CN217562422U - Capacitor element righting and assembling device - Google Patents

Abstract

The utility model relates to a condenser element is right and is assembled device, include: the device comprises a group standing die, a bundle die, a conveying assembly, a first group of upright posts and a second group of upright posts; the method is characterized in that: the assembling die is used for assembling, packaging and combining the element and the shell under negative pressure to obtain a packaging body; the beam mould is used for fixing the shell and can be attached to the bottom of the assembling mould; the first group of upright posts are used for transferring the elements into the assembly die; the second group of upright rods are used for extruding and combining the element and the shell into a whole; the first assembly and the second assembly are combined to form a vertical die; a hollow die cavity is arranged in the axial direction of the assembling die, one end of the die cavity is provided with a flaring, and one end part of the assembling die is provided with a tapered groove; the tapered groove is communicated with the die cavity; the elastic sheet seal and the elastic piece are arranged through the assembling die, so that the die cavity forms a sealed negative pressure state, the die cavity is opened and closed to carry out integrated negative pressure assembling on the element to obtain the negative pressure capacitor, the negative pressure dust-free assembling packaging is realized, the product performance is improved, and the production efficiency is improved.

Description

Capacitor element righting and assembling device

Technical Field

The utility model belongs to condenser field of making, especially a condenser element is right and is assembled device.

Background

The capacitor is one of the electronic components used in a large number in electronic equipment and is an indispensable component in a circuit, and the capacitor can emit heat in the working process, so that the internal pressure is increased, the capacitor is exploded, and the service life of the capacitor is short. The conventional capacitor is assembled under normal atmospheric pressure when the capacitor is assembled and packaged. In another case, during negative pressure packaging, the inside of the capacitor obtained after assembly packaging is also in a normal pressure state due to insufficient air tightness of the device. Traditional assemblage encapsulation equipment carries out the assemblage encapsulation for generally in the exposed environment under atmospheric pressure, receives external environment's influence easily, can't avoid steam and dust in the air to get into the plain son in-core, can't obtain the condenser of inside negative pressure after the assemblage simultaneously.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a condenser prime righting assemblage device, set up the shell fragment through organizing the mould and seal and the elastic component for the die cavity forms sealed negative pressure state, and the die cavity opens and carries out integration negative pressure assemblage to prime with the closure and obtain negative pressure capacitor, realizes the dustless assemblage encapsulation of negative pressure, reaches and improves product property ability, reduces old book, has improved production efficiency's effect.

The utility model provides a its technical problem take following technical scheme to realize:

a capacitor element centralizing assembly device, comprising: the device comprises a group standing die, a bundle die, a conveying assembly, a first group of upright rods and a second group of upright rods; the method is characterized in that: the assembling die is used for assembling and packaging the element and the shell under negative pressure to obtain a packaging body; the beam mould is used for fixing the shell and can be attached to the bottom of the combined vertical mould; the first group of upright posts are used for transferring the elements into the upright posts; the second group of upright rods are used for extruding and combining the element and the shell into a whole; the first assembly and the second assembly are combined to form a vertical die; a hollow mold cavity is arranged in the axial direction of the assembling mold, one end of the mold cavity is provided with a flaring, and one end part of the assembling mold is provided with a tapered groove; the tapered groove is communicated with the die cavity; a first exhaust pipe and a second exhaust pipe are arranged on two sides of the assembling die; and are respectively communicated with the die cavity; one end of the assembling die is provided with a first arm part and a second arm part; a gear structure is arranged at a fulcrum where the first arm part is contacted with the second arm part; an elastic part is arranged between the first arm part and the second arm part, and a first groove and a second groove are respectively formed on the contact surface of the first assembly and the second assembly; a first elastic sheet and a second elastic sheet are movably arranged in the first groove and the second groove respectively; the first assembly and the second assembly realize the opening and closing of the die cavity by taking the wheel structure as a fulcrum.

