CN211711184U - Thin film capacitor handstand packaging machine - Google Patents

Abstract

The utility model relates to a film capacitor packagine machine that stands upside down relates to the technical field of electric capacity packing. The packaging device is arranged at one end of the steering mechanism, which is far away from the capacitance pin cutting detection device; the steering mechanism comprises a slide rail, the slide rail comprises an overturning part, a steering part and a discharging part which are sequentially connected, the slide rail is obliquely arranged downwards, a penetrating groove for allowing pins of the capacitor to penetrate and slide is formed in the overturning part, an inclining overturning plate is arranged on one side of the penetrating groove and close to one end of the steering part, and a steering channel for reversely twisting the capacitor from the horizontal direction is formed in the steering part; the packaging device comprises a conveying belt connected with the steering mechanism, and a discharging mechanism and a containing mechanism which are arranged at the other end of the conveying belt, wherein the discharging mechanism is used for pushing the capacitor on the conveying belt to the containing mechanism. The utility model discloses can invert the packing automatically to electric capacity.

Description

Thin film capacitor handstand packaging machine

Technical Field

The utility model belongs to the technical field of the technique of electric capacity packing and specifically relates to a thin film capacitor packagine machine that stands upside down is related to.

Background

The film capacitor has a structure in which a metal foil is used as an electrode, and the electrode is laminated with a plastic film such as polyethylene, polypropylene, polystyrene, or polycarbonate from both ends and wound into a cylindrical shape, and a case for protection is usually provided outside the film capacitor.

Application publication No. CN110356612A discloses a foot braid packagine machine is cut to electric capacity, and it includes electric capacity foot detection device and braid and carries packing plant, and it is often used for carrying out the plastic and carrying out the braid packing to the pin before the packing, and electric capacity after the foot detection device is cut to electric capacity entering braid carries packing plant through the electric capacity, packs electric capacity into between adhesive tape, the kraft paper, and adhesive tape pastes the kraft paper and becomes the braid and will pack. When the mode through the braid is fixed, can not guarantee that electric capacity is in vertical state completely, because film capacitor's head weight is great, the head of electric capacity can lead to damaging the braid or causing buckling of electric capacity pin because the effect of gravity to both sides slope, so now to the great film capacitor of weight usually adopt the mode of handstand packing to carry out regularly, the pin tilt up is placed promptly.

At present, inverted packages for capacitors are usually placed into a packaging paper box orderly by workers manually, the regular packaging efficiency is very low, the labor intensity of the workers is high, the labor cost is high, and the production cost of enterprises is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can invert film electric capacity packagine machine that stands upside down of packing with electric capacity.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a thin-film capacitor inverted packaging machine comprises a capacitor pin cutting detection device, a steering mechanism and a packaging device, wherein the steering mechanism is arranged at an outlet of the capacitor pin cutting detection device;

the steering mechanism comprises a slide rail, the slide rail comprises an overturning part, a steering part and a discharging part which are sequentially connected, the slide rail is obliquely and downwards arranged from the capacitor pin cutting detection device to the packaging device, a penetrating groove for allowing pins of the capacitor to penetrate and slide is arranged in the overturning part, an inclining overturning plate is arranged on one side of the penetrating groove and at one end close to the steering part, and a steering channel for reversely twisting the capacitor from the horizontal direction is arranged in the steering part;

the packaging device comprises a conveying belt connected with the steering mechanism, and a discharging mechanism and a containing mechanism which are arranged at the other end of the conveying belt, wherein the discharging mechanism is used for pushing the capacitor on the conveying belt to the containing mechanism.

