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CN-224217486-U - Standing device

CN224217486UCN 224217486 UCN224217486 UCN 224217486UCN-224217486-U

Abstract

The present application relates to a standing device. The standing device comprises a standing component and a side opening component, wherein the standing component comprises a standing tank, the standing tank is horizontally arranged in the length direction, one side of the standing tank is provided with an opening, the opening is communicated with an inner cavity of the standing tank, and the side opening component comprises a tank door for closing or opening the opening. Compared with the prior art, the standing device provided by the application has the advantages that on one hand, the opening and closing of the tank door are realized without adopting lifting actions, and on the other hand, the lifting height of the clamp loaded with the battery is greatly reduced, so that the height of lifting equipment is greatly reduced, the space (especially the height space) occupied by the equipment is greatly reduced, the cost of a reconstruction factory building is saved, and the energy consumption of the equipment is also reduced.

Inventors

  • Request for anonymity
  • Request for anonymity
  • Request for anonymity

Assignees

  • 无锡先导智能装备股份有限公司

Dates

Publication Date
20260508
Application Date
20250429

Claims (11)

  1. 1. A stationary apparatus, comprising: A stationary assembly (10) comprising a stationary tank (11), wherein the stationary tank (11) is horizontally arranged in the length direction, one side of the stationary tank (11) is provided with an opening (111), the opening (111) is communicated with the inner cavity of the stationary tank (11), and A side opening assembly (20) comprising a tank door (23) for closing or opening the opening (111).
  2. 2. The standing device according to claim 1, wherein the side opening assembly (20) further comprises a driving mechanism (21), the tank door (23) is mounted on the driving mechanism (21), and the driving mechanism (21) can drive the tank door (23) to move to close the opening (111) or be arranged in a staggered manner with the opening (111).
  3. 3. A stationary apparatus as claimed in claim 2, wherein at least two stationary tanks (11) are provided, each stationary tank (11) being arranged in a row, and the openings (111) of each stationary tank (11) being located on the same side, the driving mechanism (21) being arranged on the side of each stationary tank (11) having the opening (111) and being capable of driving the tank door (23) to close the opening (111) of any one of the stationary tanks (11).
  4. 4. The stationary apparatus as claimed in claim 1, wherein the stationary tank (11) is cylindrical, an axis of the stationary tank (11) is horizontally disposed, and an axial end of the stationary tank (11) has the opening (111).
  5. 5. The stationary apparatus as claimed in claim 1, wherein the stationary assembly (10) further comprises an annular sleeve (13) rotatably connected to a side of the stationary tank (11) having the opening (111), the annular sleeve (13) extending along a peripheral edge of the opening (111) and having a plurality of first stopper protrusions (131) arranged at intervals in a circumferential direction, a first groove (133) being formed between each adjacent two of the first stopper protrusions (131); The periphery side edge of the tank door (23) is provided with a plurality of second limit protrusions (231), the second limit protrusions (231) are distributed along the circumferential interval of the tank door (23), and each second limit protrusion (231) of the tank door (23) can enter or exit the inner cavity of the standing tank (11) through the corresponding first groove (133).
  6. 6. A stationary device according to claim 5, characterized in that the stationary tank (11) has an annular abutment (113) extending along a peripheral edge of the opening (111), the annular abutment (113) being located on a side of the annular sleeve (13) facing into the stationary tank (11) for abutment with the tank door (23) entering the stationary tank (11) from the opening (111).
  7. 7. The stationary device as claimed in claim 6, characterized in that a sealing ring is arranged between the annular abutment (113) and the tank door (23).
  8. 8. A stationary device according to claim 2, characterized in that the drive mechanism (21) comprises a stationary rail (211) and a support unit (213), the stationary rail (211) being arranged on the side of the stationary tank (11) having the opening (111) and being formed with a gap along the extension direction of the stationary rail (211); The supporting unit (213) comprises a driving piece (215) and a supporting piece (217), wherein the supporting piece (217) is arranged in the notch and is used for bearing the tank door (23) moving to the notch along the fixed guide rail (211), and the driving piece (215) is used for driving the supporting piece (217) to move along the width direction of the fixed guide rail (211).
  9. 9. The stationary apparatus as claimed in claim 8, wherein the support (217) comprises a first movable rail (2171) and a second movable rail (2173), the first movable rail (2171) and the second movable rail (2173) being juxtaposed in a width direction of the fixed rail (211) and connected to each other, the first movable rail (2171) and the second movable rail (2173) being alternately butted with each other with the fixed rail (211) under the driving of the driving member (215).
  10. 10. The stationary device as claimed in claim 9, characterized in that the support (217) further comprises a float by which the first movable rail (2171) and the second movable rail (2173) are connected, the float being adapted to provide an elastic force such that the first movable rail (2171) and the second movable rail (2173) have a movement tendency towards each other.
  11. 11. The standing device according to claim 10, wherein the floating member comprises a connecting rod and a compression spring, a mounting ring is arranged on the second movable guide rail (2173), the connecting rod penetrates through the mounting ring, one end of the connecting rod is connected with the first movable guide rail (2171), and the compression spring is sleeved on the connecting rod and is abutted between the mounting ring and one end, away from the first movable guide rail (2171), of the connecting rod.