Furthermore, the support frame including set up the pillar in rack up end both sides, the end fixedly connected with diaphragm of pillar far away from the rack up end.

Further, the first assembly comprises a first arc-shaped groove, a first conical groove and a first through hole, and the first through hole is communicated with the exhaust pipe; the second assembly comprises a second arc-shaped groove, a second taper groove and a second through hole, and the first through hole is communicated with the exhaust pipe.

Furthermore, a first elastic sheet in a first groove in the first assembly has elasticity, so that the first elastic sheet is far away from the first groove and is extruded on the contact surface of the second assembly, and a second elastic sheet in a second groove in the second assembly has elasticity, so that the second elastic sheet is far away from the second groove and is extruded on the contact surface of the first assembly.

Furthermore, when the first assembly and the second assembly are combined to form the combined vertical mold, the first elastic sheet and the second elastic sheet are mutually extruded on the opposite surfaces of the combined first assembly and the combined second assembly, so that the mold cavity in the combined vertical mold is sealed.

Furthermore, the assembling die 1 can be far away from or close to the beam die, the beam die can be opened and closed, the shell is fixed when the beam die is closed, and the shell is loosened when the beam die is opened.

Furthermore, the first group of upright rods are arranged above the assembling die and extend into the assembling die to transfer the elements into the assembling die.

Furthermore, the second group of upright rods are arranged above the assembling die and extend into the assembling die to extrude the elements into the shell.

Furthermore, one side of the assembling die is fixed on one side of the transmission assembly through the fixing piece, the waist restraining assembly is fixed on one side of the transmission assembly, the transmission assembly rotates in a reciprocating mode, the assembling die moves and is switched to the positions below the first group of vertical rods and the second group of vertical rods respectively, and the waist restraining assembly moves close to and away from the waist restraining die.

Furthermore, a pulley is arranged at one side end of the first arm of the first assembly, an opening clamping block is arranged on one side of the pulley, and when the assembly mold moves, the pulley is extruded by an inclined plane of the opening clamping block, so that the first assembly and the second assembly are far away from each other, and the assembly mold opens.

The utility model discloses the advantage is with positive effect:

the utility model relates to a condenser prime is right and is assembled device solves technical problem and carries out negative pressure assemblage to the prime automatically, solves the exposed assemblage of conventional equipment ordinary pressure and can't obtain the condenser of inside negative pressure to and the prime easily receives the problem of environmental impact, compare with prior art, the utility model has the advantages of it is following:

1. the utility model discloses an assemblage mould sets up the shell fragment and seals and the elastic component for the die cavity forms sealed negative pressure state, and the die cavity opens and carries out integration negative pressure assemblage with the closure to the plain son and obtain the negative pressure condenser, realizes the dustless assemblage encapsulation of negative pressure, reaches and improves product property ability, reduces old originally, has improved production efficiency's effect.

2. The assembly packaging of the element is implemented in the closed negative pressure die cavity, so that the problem that the element is exposed in the environment and is easy to be polluted is avoided, the assembled and packaged capacitor is dust-free and cleaner, and the effect of improving the performance of products is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the assembling mold of the present invention.

Fig. 3 is a schematic top view of the present invention.

Fig. 4 is a schematic structural diagram of a first assembly of the present invention.

Fig. 5 is a schematic structural view of a second assembly of the present invention.

Fig. 6 is a cross-sectional view of the assembly module vertical packaging element of the present invention.

Fig. 7 is an assembled sectional view of the assembling mold of the present invention.

Fig. 8 is a schematic structural view of the assembled mold in an open state according to the present invention.

Fig. 9 is a schematic structural view of the first group of vertical rods feeding the elements into the group of vertical molds.

Fig. 10 is a schematic structural view of the second group of vertical rods extruding and assembling the elements for packaging.

