup pad 10 is provided with pushing disc structure 12, pushing disc structure 12 is including setting up rack two 121 at the backup pad 10 top, and rack two 121's one end meshing has gear two 122, and gear two 122's inside is provided with screw 123, and screw 123's one end and frame plate 1 swing joint, screw 123's surface threaded connection has screw post 124, and screw post 124's one end is provided with roof 125, makes things convenient for the separation of the disk body 4 and the actuating lever 3 that the coiling of actuating lever 3 surface was accomplished to take off the material.

Extension table 13 has been placed to one side of frame plate 1, one side of extension table 13 is provided with pay-off structure 14, pay-off structure 14 is including setting up the motor 141 in extension table 13 one end, the output of motor 141 is provided with turning block 142, the inside slip of turning block 142 has swinging arms 143, the one end of swinging arms 143 is provided with rotation seat 144, the surface cover of swinging arms 143 is equipped with spring 1411, the both ends of spring 1411 respectively with turning block 142 and rotation seat 144 fixed connection, prevent swinging arms 143 from coming off from turning block 142, the one end of rotation seat 144 is provided with pivot 145, the one end of pivot 145 is provided with movable plate 146, one side of movable plate 146 is provided with connecting plate 15, one side of extension table 13 is provided with fixed plate 149, the fixed plate 149 symmetry is provided with two sets of, be provided with horizontal pole 1410 between two sets of fixed plates 149, the surface slip of horizontal pole 1410 has the lantern ring 148, the bottom of lantern ring 148 is provided with montant 147, movable plate 146 slides on 147 surface, automatic feeding reduces the cost of artifical material loading.

One side of connecting plate 15 is provided with fixed shell 17, the top of fixed shell 17 is provided with clamping structure 16, clamping structure 16 is including setting up at the inside servo motor 162 of fixed shell 17, the output of servo motor 162 is provided with rotary rod 163, the surface of rotary rod 163 is provided with gear three 164, the upper and lower both ends of gear three 164 all mesh with rack three 165, the one end of rack three 165 is provided with connecting rod 166, the one end of connecting rod 166 is provided with splint 167, splint 167 is the arc, splint 167 has two sets of with fixed shell 17 center pin symmetric distribution, two sets of splint 167 reverse movement, elongated slot 168 has been seted up to the top surface of fixed shell 17, connecting rod 166 moves in elongated slot 168, the embedded groove has been seted up to the inner wall of fixed shell 17, the inside of embedded groove slides has the rectangle piece, the rectangle piece is connected with rack three 165, the stability on placing plate 20 of disk body 4 of being convenient for.

The top of connecting plate 15 is provided with pushing structure 18, pushing structure 18 is including setting up the driven lever 181 in rotary lever 163 one end, the inside of the lever groove is seted up on driven lever 181 running through connecting plate 15 surface, the one end and the connecting plate 15 inner wall swing joint of driven lever 181, the one end of connecting plate 15 is provided with curb plate 186, curb plate 186 one end swing joint has lead screw 183, be provided with annular belt 182 between lead screw 183 and the driven lever 181, the surface threaded connection of lead screw 183 has sleeve 184, lead screw 183 drives sleeve 184 and removes to the direction of frame plate 1 along its axial, sleeve 184's one end fixed mounting has push pedal 185, push pedal 185's bottom and fixed shell 17 top surface parallel and level, automatic pushing convenient operation, degree of automation is high.

The top of fixed shell 17 is provided with places board 20, places board 20 and is used for placing disk body 4, and the top of fixed shell 17 is provided with movable structure 19, and movable structure 19 is including setting up the driven plate 191 at placing board 20 both ends, and the bottom of driven plate 191 is provided with lug 192, and the top of fixed shell 17 is provided with long board 193, and recess 194 has been seted up to the top surface of long board 193, and lug 192 slides in recess 194 inside, and the one end of lug 192 is provided with extension spring 195, and the one end and the recess 194 inner wall of extension spring 195 are connected, avoid dropping when disk body 4 pay-off.