Through adopting above-mentioned technical scheme, because the electric capacity that follow electric capacity and cut foot detection device and see off all is that the pin sets up downwards, electric capacity is when steering mechanism's the portion of empting, the pin is worn to locate in the wearing to establish the groove, and behind the butt of tilting plate, electric capacity topples to the one side that does not set up tilting plate, become the state of lying, slide rail through the slope continues to slide downwards and turn to in the passageway, electric capacity through turning to behind the passageway has become the state of overturning, and through getting into packing plant with the conveyer belt contact, the handstand to electric capacity has been realized automatically in the setting through steering mechanism, this one process that the workman is manual to invert electric capacity has been saved, and through discharge mechanism's setting, it arranges in order in pushing receiving mechanism automatically to electric capacity, production cost has greatly been reduced, workman's labour has been reduced.

The utility model discloses further set up to: and one side of the penetrating groove, which is close to the steering part, is provided with a jacking block, and the jacking block is provided with a guide surface opposite to the movement direction of the capacitor.

Through adopting above-mentioned technical scheme, the setting of jack-up piece and set up in the spigot surface of jack-up piece can make the head of electric capacity leave the surface of slide rail through the jack-up to the pin, make the board of empting topple over electric capacity more easily, optimized the setting, improved production efficiency.

The utility model discloses further set up to: both sides of the discharging part are provided with guide plates, and the guide plates on both sides gradually approach to each other along the movement direction of the capacitor.

Through adopting above-mentioned technical scheme, because the electric capacity orientation through turning to behind the passageway can take place crooked, if direct through the same passageway with the width of electric capacity die the electric capacity card easily, cause the electric capacity can't enter into the conveyer belt on, set up through the deflector and played the effect to electric capacity guide, improved production efficiency.

The utility model discloses further set up to: a leveling assembly is arranged at a feed port of the steering mechanism and is positioned above the steering mechanism, and the leveling assembly comprises an installation block and a butt plate;

the abutting plate comprises an installation part, an adjusting part and an abutting part, the installation part is fixedly connected with the lower end of the installation block, and the adjusting part is obliquely arranged downwards towards one side opposite to the movement direction of the capacitor;

the middle part of the abutting part is bent downwards to form an arc surface and abuts against the upper end face of the capacitor.

Through adopting above-mentioned technical scheme, because steering mechanism wholly is slope and sets up downwards, and the electric capacity that sends out from electric capacity foot-cutting detection device parallels with ground, if directly place electric capacity on steering mechanism, can lead to electric capacity and slide rail contact incomplete, lead to the stress point skew, influence the effect that electric capacity freely slided down, guarantee electric capacity and slide rail through setting up of supporting portion and laminate completely, and then guarantee that subsequent empting and turn to unaffected.

The utility model discloses further set up to: the leveling assembly further comprises an adjusting knob, the adjusting knob is arranged on the side wall of the mounting block, an adjusting block is integrally arranged on the peripheral wall of the adjusting knob, and the adjusting block is abutted to the adjusting part of the abutting plate when located on the lower side of the adjusting knob.

Through adopting above-mentioned technical scheme, adjust knob's setting makes can adjust the slope degree of butt joint portion, makes it can adapt to not electric capacity of equidimension, avoids still need assemble extra machine when producing electric capacity of other models size, has greatly reduced manufacturing cost.

The utility model discloses further set up to: the both sides of conveyer belt are provided with the workstation, the conveyer belt is including the transmission portion and the gathering portion that connect gradually, the gathering portion is located the transmission portion and keeps away from steering mechanism's one end, discharge mechanism is including setting up the first driving piece in the slurcam of gathering portion one side and drive slurcam, first driving piece fixed connection is on the workstation, the actuating lever and the slurcam fixed connection of first driving piece, the one end that transmission portion was kept away from to the gathering portion is provided with the barrier plate that blocks the electric capacity motion, be provided with the groove that slides that supplies the barrier plate to wear to establish and slide on the slurcam, the actuating lever of first driving piece is elongated, electric capacity breaks away from with the conveyer belt.

Through adopting above-mentioned technical scheme, the setting of the barrier plate of gathering portion can gather the electric capacity on the conveyer belt, and after reaching a certain amount, the actuating lever extension of first driving piece is released the electric capacity of gathering, makes electric capacity can continue to gather, and the mode of arranging through this kind of array setting has made things convenient for follow-up dress box, need not the workman and has put into the box electric capacity one more and pack, has saved the labour.

