CN219212167U

CN219212167U - Energy storage battery grouping fixture

Info

Publication number: CN219212167U
Application number: CN202320605362.8U
Authority: CN
Inventors: 王杰钢; 刘州杰; 邓康
Original assignee: Wuhan Weilan New Energy Technology Co ltd
Current assignee: Wuhan Weilan New Energy Technology Co ltd
Priority date: 2023-03-24
Filing date: 2023-03-24
Publication date: 2023-06-20
Anticipated expiration: 2033-03-24

Abstract

The utility model discloses an energy storage battery grouping clamp which comprises a feeder, wherein a turntable is arranged at one side edge of the feeder, a connecting plate is fixed at the top of the turntable, a lifting clamping mechanism used for clamping the side part of a battery is slidably arranged at the lower end of the connecting plate, the clamping mechanism comprises a housing, and two groups of supporting mechanisms used for supporting the bottom of the battery are arranged at the side part of the clamping mechanism; according to the utility model, the cover shell in the clamping mechanism is covered on the battery, the side part of the battery is clamped and fixed through the two clamping plates, the supporting mechanism is additionally arranged at the lower end of the clamping mechanism, after the battery is clamped and lifted by a small section of height, the L-shaped supporting plate in the supporting mechanism moves to the bottom of the battery, so that the battery is supported, even if vibration or collision occurs in the battery transferring process, the battery cannot easily displace or even fall, the potential safety hazard is reduced, the degree of automation of the clamp is higher, and the clamp can be completed without manual participation.

Description

Energy storage battery grouping fixture

Technical Field

The utility model relates to the technical field of energy storage batteries, in particular to a group clamp for energy storage batteries.

Background

The energy storage battery is mainly used for solar power generation equipment and wind power generation equipment and renewable energy storage. The energy storage batteries are divided into exhaust type lead-acid storage batteries for energy storage, valve-controlled type lead-acid storage batteries for energy storage and colloid type lead-acid storage batteries.

The energy storage battery needs to be lifted by using a lifting clamp in the assembly process, and most lifting clamps in the prior art clamp the side part of the battery through two clamping plates, but the clamping in the mode has potential safety hazards, namely, if vibration or collision occurs in the battery transferring process, the clamp and the battery can be displaced, and even the battery is dropped.

Through retrieving, the patent of application number 202211292142.0 discloses a hoist and mount anchor clamps for energy storage battery PACK, both sides respectively are fixed with horizontal supporting beam about the supporting seat top, and the middle part is equipped with the lower observation groove that runs through, two respectively rotate around the supporting beam and be connected with vertical rings, both sides respectively are equipped with a plurality of vertical sliding tray around the supporting seat, and the sliding tray at front portion corresponds with the sliding tray of its rear portion each other around, each the sliding tray middle part is fixed with horizontal backup pad respectively. According to the utility model, the front-back distance between the sliding plates at the front and rear parts of the supporting seat can be conveniently and rapidly adjusted by controlling the transmission plate to move left and right compared with the supporting seat, so that the front-back distance between the clamping jaws at the front and rear parts of the supporting seat can be rapidly adjusted, a target energy storage battery PACK can be rapidly clamped and released, and in the lifting process, the self-locking effect can be realized by enabling the pin plate to be positioned at different positions of the supporting beam at the top end of the right part of the supporting seat.

The side portion of the battery is clamped through the two clamping plates, potential safety hazards exist, the battery is caused to fall, manual participation is needed when the battery is clamped each time, the automation degree is to be improved, and therefore the energy storage battery grouping clamp is required.