The reference numbers illustrate: 1. assembling a mold; 2. bundling a mould; 3. a delivery assembly; 4. a transmission assembly; 5. a corset assembly; 6. delivering the element subassembly; 7. a first set of uprights; 8. a second group of upright posts; 9. opening a clamping block; 10. A prime; 11. a housing; 101. a first component; 102. a second component; 103. a mold cavity; 104. a tapered groove; 105. a fixing member; 106. an elastic member; 1011. a first arm section; 1012. a first exhaust tube; 1013. A gear structure; 1014. a first tapered slot; 1015. a first groove; 1016. a first spring plate; 1017. A first gear portion; 1018. a first through hole; 1019. flaring; 1021. a second arm section; 1022. a second extraction tube; 1023. a second arc-shaped slot; 2024. a second tapered groove; 1025. a second groove; 1026. a second elastic sheet; 1027. a second gear portion; 10111. a pulley; 1010. a first arc-shaped groove.

Detailed Description

The embodiments of the present invention will be described in detail with reference to the accompanying drawings: the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or assembly in question must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified. In addition, the term "comprises" and any variations thereof mean "including at least".

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected" and "connected" are to be construed broadly, and may include, for example, a fixed connection, a detachable connection, or an integrally formed connection; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-10, the utility model discloses a capacitor element righting assemblage device, include: the device comprises a group standing die 1, a bundle die 2, a conveying component 3, a first group of upright rods 7 and a second group of upright rods 8; the method is characterized in that: the assembling die 1 is used for assembling and packaging the element 10 and the shell 11 under negative pressure to obtain a packaging body; the beam mould 2 is used for fixing the shell 11 and can be attached to the bottom of the combined vertical mould 1; the first group of upright posts 7 are used for transferring the elements 10 into the group of upright dies 1; the second group of upright rods 8 are used for extruding and combining the element 10 and the shell 11 into a whole; the first assembly 101 and the second assembly 102 are combined to form a vertical die 1; a hollow die cavity 103 is arranged in the axis direction of the assembled die 1, a flared opening 1019 is arranged at one end of the die cavity 103, and a tapered groove 104 is arranged at one end of the assembled die 1; the tapered groove 104 is communicated with the die cavity 103; a first air suction pipe 1012 and a second air suction pipe 1022 are arranged on two sides of the assemblage mould 1; and are respectively communicated with the die cavity 103; one end of the assembling die 1 is provided with a first arm part 1011 and a second arm part 1021; a gear structure 1013 is arranged at the fulcrum where the first arm 1011 and the second arm 1021 contact; an elastic part 106 is arranged between the first arm part 1011 and the second arm part 1021, and a first groove 1015 and a second groove 1025 are respectively arranged on the closed contact surfaces of the first component 101 and the second component 102; the first groove 1015 and the second groove 1025 are respectively and movably provided with a first spring plate 1016 and a second spring plate 1026 inside; the first assembly 101 and the second assembly 102 realize the opening and closing of the mold cavity 103 by taking the gear structure 1013 as a fulcrum.

With reference to fig. 1 to 10, the whole process of the present invention completes the assembly negative pressure packaging of the element 10, and assembles the element 10 into the inner cavity of the housing 11, wherein the assembly mold 1 is used for assembling and packaging the element 10 and the housing 11 under negative pressure to obtain a packaged body; the beam mould 2 is used for fixing the shell 11 and can be attached to the bottom of the combined vertical mould 1; the first group of upright posts 7 are used for transferring the elements 10 into the group of upright dies 1; and the second group of upright rods 8 are used for extruding and combining the element 10 and the shell 11 into a whole. Through the cooperation and the processing of whole device, finally with plain 10 assemblage encapsulation to shell 11 inner chamber, through beam waist subassembly 5 to the combination that the assemblage encapsulation was accomplished carry out beam waist processing again for shell 11 further seals plain 10, guarantees that plain 10 is in the negative pressure seal state, improves stability can, and on the other hand prevents that the electrolyte among the plain 10 from volatilizing, has improved life.