The utility model discloses further set up to: a limiting plate and an adjusting plate are respectively arranged on two sides of the transmission part, the adjusting plate is arranged on one side, close to the first driving part, of the transmission part, first adjusting mechanisms are arranged on two sides of the first driving part, and a second adjusting mechanism is arranged on one side, close to the adjusting plate, of the workbench;

the first adjusting mechanism comprises a screw rod and a first mounting seat fixedly connected to the workbench, the screw rod is arranged in the first mounting seat in a penetrating mode and in threaded connection with the first mounting seat, and one end of the screw rod is abutted to the pushing plate;

the second adjustment mechanism includes the second mount pad of wearing to establish with regulating plate fixed connection's regulation pole and confession regulating rod, second mount pad fixed connection is on the workstation, be provided with the hole of wearing to establish that supplies the regulating rod to wear to establish and slide on the second mount pad, be provided with holding screw on the second mount pad, it passes through holding screw and second mount pad relatively fixed to adjust the pole.

Through adopting above-mentioned technical scheme, the setting up of first adjustment mechanism and second adjustment mechanism makes the position of slurcam and the width of transmission portion can carry out the size adjustment, can adapt the not electric capacity of equidimension, has improved the fault-tolerant rate of equipment, adjusts the size simultaneously to also help follow-up packing the electric capacity with the electric capacity size of production suitable size, has improved the efficiency of production.

The utility model discloses further set up to: and one side of the screw rod, which is close to the pushing plate, is provided with a rubber sleeve which is abutted against the pushing plate.

Through adopting above-mentioned technical scheme, the setting of rubber sleeve has played the buffering effect when butt between screw rod and the slurcam, avoids rigid connection between the two to lead to causing the damage to slurcam or screw rod, has improved the structural strength of slurcam and first driving piece.

The utility model discloses further set up to: the accommodating mechanism comprises a bearing piece which is abutted against the capacitor, a second driving piece fixedly connected with the workbench is arranged on one side of the bearing piece, which is far away from the capacitor, a driving rod of the second driving piece is fixedly connected with the bearing piece, and when the driving rod of the first driving plate extends, the driving rod of the second driving piece retracts;

and a third driving piece is arranged on one side, away from the transmission part, of the limiting plate, and a pushing piece abutted against the capacitor is fixedly connected to a driving rod of the third driving piece.

Through adopting above-mentioned technical scheme, the second driving piece and accept piece and first driving piece and slurcam mutually support, have played a tight effect of clamp to the electric capacity of both sides, can eliminate the clearance between the adjacent electric capacity, and the setting up of third driving piece makes can release and send out receiving mechanism to accomodating back electric capacity, makes things convenient for the workman to pack the electric capacity after accomodating, and need not to shut down, has improved production efficiency.

To sum up, the utility model discloses a beneficial technological effect does:

1. the capacitor is continuously and downwards slid into the steering channel through the inclined slide rail, the capacitor after passing through the steering channel is in an inverted state and enters the packaging device through contact with the conveyor belt, inversion of the capacitor is automatically realized through the arrangement of the steering mechanism, the process that a worker manually inverts the capacitor is omitted, and the capacitor is automatically pushed into the accommodating mechanism for sorting through the arrangement of the discharging mechanism, so that the production cost is greatly reduced, and the labor force of the worker is reduced;

2. the capacitor is completely attached to the sliding rail through the arrangement of the abutting part, so that subsequent toppling and steering are not affected;

3. the setting of first adjustment mechanism and second adjustment mechanism makes the position of slurcam and the width of transmission portion can carry out the size adjustment, can adapt the not electric capacity of equidimension, has improved the fault-tolerant rate of equipment, adjusts the size simultaneously to want suitable size with the electric capacity size of production also to help follow-up packing the electric capacity, has improved the efficiency of production.