Specifically, and this device can also carry out the automatic centre gripping pay-off work to disk body 4, through having placed extension platform 13 in one side of frame plate 1, thereby be provided with pay-off structure 14 in one side of extension platform 13, the staff will not around the disk body 4 of book place on the board 20 surface of placing on the fixed shell 17 top can, then through outside button to the inside servo motor 162 start of fixed shell 17, servo motor 162 drives the rotary rod 163 that send the output, rotary rod 163 drives surface gear three 164 and rack three 165 meshing at both ends, two sets of rack three 165 drive the rectangular piece of bottom respectively and reverse the slip in the embedded groove of seting up of fixed shell 17 inner wall, two sets of rack three 165 drive the connecting rod 166 reverse movement of each one end, elongated slot 168 has been seted up to the top surface of fixed shell 17, connecting rod 166 slides in elongated slot 168's inside, two sets of connecting rods 166 drive respectively and be curved splint 167 reverse movement on placing board 20 can, at this moment, rotary rod one end drives the inside driven lever 181 of connecting plate 15 and just rotates, driven lever 183 rotates through belt 182 transmission lead screw 183, driven lever 181 and connecting plate 15's inner wall and rack three 165 are connected with the inside drive plate 183, the step 186 has been carried out to the step 186, the step 186 has been carried out to the side plate 186, the step 186 is connected to the end plate 186, the end plate 186 is connected to the end plate 186, the step is connected to the end plate 186 has been carried out to the step is fixed, and the end is accomplished, and the step is accomplished.

Then the motor 141 fixed on one side of the extension table 13 through an external button drives the rotating block 142 connected with the output end to slide on the surface of the swinging rod 143, the rotating block 142 extrudes the spring 1411, the rotating block 142 drives the rotating seat 144 to rotate, the rotating seat 144 drives the vertical rod 147 connected with the moving plate 146 through the rotating shaft 145 to slide in the sliding manner, because the top end of the vertical rod 147 slides to a group of fixed plates 149 from right to left on the surface of the cross rod 1410 through the collar 148, along with the rotation of the swinging rod 143, the moving plate 146 slides from the bottom end of the vertical rod 147 to the top end of the vertical rod 147, the new tray 4 is placed on the placing plate 20 at the transverse sliding end, the moving plate 146 drives one end to slide along the fixed shell 17 fixed by the connecting plate 15 to form an L shape, the tray 4 fixed at the top end of the fixed shell 17 is fed upwards along with the fixed shell 17, and is flush with the tray 4 coiled on the surface of the driving rod 3, the accurate feeding of the tray 4 can be realized, the accurate position of the tray 4 on the placing plate 20 can be ensured, the space can be effectively used, and the high efficiency in the feeding process can be realized.

Then dismantle the disk body 4 that the coiling was accomplished with actuating lever 3 surface from actuating lever 3 surface and break away from, through the inside hydraulic rod 82 of outside button reverse drive round frame 81, thereby make round frame 81 surface convex four groups limiting plate 814 retract round frame 81's inside can not block disk body 4, further start the backup pad 10 that drives the top through two groups cylinder 9 on outside button to frame plate 1 top and upwards move, backup pad 10 drives the receipts dish frame 11 on top and upwards move, simultaneously backup pad 10 drives two groups rack two 121 on top and upwards move, two groups rack two 121 and gear two 122 meshing, gear two 122 drive inside screw rod 123 and screw post 124 threaded connection, screw rod 123 and frame plate 1 swing joint, screw post 124 drives the roof 125 of one end to the disk body 4 promotion that the coiling was accomplished on actuating lever 3 surface, thereby roof 125 promotes disk body 4 to move, fixture block 6 and disk body 4 surface set up draw-in groove 7 separation, disk body 4 moves round frame 81, thereby fall to the inside of the receipts dish frame 11 of below can accomplish automatic ejection of compact and receipts material smoothly and high-efficiently and effectively guarantee that the subsequent link has carried out the assigned position.