Disclosure of Invention

The utility model aims to provide an energy storage battery grouping clamp, wherein a cover shell in a clamping mechanism is covered on a battery, the side part of the battery is clamped and fixed through two clamping plates, a supporting mechanism is additionally arranged at the lower end of the clamping mechanism, after the battery is clamped and lifted by a small section of height, an L-shaped supporting plate in the supporting mechanism moves to the bottom of the battery, the battery is supported, even if vibration or collision occurs in the battery transferring process, the battery cannot easily displace or even fall, the potential safety hazard is reduced, the clamp has higher automation degree, and the clamp can be completed without manual participation, so that the problem in the background art is solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the clamp comprises a feeder, a turntable is arranged at one side of the feeder, a connecting plate is fixed at the top of the turntable, a lifting clamping mechanism used for clamping the side part of the battery is slidably arranged at the lower end of the connecting plate, the clamping mechanism comprises a housing, and two groups of supporting mechanisms used for supporting the bottom of the battery are arranged at the side part of the clamping mechanism;

the inside of housing has seted up the cavity, supporting mechanism is including installing the lifter plate in the cavity inside, the bottom of lifter plate is connected with the strip shaped plate, square hole has been seted up on the strip shaped plate, the inside slidable mounting in square hole has the second push pedal, the end connection of second push pedal has the backup pad of L shape.

Preferably, the support mechanism further comprises an L-shaped support frame connected to the side portion of the housing, a third cylinder is installed on one side of the support frame, one end of a piston rod of the third cylinder is connected with a first push plate, and the second push plate slides up and down on the side portion of the first push plate.

Preferably, the lateral part of first push pedal has seted up the spout, be connected with the slider on the second push pedal, slider slidable mounting is in the inside of spout.

Preferably, the motor and the vertical plate are installed on the supporting frame, a supporting shaft is rotatably installed on one side of the vertical plate, a gear is sleeved on the supporting shaft, a rack is installed on one side of the lifting plate, and the gear is meshed with the rack.

Preferably, a first bevel gear is sleeved on the output shaft of the motor, a second bevel gear is sleeved on the outer wall of the end part of the supporting shaft, and the first bevel gear is meshed with the second bevel gear.

Preferably, a through hole communicated with the cavity is formed in the side portion of the housing, and the side portion of the gear penetrates through the through hole to be meshed with the rack.

Preferably, two groups of first clamping plates are arranged on the edge of the inner wall of the housing, two groups of second clamping plates are slidably arranged on the inner wall of the housing, and rubber pads are arranged on the first clamping plates and the second clamping plates.

Preferably, the inner wall of the housing is fixed with a mounting plate, one side of the mounting plate is fixed with a second cylinder, and one end of a piston rod of the second cylinder is connected to the second clamping plate.

Preferably, a first air cylinder is fixed on the connecting plate, one end of a piston rod of the first air cylinder is connected with a fixing plate, an electric sliding table is installed at the bottom of the fixing plate, and the top of a housing in the clamping mechanism is installed on a sliding seat of the electric sliding table.

Preferably, the fixed plate is connected with two groups of limiting rods, two groups of limiting holes are formed in the connecting plate, and the limiting rods are slidably mounted in the limiting holes.

Compared with the prior art, the utility model has the beneficial effects that:

1. the cover shell in the clamping mechanism is covered on the battery, the side part of the battery is clamped and fixed through the two clamping plates, the supporting mechanism is additionally arranged at the lower end of the clamping mechanism, after the battery is clamped and lifted by a small section of height, the L-shaped supporting plate in the supporting mechanism moves to the bottom of the battery, the supporting function is realized on the battery, and even if vibration or collision occurs in the battery transferring process, the battery cannot easily displace or even fall, so that the potential safety hazard is reduced;

2. the clamp has higher automation degree and can be completed without manual participation.

Drawings

FIG. 1 is a schematic diagram of an axial structure of the present utility model;

FIG. 2 is an enlarged view of a portion A of FIG. 1 in accordance with the present utility model;

FIG. 3 is a schematic view of a clamping mechanism according to the present utility model;

fig. 4 is a schematic structural view of the supporting mechanism of the present utility model.