Drawings

Fig. 1 is a schematic structural view of a thin film capacitance inverted packaging machine.

Fig. 2 is a schematic structural view of the steering mechanism.

Fig. 3 is a schematic structural view of the steering mechanism.

Fig. 4 is a schematic view of the structure of the diverting passage.

Fig. 5 is an enlarged schematic view of a portion a in fig. 2.

Fig. 6 is a schematic view of the structure of the packaging device.

In the figure, 1, a capacitance pin cutting detection device; 2. a steering mechanism; 3. a packaging device; 31. a slide rail; 32. a supporting seat; 33. a tilting section; 34. a steering section; 35. a discharge part; 36. a groove is arranged in a penetrating way; 37. a plate is poured; 38. a diversion channel; 39. jacking the block; 310. a guide surface; 311. a guide plate; 4. leveling the assembly; 41. a support bar; 43. mounting blocks; 44. a butt joint plate; 45. adjusting a knob; 441. an installation part; 442. an adjustment section; 443. an abutting portion; 46. an adjusting block; 5. a conveyor belt; 51. a transmission section; 52. an aggregation section; 53. a push plate; 54. a first driving member; 55. a blocking plate; 56. a sliding groove; 6. a discharging mechanism; 7. a storage mechanism; 71. a receiving member; 72. a second driving member; 73. a third driving member; 74. pushing out the piece; 8. a work table; 9. a first adjustment mechanism; 91. a screw; 92. a first mounting seat; 93. a rubber sleeve; 94. a limiting plate; 95. an adjusting plate; 10. a second adjustment mechanism; 101. adjusting a rod; 102. a second mounting seat; 103. perforating holes; 105. and (5) tightening the screw.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the thin film capacitance inverted packaging machine disclosed for the present embodiment includes a capacitance foot-cutting detection device 1, a steering mechanism 2 and a packaging device 3, wherein one end of the steering mechanism 2 is connected to an outlet of the capacitance foot-cutting detection device 1, the steering mechanism 2 is used for inverted turning of vertical capacitance, the packaging device 3 is arranged at one end of the steering mechanism 2 far away from the capacitance foot-cutting detection device 1, and the packaging device 3 is used for accommodating and arranging inverted capacitance.

The steering mechanism 2 comprises a slide rail 31 and a supporting seat 32 for supporting the slide rail 31, the slide rail 31 comprises a dumping part 33, a steering part 34 and a discharging part 35 which are connected in sequence, and the slide rail 31 is obliquely and downwards arranged from the position close to the capacitance pin cutting detection device 1 to the packaging device 3;

the tilting portion 33 is provided with a through groove 36 through which a lead of the capacitor is inserted and slid, one end of the through groove 36 close to the turning portion 34 is provided with a tilting plate 37 which is tilted upward, and the turning portion 34 is provided with a turning passage 38.

In order to further improve the efficiency of the tilting plate 37 in tilting the capacitor, a jacking block 39 is integrally arranged in the through groove 36 and on one side close to the steering part 34, a guide surface 310 opposite to the movement direction of the capacitor is arranged on the jacking block 39, when the capacitor runs to the jacking block 39, the capacitor slides on the guide surface 310 to be separated from the slide rail 31, meanwhile, the capacitor is tilted to one side without the tilting plate 37 by shifting the tilting plate 37, and the pins of the capacitor are completely separated from the through groove 36 by arranging the guide surface 310, so that the capacitor can be horizontally placed on the slide rail 31.

The diversion channel 38 is configured to twist the capacitor from a horizontal position to an inverted position, and it should be noted that the diversion channel 38 twists from the direction the capacitor pin points, and the capacitor passing through the diversion channel 38 is configured in a pin-up position.

The equal fixedly connected with deflector 311 in both sides of ejection of compact portion 35, the deflector 311 of both sides is gradually close to along the direction of electric capacity motion, and the electric capacity through ejection of compact portion 35 is put in order, makes the direction of electric capacity tend to unify.