Finally, the servo motor 162 in the fixed shell 17 is reversely driven through an external button, so that the two groups of clamping plates 167 reversely move away from the tray body 4 on the surface of the placing plate 20, the rotary rod 163 reversely moves to drive the driven rod 181 to reversely move, the driven rod 181 drives the screw rod 183 to reversely rotate through the belt 182, the driven rod 181 is movably connected with the inner wall of the connecting plate 15, one end of the screw rod 183 is movably connected with the side plate 186, the side plate 186 is connected with the connecting plate 15, the screw rod 183 drives the sleeve 184 to move towards the direction of the driving rod 3, the push plate 185 is driven by the sleeve 184 to simultaneously push the placing plate 20 and the tray body 4, the placing plate 20 drives the lugs 192 on the bottom ends of the driven plates 191 to slide in the grooves 194 formed on the surface of the long plate 193, the lugs 192 drive the tension springs 195 to stretch and store force, the rod grooves formed in the center of the tray body 4 penetrate through the surfaces of the round frame 81 and the driving rod 3, the clamping grooves 7 on the surface of the tray body 4 are clamped with the clamping blocks 6 on one end of the fixed plate 5, and then the limiting plate 814 in the round frame 81 is repeatedly operated, so that the limiting plate 814 in the inside the round frame 81 is tightly fixed and limited by the tray body 4, the tray body 4 is not guaranteed to fall off in the operation or fall off, the operation or the safety and the flexibility are improved.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are by way of example only and not limitation, and that the objects of the invention have been fully and effectively achieved. The functional and structural principles of the present invention have been shown and described in the examples and embodiments of the present invention may be modified or practiced without departing from the principles.

Claims (9)