In the figure: 1. a feeder; 2. a turntable; 3. a connecting plate; 4. a first cylinder; 5. a limit rod; 6. a fixing plate; 7. an electric sliding table; 8. a clamping mechanism; 81. a housing; 82. a first clamping plate; 83. a second clamping plate; 84. a second cylinder; 85. a mounting plate; 86. a cavity; 87. a through hole; 9. a support mechanism; 91. a support frame; 92. a third cylinder; 93. a first push plate; 94. a motor; 95. a first bevel gear; 96. a second bevel gear; 97. a gear; 98. a lifting plate; 99. a rack; 910. a strip-shaped plate; 911. a second push plate; 912. a support plate; 913. a vertical plate; 914. a support shaft; 915. a chute; 916. a sliding block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides an energy storage battery grouping anchor clamps, including feeder 1, the revolving stage 2 is installed to one side portion of feeder 1, and revolving stage 2 can drive this device level rotation to carry the battery of getting to the year material bench, the top of revolving stage 2 is fixed with connecting plate 3, and the lower extreme slidable mounting of connecting plate 3 has liftable fixture 8 that is used for centre gripping battery lateral part, and fixture 8 includes housing 81, and fixture 8 lateral part is installed two sets of supporting mechanism 9 that are used for supporting the battery bottom;

the clamping mechanism 8 can clamp the energy storage battery, and the supporting mechanism 9 plays a role in supporting the energy storage battery to prevent the battery from sliding downwards.

The cavity 86 has been seted up to the inside of housing 81, and supporting mechanism 9 is including installing the lifter plate 98 in cavity 86 inside, and lifter plate 98's bottom is connected with strip shaped plate 910, has seted up square hole on the strip shaped plate 910, and square hole's inside slidable mounting has second push pedal 911, and the end connection of second push pedal 911 has the backup pad 912 of L shape.

The lifting plate 98 drives the strip-shaped plate 910 and the supporting plate 912 to move downwards, when the surface of the transverse part of the supporting plate 912 is level with the bottom of the battery, the third air cylinder 92 drives the first pushing plate 93 to move, the first pushing plate 93 pushes the second pushing plate 911 to move, the second pushing plate 911 drives the supporting plate 912 to move horizontally, and the supporting plate 912 is inserted into the bottom of the battery to support the battery.

The supporting mechanism 9 further comprises an L-shaped supporting frame 91 connected to the side of the housing 81, a third cylinder 92 is mounted on one side of the supporting frame 91, one end of a piston rod of the third cylinder 92 is connected with a first push plate 93, and a second push plate 911 slides up and down on the side of the first push plate 93.

The slide groove 915 is formed in the side portion of the first push plate 93, the slide block 916 is connected to the second push plate 911, and the slide block 916 is slidably mounted in the slide groove 915.

The motor 94 and the vertical plate 913 are installed on the supporting frame 91, the supporting shaft 914 is rotatably installed on one side of the vertical plate 913, the gear 97 is sleeved on the supporting shaft 914, the rack 99 is installed on one side of the lifting plate 98, and the gear 97 is meshed with the rack 99.

The output shaft of the motor 94 is sleeved with a first bevel gear 95, the outer wall of the end part of the supporting shaft 914 is sleeved with a second bevel gear 96, and the first bevel gear 95 is meshed with the second bevel gear 96.

The motor 94 drives the gear 97 to rotate through the first bevel gear 95 and the second bevel gear 96, the gear 97 rotates to drive the rack 99 to move downwards, and the rack 99 drives the lifting plate 98 to move downwards.

The side of the housing 81 is provided with a through hole 87 communicating with the cavity 86, and the side of the gear 97 is engaged with the rack 99 through the through hole 87.

Two groups of first clamping plates 82 are arranged on the edge of the inner wall of the housing 81, two groups of second clamping plates 83 are slidably arranged on the inner wall of the housing 81, and rubber pads are arranged on the first clamping plates 82 and the second clamping plates 83.

A mounting plate 85 is fixed to the inner wall of the housing 81, a second cylinder 84 is fixed to one side of the mounting plate 85, and one end of a piston rod of the second cylinder 84 is connected to the second clamping plate 83.

The second air cylinder 84 drives the second clamping plate 83 to move to abut against one side of the battery and push the other side of the battery to abut against the first clamping plate 82, and clamping and positioning of the battery are achieved through the first clamping plate 82 and the first clamping plate 82.