In order to ensure that the capacitor which just enters the steering mechanism 2 can be attached to the surface of the sliding rail 31 and slide down, the feed inlet of the steering mechanism 2 is provided with the leveling component 4, the leveling component 4 is fixedly connected with the supporting seat 32 through the supporting rod 41 and is arranged above the steering mechanism 2, the leveling component 4 comprises a mounting block 43, a butting plate 44 and an adjusting knob 45, the butting plate 44 comprises a mounting part 441, an adjusting part 442 and a butting part 443, the mounting part 441 is fixedly connected with the lower end of the mounting block 43, the adjusting part 442 is obliquely downwards arranged towards the side opposite to the movement direction of the capacitor, the adjusting knob 45 is arranged on the side wall of the mounting block 43, the peripheral wall of the adjusting knob 45 is integrally provided with an adjusting block 46, when the counterclockwise adjusting knob 45 is rotated and the adjusting block 46 is positioned at the lower side of the adjusting knob 45, the adjusting knob 45 abuts against the adjusting part 442 of the, the adjusting knob 45 is bent downwards under the action of the adjusting block 46, in this embodiment, the abutting plate 44 is preferably made of metal such as iron, and when the adjusting block 46 rotates clockwise, the abutting plate 44 can still rebound by its own elasticity and keep abutting with the adjusting block 46 until the abutting plate 44 returns to the original state. The middle part of the abutting part 443 bends downwards to form an arc surface, and abuts against the upper end surface of the capacitor when the capacitor passes through the leveling component 4.

The packaging device 3 comprises a conveyor belt 5 connected with the steering mechanism 2, and a discharging mechanism 6 and a receiving mechanism 7 which are arranged at the other end of the conveyor belt 5, wherein the discharging mechanism 6 is used for pushing the capacitor on the conveyor belt 5 to the receiving mechanism 7. The two sides of the conveyor belt 5 are provided with the working tables 8, the conveyor belt 5 comprises a conveying part 51 and a gathering part 52 which are connected in sequence, and the gathering part 52 is positioned at one end of the conveying part 51 far away from the steering mechanism 2.

Discharging mechanism 6 is including setting up in the push plate 53 of gathering portion 52 one side and the first driving piece 54 of drive push plate 53, first driving piece 54 passes through bolt fixed connection on workstation 8, the actuating lever and the push plate 53 welded fastening of first driving piece 54, the one end that transmission portion 51 was kept away from to gathering portion 52 has the barrier plate 55 that blocks the electric capacity motion, the one end welded fastening of barrier plate 55 is on the workstation 8 of first driving piece 54 one side, be provided with on the push plate 53 and supply barrier plate 55 to wear to establish and the gliding groove 56 that slides, when the actuating lever of first driving piece 54 extended, the electric capacity was pushed into receiving mechanism 7 and was broken away from with conveyer belt 5 by push plate 53.

In order to conveniently adapt the packaging mechanism to capacitors with different sizes, the packaging mechanism further comprises a first adjusting mechanism 9 and a second adjusting mechanism 10, the first adjusting mechanism 9 is arranged on two sides of the first driving part 54 and located on the workbench 8, the first adjusting mechanism 9 comprises a screw 91 and a first mounting seat 92 fixedly connected to the workbench 8 and provided for the screw 91 to penetrate through, the first mounting seat 92 is in threaded connection with the screw 91, one end of the screw 91 is abutted to the pushing plate 53, and a rubber sleeve 93 is arranged at one end of the screw 91 close to the pushing plate 53 and used for buffering impact force on the screw 91 when the first driving part 54 retracts.