As shown in fig. 2-5, the assembling mold 1 is used for assembling and packaging the element 10 and the shell 11 under negative pressure to obtain a package body. The assembled mold 1 is formed by combining a first component 101 and a second component 102, wherein the first component 101 and the second component 102 are symmetrical structures, and a mold cavity 103 can be formed after the first component 101 and the second component 102 are folded and attached. A hollow die cavity 103 is arranged in the axis direction of the assembled die 1, a flared opening 1019 is arranged at one end of the die cavity 103, and a tapered groove 104 is arranged at one end of the assembled die 1; the tapered groove 104 is communicated with the die cavity 103; a first exhaust pipe 1012 and a second exhaust pipe 1022 are arranged on two sides of the assembling mould 1; and are respectively communicated with the die cavity 103; one end of the assembling die 1 is provided with a first arm part 1011 and a second arm part 1021; a gear structure 1013 is arranged at the fulcrum where the first arm 1011 and the second arm 1021 contact; an elastic part 106 is arranged between the first arm part 1011 and the second arm part 1021, and a first groove 1015 and a second groove 1025 are respectively arranged on the closed contact surfaces of the first component 101 and the second component 102; the first groove 1015 and the second groove 1025 are respectively and movably provided with a first spring plate 1016 and a second spring plate 1026 inside; the first assembly 101 and the second assembly 102 realize the opening and closing of the mold cavity 103 by taking the wheel structure 1013 as a fulcrum.

The first assembly 101 and the second assembly 102 are combined to form a vertical die 1; a hollow die cavity 103 is arranged in the axis direction of the assembled die 1, and a flared opening 1019 is arranged at one end of the die cavity 103. Specifically, the first component 101 and the second component 102 have the same symmetrical structure, and after the surfaces of the first component 101 opposite to the second component 102 are folded and attached, because the first arc-shaped groove 1010 is arranged in the first component 101, the second arc-shaped groove 1023 is arranged in the second component 102, and after the first component 101 and the second component 102 are folded and attached, the first arc-shaped groove 1010 and the second arc-shaped groove 1023 are also attached, so that the center direction of the axis of the assembled die 1 forms the hollow die cavity 103.

One end of the assembling die 1 is provided with a tapered groove 104; the tapered groove 104 is communicated with the die cavity 103. Specifically, the first assembly 101 includes a first arc-shaped slot 1010 and a first tapered slot 1014, and one side of the first arc-shaped slot 1010 in the first assembly 101 is connected to the first tapered slot 1014. The second component 102 includes a second arc-shaped groove 1023 and a second cone-shaped groove 1024, and after the first component 101 and the second component 102 are close to each other and attached, the first arc-shaped groove 1010 and the second arc-shaped groove 1023 form the cone-shaped groove 104, and the first arc-shaped groove 1010 and the second arc-shaped groove 1023 form the die cavity 103.

A first exhaust pipe 1012 and a second exhaust pipe 1022 are arranged on two sides of the assembling mould 1; and are respectively in communication with said and with the mold cavity 103. Specifically, a first air exhaust pipe 1012 is arranged outside the first assembly 101 in the assembling die 1, and the first air exhaust pipe 1012 is connected and communicated with a first through hole 1018 in the first arc-shaped groove 1010. A second air exhaust pipe 1022 is arranged outside the second assembly 102, and the second air exhaust pipe 1022 is connected and communicated with the second arc-shaped groove 1023. The first and second exhaust pipes 1012 and 1022 are used to exhaust the gas in the cavity 103, so that the cavity 103 is in a negative pressure state.