Description

Standing device Technical Field The application relates to the technical field of battery manufacturing equipment, in particular to a standing device. Background In the production process of the battery, after the electrolyte is injected into the battery, the battery is usually placed in a standing tank for standing, and positive and negative pressure circulation is performed in the standing tank, so that the electrolyte can infiltrate into the battery cell. Conventionally, a standing apparatus employs a vertical standing tank, i.e., a top opening of the standing tank, and closes the opening of the top of the standing tank with a tank door. The tank door can ascend or descend under the drive of the jacking mechanism, so that the opening at the top of the standing tank is opened or closed. However, since the opening of the stationary tank is located at the top thereof, the battery-loading jig needs to be hoisted by a hoisting device so that the battery-loading jig enters or exits the stationary tank through the opening at the top of the stationary tank. In order to improve productivity, when the number of the clamps to be hoisted exceeds two, the height of the hoisting device is also very high, so that the occupied space is larger and the energy consumption is higher. Especially under the condition of smaller height of the factory building, the reconstruction cost of the factory building is larger. Disclosure of utility model Accordingly, it is necessary to provide a standing device capable of reducing the energy consumption, reducing the space occupied, and saving the cost of the improvement plant. A device for resting, comprising: The stationary component comprises a stationary tank, wherein the stationary tank is horizontally arranged in the length direction, one side of the stationary tank is provided with an opening which is communicated with the inner cavity of the stationary tank, and A side opening assembly includes a tank door for closing or opening the opening. In some embodiments, the side door assembly further comprises a driving mechanism, the tank door is mounted on the driving mechanism, and the driving mechanism can drive the tank door to move to close the opening or to be arranged in a staggered mode with the opening. In some embodiments, the number of the static tanks is at least two, each static tank is arranged in a row, the openings of each static tank are positioned on the same side, and the driving mechanism is arranged on one side of each static tank with the openings and can drive the tank door to close the opening of any static tank. In some embodiments, the stationary tank is cylindrical, an axis of the stationary tank is disposed horizontally, and an axial end of the stationary tank has the opening. In some embodiments, the stationary assembly further comprises an annular sleeve rotatably connected to the side of the stationary tank having the opening, the annular sleeve extending along the peripheral edge of the opening and having a plurality of first spacing projections circumferentially spaced apart, each adjacent two of the first spacing projections defining a first recess therebetween; the periphery limit of jar door is provided with a plurality of second spacing archs, and is a plurality of the second spacing protruding edge jar door's circumference interval is laid under actuating mechanism's drive effect, jar door each the spacing arch of second can pass through corresponding first recess gets into or withdraws from the inner chamber of standing jar. In some of these embodiments, the stationary tank has an annular abutment extending along a peripheral edge of the opening, the annular abutment being located on a side of the annular sleeve facing into the stationary tank for abutment with the tank door entering the stationary tank from the opening. In some of these embodiments, a sealing ring is provided between the annular abutment and the tank door. In some embodiments, the driving mechanism includes a fixed rail disposed at a side of the stationary tank having the opening and having a notch formed along an extension direction of the fixed rail, and a supporting unit; The support unit comprises a driving piece and a support piece, wherein the support piece is arranged in the notch and used for bearing the tank door moving to the notch along the fixed guide rail, and the driving piece is used for driving the support piece to move along the width direction of the fixed guide rail. In some embodiments, the support member includes a first movable rail and a second movable rail, the first movable rail and the second movable rail are juxtaposed in a width direction of the fixed rail and connected to each other, and the first movable rail and the second movable rail alternately interface with each other with the fixed rail under a driving action of the driving member. In some embodiments, the support further comprises a float member, the first movable rail and the second movable