Limiting plates 94 and adjusting plates 95 are respectively arranged on two sides of the transmission part 51, the adjusting plates 95 are arranged on one side of the transmission part 51 close to the first driving part 54, the second adjusting mechanism 10 is arranged on the workbench 8 and close to one side of the adjusting plates 95, the second adjusting mechanism 10 comprises an adjusting rod 101 welded and fixed with the adjusting plates 95 and a second mounting seat 102 for the adjusting rod 101 to penetrate, the second mounting seat 102 is fixedly connected onto the workbench 8, a penetrating hole 103 for the adjusting rod 101 to penetrate and slide is arranged on the second mounting seat 102, a set screw 105 is arranged on the upper end face of the second mounting seat 102, pressure applied to the adjusting rod 101 is increased through the set screw 105, and friction between the adjusting rod 101 and the second mounting seat 102 is increased to achieve a relatively fixed effect.

The accommodating mechanism 7 comprises a receiving piece 71 abutting against the capacitor, a second driving piece 72 fixedly connected with the workbench 8 is fixedly connected to one side of the receiving piece 71 far away from the capacitor, a driving rod of the second driving piece 72 is fixedly connected with the receiving piece 71, when the driving rod of the first driving plate extends, the whole capacitor moves towards the direction of the second driving piece 72, and at the moment, the driving rod of the second driving piece 72 retracts.

The side of the limiting plate 94 far from the transmission part 51 is provided with a third driving part 73 fixedly connected with the workbench 8, a driving rod of the third driving part 73 is fixedly connected with a pushing-out part 74 abutted against the capacitor, the driving direction of the third driving part 73 is perpendicular to the driving directions of the first driving part 54 and the second driving part 72, when the number of rows of the capacitor meets a preset amount, the driving rod of the third driving part 73 extends to push out the capacitor, and a worker packs the pushed-out capacitor.

The specific working process of this embodiment is as follows:

the capacitor sent out from the capacitor pin-cutting detection device 1 is dumped after passing through the dumping part 33, overturned after passing through the rotating channel, enters the conveyor belt 5 in a mode that pins are upwards arranged, enters the discharging mechanism 6 through the conveying capacitor of the conveyor belt 5, is pushed out by the discharging mechanism 6 and pushed into the accommodating mechanism 7 when the number of the capacitors reaches a preset value, and is pushed out by the third driving part 73 of the capacitor in the accommodating mechanism 7 when the number of the capacitors of the accommodating mechanism 7 reaches the preset value.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The thin-film capacitor inverted packaging machine comprises a capacitor pin cutting detection device (1), and is characterized by further comprising a steering mechanism (2) and a packaging device (3), wherein the steering mechanism (2) is arranged at an outlet of the capacitor pin cutting detection device (1), and the packaging device (3) is arranged at one end, away from the capacitor pin cutting detection device (1), of the steering mechanism (2);

the steering mechanism (2) comprises a sliding rail (31), the sliding rail (31) comprises a dumping part (33), a steering part (34) and a discharging part (35) which are connected in sequence, the sliding rail (31) is obliquely and downwards arranged from the capacitance foot cutting detection device (1) to the packaging device (3), a penetrating groove (36) for penetrating and sliding a pin of a capacitor is arranged in the dumping part (33), an inclined dumping plate (37) which is inclined upwards is arranged at one side of the penetrating groove (36) and close to one end of the steering part (34), and a steering channel (38) for reversely twisting the capacitor from the horizontal direction is arranged in the steering part (34);

the packaging device (3) comprises a conveying belt (5) connected with the steering mechanism (2), and a discharging mechanism (6) and a containing mechanism (7) which are arranged at the other end of the conveying belt (5), wherein the discharging mechanism (6) is used for pushing the capacitor on the conveying belt (5) to the containing mechanism (7).

2. A thin film capacitance inverted packaging machine according to claim 1, characterized in that a jacking block (39) is arranged in the through groove (36) and on the side close to the turning part (34), and a guide surface (310) opposite to the capacitance movement direction is arranged on the jacking block (39).

3. The inverted packaging machine for film capacitors as claimed in claim 2, wherein the discharge part (35) is provided with guide plates (311) on both sides, and the guide plates (311) on both sides are gradually close to each other along the moving direction of the capacitors.