One end of the assembling die 1 is provided with a first arm part 1011 and a second arm part 1021; a gear structure 1013 is provided at a fulcrum where the first arm 1011 and the second arm 1021 contact. Specifically, the first arm portion 1011 and the second arm portion 1021 are respectively connected to the erection module 1, and the erection module 1 is movably fixed in the fixing member 105 by the first arm portion 1011 and the second arm portion 1021. The first arm portion 1011 has a first gear portion 1017, and the second arm portion 1021 has a second gear portion 1027. A gear structure 1013 is provided at a fulcrum where the first arm 1011 and the second arm 1021 contact, and the first gear portion 1017 and the second gear portion 1027 are engaged to form the gear structure 1013. The first arm 1011 and the second arm 1021 realize opening and closing of one end of the first assembly 101 and the second assembly 102 by using the gear structure 1013 as a rotation fulcrum.

The contact surface of the first component 101 and the second component 102 is provided with a first groove 1015 and a second groove 1025 respectively; the first groove 1015 and the second groove 1025 are respectively and movably provided with a first spring plate 1016 and a second spring plate 1026 inside; the first assembly 101 and the second assembly 102 realize the opening and closing of the mold cavity 103 by taking the gear structure 1013 as a fulcrum. Specifically, a first groove 1015 and a second groove 1025 are respectively arranged on a contact surface where the first component 101 and the second component 102 are folded, and the first groove 1015 and the second groove 1025 can be opposite in front or staggered. The first groove 1015 and the second groove 1025 are respectively and movably provided with a first spring plate 1016 and a second spring plate 1026 inside; when the first component 101 and the second component 102 are combined to form the assembled mold 1, the first resilient piece 1016 and the second resilient piece 1026 are pressed against the combined opposite surfaces of the first component 101 and the second component 102, so that the mold cavity 103 in the assembled mold 1 is sealed. The first resilient tab 1016 in the first groove 1015 of the first component 101 has a resilient force, such that the first resilient tab 1016 is away from the first groove 1015 and presses against the contact surface of the second component 102, and the second resilient tab 1026 in the second groove 1025 of the second component 102 has a resilient force, such that the second resilient tab 1026 is away from the second groove 1025 and presses against the contact surface of the first component 101. After the first assembly 101 and the second assembly 102 are combined to form the vertical mold 1, the first elastic sheet 1016 and the second elastic sheet 1026 elastically press the formed mold cavity 103, so that the joint of the closed and attached mold cavity 103 side wall is pressed and contacted, and the function of sealing the joint of the mold cavity 103 side wall is achieved, and the mold cavity 103 is not sealed and does not leak air during negative pressure assembly and encapsulation.

The beam mould 2 is used for fixing the shell 11 and can be attached to the bottom of the combined vertical mould 1. Specifically, the assembling die 1 can be far away from or close to the beam die 2, the beam die 2 can be opened and closed, the beam die 2 is used for fixing the shell 11 when being closed, and the shell 11 is released when the beam die 2 is opened. The bundle mold 2 is matched with the assembly mold 1, and before the second group of upright rods 8 press down the mold cavity 103 of the assembly mold 1, the flaring 1019 at the lower end of the assembly mold 1 is close to the attaching bundle mold 2, so that the bundle mold 2 and the assembly mold 1 are attached into a whole.

One side of the group standing mould 1 is fixed on one side of the transmission component 4 through the fixing part 105, the girdling component 5 is fixed on one side of the transmission component 4, the transmission component 4 rotates in a reciprocating manner, the group standing mould 1 moves to be respectively switched to the first group of upright rods 7 below the second group of upright rods 8, and the girdling component 5 moves to be close to and far away from the girdling mould 2.