1. An aluminum foil disk positioning device for a capacitor nailing and rolling machine, comprising a frame plate (1), a motor (2) arranged at one end of the frame plate (1), a driving rod (3) arranged at the output end of the motor (2), and a disk body (4) sleeved on the surface of the driving rod (3), characterized in that: a fixed plate (5) is arranged on the surface of the driving rod (3), a clamping block (6) is arranged on the surface of the fixed plate (5), a clamping groove (7) is opened on the surface of the disk body (4), and an expansion limit structure (8) is arranged at one end of the driving rod (3); The extended limiting structure (8) comprises a circular frame (81) arranged at one end of the driving rod (3), a hydraulic rod (82) arranged inside the circular frame (81), a rack (83) arranged at the output end of the hydraulic rod (82), a gear (84) meshed with one end of the rack (83), a rotating rod (85) arranged inside the gear (84), a circular disc (86) arranged at one end of the rotating rod (85), a groove (87) provided on the surface of the circular disc (86), a slider (88) slidably connected to the inside of the groove (87), a sliding rod (812) provided at one end of the slider (88), a limiting plate (814) provided at one end of the sliding rod (812), and an opening (813) provided on the surface of the circular frame (81); An extension platform (13) is placed on one side of the frame plate (1), and a feeding structure (14) is arranged on one side of the extension platform (13). The feeding structure (14) comprises a motor (141) arranged at one end of the extension platform (13), a rotating block (142) is arranged at the output end of the motor (141), a swing rod (143) is slidably arranged inside the rotating block (142), a rotating seat (144) is arranged at one end of the swing rod (143), a spring (1411) is sleeved on the surface of the swing rod (143), and two ends of the spring (1411) are respectively connected to the rotating block (142) and the rotating seat (144), and the rotating seat (144) is provided with a spring (1411). A rotating shaft (145) is provided at one end, a movable plate (146) is provided at one end of the rotating shaft (145), a connecting plate (15) is provided on one side of the movable plate (146), a fixed plate (149) is provided on one side of the extension platform (13), two groups of fixed plates (149) are symmetrically provided, a cross bar (1410) is provided between the two groups of fixed plates (149), a sleeve ring (148) is slidably provided on the surface of the cross bar (1410), a vertical rod (147) is provided at the bottom end of the sleeve ring (148), the movable plate (146) slides on the surface of the vertical rod (147), and the bottom end of the vertical rod (147) is connected to the extension platform (13). 2. An aluminum foil disk positioning device for a capacitor nail rolling machine as described in claim 1, characterized in that: the inner wall of the circular frame (81) is connected to a bottom plate, a notch is opened on the top surface of the bottom plate, a sliding block slides inside the notch, the sliding block is connected to rack 1 (83), one end of the rotating rod (85) is connected to the inner wall bearing of the circular frame (81), and the other end of the rotating rod (85) is movably connected to a connecting column (89), and the connecting column (89) is connected to the inner wall of the circular frame (81). 3. An aluminum foil disc positioning device for a capacitor nail rolling machine as described in claim 2, characterized in that: a long connecting plate (810) is arranged on the surface of the connecting column (89), and four groups of long connecting plates (810) are evenly spaced, and a sliding groove (811) is respectively opened on the surface of the four groups of long connecting plates (810), and four groups of sliding rods (812) are evenly spaced, and the four groups of sliding rods (812) slide inside the sliding groove (811). 4. An aluminum foil disc positioning device for a capacitor nail rolling machine as described in claim 1, characterized in that: the groove (87) is arc-shaped, the slider (88) slides from one end of the groove (87) close to the rotating rod (85) to the other end, the slider (88) drives the slider (812) to move outward, and the slider (88) slides from one end of the groove (87) away from the rotating rod (85) to the other end, and the slider (88) drives the slider (812) to move inward. 5. An aluminum foil disc positioning device for a capacitor nailing and rolling machine as described in claim 1, characterized in that: the frame plate (1) is L-shaped, a cylinder (9) is arranged on the top surface of the frame plate (1), a support plate (10) is arranged on the top of the cylinder (9), and a closing frame (11) is arranged on the top of the support plate (10). 6. An aluminum foil disk positioning device for a capacitor nailing and rolling machine as claimed in claim 5, characterized in that: a push disk structure (12) is arranged at the top of the support plate (10), and the push disk structure (12) includes a second rack (121) arranged at the top of the support plate (10), one end of the second rack (121) is meshed with a second gear (122), a screw rod (123) is arranged inside the second gear (122), one end of the screw rod (123) is movably connected to the frame plate (1), a threaded column (124) is threadedly connected to the surface of the screw rod (123), and a top plate (125) is arranged at one end of the threaded column (124). 7. An aluminum foil disc positioning device for a capacitor nailing and rolling machine as claimed in claim 1, characterized in that: a fixed shell (17) is provided on one side of the connecting plate (15), a clamping structure (16) is provided on the top of the fixed shell (17), the clamping structure (16) comprises a servo motor (162) arranged inside the fixed shell (17), a rotating rod (163) is provided at the output end of the servo motor (162), a gear three (164) is provided on the surface of the rotating rod (163), and rack three (165) is meshed at both ends of the gear three (164). A connecting rod (166) is provided at one end of the rack three (165), and a clamping plate (167) is provided at one end of the connecting rod (166). The clamping plate (167) is arc-shaped, and two groups of the clamping plates (167) are symmetrically distributed about the central axis of the fixed shell (17). The two groups of clamping plates (167) move in opposite directions. A long groove (168) is provided on the top surface of the fixed shell (17), and the connecting rod (166) moves in the long groove (168). An embedded groove is provided on the inner wall of the fixed shell (17), and a rectangular block slides inside the embedded groove, and the rectangular block is connected to the rack three (165). 8. An aluminum foil disk positioning device for a capacitor nail rolling machine as claimed in claim 7, characterized in that: a pusher structure (18) is provided at the top end of the connecting plate (15), the pusher structure (18) includes a driven rod (181) provided at one end of the rotating rod (163), the driven rod (181) penetrates a rod groove provided on the surface of the connecting plate (15), one end of the driven rod (181) is movably connected to the inner wall of the connecting plate (15), a belt (182) is sleeved on the surface of the driven rod (181), one end of the belt (182) is sleeved on a lead screw (183), a sleeve (184) is threadedly connected to the surface of the lead screw (183), a pusher plate (185) is provided at one end of the sleeve (184), the bottom end of the pusher plate (185) is flush with the top surface of the fixed shell (17), and a side plate (186) is provided at one end of the connecting plate (15), and the side plate (186) is movably connected to the lead screw (183). 9. An aluminum foil disk positioning device for a capacitor nailing and rolling machine as claimed in claim 8, characterized in that: a placement plate (20) is provided at the top of the fixed shell (17), the placement plate (20) is used to place the disk body (4), a moving structure (19) is provided at the top of the fixed shell (17), the moving structure (19) includes a driven plate (191) arranged at both ends of the placement plate (20), a protrusion (192) is provided at the bottom end of the driven plate (191), a long plate (193) is provided at the top of the fixed shell (17), a groove (194) is opened on the top surface of the long plate (193), the protrusion (192) slides inside the groove (194), a tension spring (195) is provided at one end of the protrusion (192), and one end of the tension spring (195) is connected to the inner wall of the groove (194).