4. A thin film capacitance inverted packaging machine according to claim 3, characterized in that the feed inlet of the steering mechanism (2) is provided with a leveling assembly (4), the leveling assembly (4) is located above the steering mechanism (2), the leveling assembly (4) comprises a mounting block (43) and an abutting plate (44);

the abutting plate (44) comprises a mounting part (441), an adjusting part (442) and an abutting part (443), the mounting part (441) is fixedly connected with the lower end of the mounting block (43), and the adjusting part (442) is arranged to incline downwards towards the side opposite to the movement direction of the capacitor;

the middle part of the abutting part (443) bends downwards to form an arc surface and abuts against the upper end surface of the capacitor.

5. The thin film capacitance inverted packaging machine according to claim 4, wherein the leveling assembly (4) further comprises an adjusting knob (45), the adjusting knob (45) is arranged on the side wall of the mounting block (43), an adjusting block (46) is integrally arranged on the peripheral wall of the adjusting knob (45), and the adjusting block (46) abuts against the adjusting portion (442) of the abutting plate (44) when located at the lower side of the adjusting knob (45).

6. The thin film capacitance inverted packaging machine according to claim 1, wherein a workbench (8) is arranged on two sides of the conveyor belt (5), the conveyor belt (5) comprises a transmission part (51) and a gathering part (52) which are connected in sequence, the gathering part (52) is arranged at one end of the transmission part (51) far away from the steering mechanism (2), the discharging mechanism (6) comprises a pushing plate (53) arranged on one side of the gathering part (52) and a first driving part (54) for driving the pushing plate (53), the first driving part (54) is fixedly connected to the workbench (8), a driving rod of the first driving part (54) is fixedly connected with the pushing plate (53), a blocking plate (55) for blocking capacitance movement is arranged at one end of the gathering part (52) far away from the transmission part (51), a sliding groove (56) for the blocking plate (55) to penetrate and slide is arranged on the pushing plate (53), when the driving rod of the first driving part (54) extends, the capacitor is separated from the conveyor belt (5).

7. The thin film capacitance inverted packaging machine according to claim 6, wherein a limiting plate (94) and an adjusting plate (95) are respectively arranged on two sides of the transmission part (51), the adjusting plate (95) is arranged on one side of the transmission part (51) close to the first driving part (54), a first adjusting mechanism (9) is arranged on each side of the first driving part (54), and a second adjusting mechanism (10) is arranged on one side of the workbench (8) close to the adjusting plate (95);

the first adjusting mechanism (9) comprises a screw rod (91) and a first mounting seat (92) fixedly connected to the workbench (8), the screw rod (91) penetrates through the first mounting seat (92) and is in threaded connection with the first mounting seat, and one end of the screw rod (91) is abutted to the pushing plate (53);

second adjustment mechanism (10) include with regulating plate (95) fixed connection adjust pole (101) and supply second mount pad (102) that adjusting rod (101) wore to establish, second mount pad (102) fixed connection is on workstation (8), be provided with on second mount pad (102) and supply adjusting rod (101) to wear to establish and wear to establish hole (103) that slide, be provided with holding screw (105) on second mount pad (102), adjust pole (101) through holding screw (105) and second mount pad (102) relatively fixed.

8. The thin film capacitance inverted packaging machine according to claim 7, characterized in that one side of the screw (91) close to the push plate (53) is provided with a rubber sleeve (93) abutting against the push plate (53).

9. The thin film capacitor inverted packaging machine as claimed in claim 8, wherein the accommodating mechanism (7) comprises a receiving part (71) abutting against the capacitor, a second driving part (72) fixedly connected with the workbench (8) is arranged on one side of the receiving part (71) far away from the capacitor, a driving rod of the second driving part (72) is fixedly connected with the receiving part (71), and when the driving rod of the first driving part extends, the driving rod of the second driving part (72) retracts;

and a third driving piece (73) is arranged on one side, away from the transmission part (51), of the limiting plate (94), and a pushing piece (74) abutted against the capacitor is fixedly connected to a driving rod of the third driving piece (73).

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