The first group of upright posts 7 are used for transferring the element 10 into the group standing die 1, the first group of upright posts 7 are arranged above the group standing die 1, and the first group of upright posts 7 extend into the group standing die 1 to transfer the element 10 into the group standing die 1. When the element 10 is loaded in the assembling die 1, the sealing body of the element 10 clamps the element 10 at the joint of the tapered groove 104 and the die cavity 103 because the outer diameter of the sealing body of the element 10 is larger than the inner diameter of the die cavity 103. Meanwhile, the conveying assembly 3 conveys the outer shell 11 into the die cavity 103 along the flaring 1019 at one end of the die cavity 103, because the outer diameter of the opening of the outer shell 11 is larger than that of the die cavity 103, after the outer shell 11 is inserted into the die cavity 103, the opening of the outer shell 11 can be in pressing contact with the inner wall of the die cavity 103 and is in a sealed state, and on the other hand, the outer diameter of the sealing body of the element 10 is larger than the inner diameter of the die cavity 103, so that a sealed space is formed between the inner cavity of the outer shell 11 and the die cavity 103 at the moment. Then the assembled vertical mold 1, the element 10 and the shell 11 are moved together to the lower part of the second group of vertical rods 8 under the driving of the transmission component 4. The second group of upright rods 8 are arranged above the group standing die 1, and the second group of upright rods 8 extend into the group standing die 1 to extrude the elements 10 into the shell 11. When the second group of upright posts 8 are pressed downwards to extend into the mold cavity 103, the element 10 is pressed into the mold cavity 103, and the first elastic sheet 1016 is elastically pressed by the second elastic sheet 1026, and the elastic member 106 between the first arm 1011 and the second arm 1021 presses the joint of the closed mold cavity 103 side wall to seal the joint of the mold cavity 103 side wall, so that the mold cavity 103 is not sealed and airtight during negative pressure assembly and encapsulation, and at the moment, the interior of the mold cavity 103 is in a closed state. Since the first assembly 101 comprises the first arc-shaped slot 1010, the first tapered slot 1014 and the first through hole 1018, the first through hole 1018 is communicated with the exhaust pipe 1012; the second assembly 102 comprises a second arc-shaped groove 1023, a second taper groove 1024 and a second through hole 1028, and the first through hole 1018 is communicated with the suction pipe 1012. Then, the cavity 103 is evacuated through the first evacuation tube 1012 and the second evacuation tube 1022, so that the inside of the cavity 103 is in a negative pressure state, and at this time, the second group of upright posts 8 are pressed down to press the element 10 into the inside of the housing 11. The end part of one side of the first arm part 1011 of the first component 101 is provided with a pulley 10111, one side of the pulley 10111 is provided with an open clamping block 9, when the assembling die 1 moves, the inclined plane of the open clamping block 9 extrudes the pulley 10111, so that the first component 101 and the second component 102 are far away from each other, and the assembling die 1 is opened. And finishing the assembling negative pressure packaging process, separating the beam die 2 from the assembling die 1, resetting the beam die 2, then rotating the transmission component 4, enabling the beam waist component 5 to be close to the beam die 2 and carrying out beam waist processing on the shell 11, and enabling the element 10 to be more tightly packaged in the shell 11 through the beam waist processing to obtain the capacitor with stable internal negative pressure performance.

It should be emphasized that the embodiments described herein are illustrative and not restrictive, and thus the present invention is not limited to the embodiments described in the detailed description, but also falls within the scope of the present invention, in any other embodiments derived by those skilled in the art according to the technical solutions of the present invention.

Claims (9)

1. A capacitor element centralizing assembly device, comprising: the device comprises a group standing die (1), a bundle die (2), a conveying assembly (3), a first group of upright rods (7) and a second group of upright rods (8); the method is characterized in that: the assembling die (1) is used for assembling and packaging the element (10) and the shell (11) under negative pressure to obtain a packaging body; the beam mould (2) is used for fixing the shell (11) and can be attached to the bottom of the assembling mould (1); the first group of upright posts (7) are used for transferring the elements (10) into the group upright die (1); the second group of upright rods (8) is used for extruding and combining the element (10) and the shell (11) into a whole; the first assembly (101) and the second assembly (102) are combined to form a vertical die (1); a hollow mold cavity (103) is arranged in the axis direction of the assembling mold (1), a flared opening (1019) is formed in one end of the mold cavity (103), and a tapered groove (104) is formed in one end of the assembling mold (1); the tapered groove (104) is communicated with the die cavity (103); a first air exhaust pipe (1012) and a second air exhaust pipe (1022) are arranged on two sides of the assembling die (1); and are respectively communicated with the die cavity (103); one end of the assembling die (1) is provided with a first arm part (1011) and a second arm part (1021); a gear structure (1013) is arranged at a fulcrum where the first arm part (1011) is contacted with the second arm part (1021); an elastic part (106) is arranged between the first arm part (1011) and the second arm part (1021), and a first groove (1015) and a second groove (1025) are respectively arranged on the closed contact surface of the first component (101) and the second component (102); a first elastic sheet (1016) and a second elastic sheet (1026) are movably arranged in the first groove (1015) and the second groove (1025) respectively; the first assembly (101) and the second assembly (102) realize the opening and closing of the die cavity (103) by taking the gear structure (1013) as a fulcrum.

2. The capacitor element righting assembly device as set forth in claim 1, wherein: the first component (101) comprises a first arc-shaped groove (1010), a first conical groove (1014) and a first through hole (1018), and the first through hole (1018) is communicated with a first exhaust pipe (1012); the second assembly (102) comprises a second arc-shaped groove (1023), a second taper groove (1024) and a second through hole (1028), and the first through hole (1018) is communicated with the suction pipe (1012).

3. The capacitor element righting assembly device as claimed in claim 1, wherein: the first elastic sheet (1016) in the first groove (1015) of the first component (101) is provided with elastic force, so that the first elastic sheet (1016) is far away from the first groove (1015) and is pressed on the contact surface of the second component (102), and the second elastic sheet (1026) in the second groove (1025) of the second component (102) is provided with elastic force, so that the second elastic sheet (1026) is far away from the second groove (1025) and is pressed on the contact surface of the first component (101).

4. The capacitor element righting assembly device as claimed in claim 1, wherein: when the first assembly (101) and the second assembly (102) are combined to form the combined die (1), the first elastic sheet (1016) and the second elastic sheet (1026) are mutually pressed on the opposite surfaces of the combined first assembly (101) and the combined second assembly (102), so that the die cavity (103) in the combined die (1) is sealed.

5. The capacitor element righting assembly device as claimed in claim 1, wherein: the assembling die (1) can be far away from or close to the beam die (2), the beam die (2) can be opened and closed, the beam die (2) is used for fixing the shell (11) when being closed, and the shell (11) is loosened when the beam die (2) is opened.

6. The capacitor element righting assembly device as set forth in claim 1, wherein: the first group of upright posts (7) are arranged above the assembling die (1), and the first group of upright posts (7) extend into the assembling die (1) to transfer the element (10) into the assembling die (1).

7. The capacitor element righting assembly device as set forth in claim 1, wherein: the second group of upright rods (8) are arranged above the group standing die (1), and the second group of upright rods (8) extend into the group standing die (1) to extrude the element (10) into the shell (11).

8. The capacitor element righting assembly device as claimed in claim 1, wherein: the assembling and erecting die is characterized in that one side of the assembling and erecting die (1) is fixed on one side of the transmission assembly (4) through the fixing piece (105), the girdling assembly (5) is fixed on one side of the transmission assembly (4), the transmission assembly (4) rotates in a reciprocating mode, the assembling and erecting die (1) is moved and respectively switched to the positions below the first group of vertical rods (7) and the second group of vertical rods (8), and the girdling assembly (5) moves close to and away from the girdling die (2).

9. The capacitor element righting assembly device as claimed in claim 1, wherein: the end part of one side of a first arm part (1011) of the first assembly (101) is provided with a pulley (10111), one side of the pulley (10111) is provided with a clamping block (9), and when the assembling die (1) moves, an inclined plane of the clamping block (9) extrudes the pulley (10111), so that the first assembly (101) and the second assembly (102) are far away from each other, and the assembling die (1) is opened.

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