The connecting plate 3 is fixedly provided with a first air cylinder 4, one end of a piston rod of the first air cylinder 4 is connected with a fixed plate 6, the bottom of the fixed plate 6 is provided with an electric sliding table 7, and the top of a housing 81 in the clamping mechanism 8 is arranged on a sliding seat of the electric sliding table 7.

Two groups of limiting rods 5 are connected to the fixing plate 6, two groups of limiting holes are formed in the connecting plate 3, and the limiting rods 5 are slidably mounted in the limiting holes.

When the energy storage battery feeding device is used, an energy storage battery is fed through a feeder 1, an electric sliding table 7 drives a clamping mechanism 8 to horizontally move, when the energy storage battery moves to the position right below the clamping mechanism 8, the clamping mechanism 8 and a supporting mechanism 9 are driven to move downwards through a first air cylinder 4, a housing 81 is arranged on the battery in a covering mode, the top of the battery is abutted against the inner top of the housing 81, a second clamping plate 83 is driven to move and abutted against one side of the battery through a second air cylinder 84, the other side of the battery is pushed to be abutted against a first clamping plate 82, and clamping and positioning of the battery are achieved through the first clamping plate 82 and the first clamping plate 82;

then the battery is lifted to a certain height through the first cylinder 4 (the battery is not required to be lifted too much, the motor 94 is started, the motor 94 drives the gear 97 to rotate through the first bevel gear 95 and the second bevel gear 96, the gear 97 rotates to drive the rack 99 to move downwards, the rack 99 drives the lifting plate 98 to move downwards, the strip-shaped plate 910 and the supporting plate 912 are further driven to move downwards, when the surface of the transverse part of the supporting plate 912 is level with the bottom of the battery, the third cylinder 92 is started, the third cylinder 92 drives the first pushing plate 93 to move, the first pushing plate 93 pushes the second pushing plate 911 to move, the second pushing plate 911 drives the supporting plate 912 to move horizontally, the supporting plate 912 is inserted into the bottom of the battery, the battery is supported, then the battery is lifted, and the battery is moved to a carrying table (not shown) through the turntable 2.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Energy storage battery grouping anchor clamps, including feeder (1), its characterized in that: a turntable (2) is arranged at one side of the feeder (1), a connecting plate (3) is fixed at the top of the turntable (2), a lifting clamping mechanism (8) for clamping the side part of a battery is slidably arranged at the lower end of the connecting plate (3), the clamping mechanism (8) comprises a housing (81), and two groups of supporting mechanisms (9) for supporting the bottom of the battery are arranged at the side part of the clamping mechanism (8);

the inside of housing (81) has seted up cavity (86), supporting mechanism (9) are including installing lifter plate (98) in cavity (86) inside, the bottom of lifter plate (98) is connected with strip shaped plate (910), square hole has been seted up on strip shaped plate (910), square hole's inside slidable mounting has second push pedal (911), the end connection of second push pedal (911) has backup pad (912) of L shape.

2. The energy storage battery gang jig of claim 1, wherein: the supporting mechanism (9) further comprises an L-shaped supporting frame (91) connected to the side portion of the housing (81), a third air cylinder (92) is arranged on one side of the supporting frame (91), one end of a piston rod of the third air cylinder (92) is connected with a first push plate (93), and the second push plate (911) slides up and down on the side portion of the first push plate (93).

3. The energy storage battery gang jig of claim 2, wherein: a sliding groove (915) is formed in the side portion of the first pushing plate (93), a sliding block (916) is connected to the second pushing plate (911), and the sliding block (916) is slidably mounted in the sliding groove (915).

4. A power cell gang jig according to claim 3 wherein: install motor (94) and riser (913) on support frame (91), back shaft (914) are installed in one side rotation of riser (913), the cover is equipped with gear (97) on back shaft (914), rack (99) are installed to one side of lifter plate (98), gear (97) and rack (99) meshing.

5. The energy storage cell grouping fixture of claim 4, wherein: the output shaft of the motor (94) is sleeved with a first bevel gear (95), the outer wall of the end part of the supporting shaft (914) is sleeved with a second bevel gear (96), and the first bevel gear (95) is meshed with the second bevel gear (96).

6. The energy storage battery gang jig of claim 5, wherein: the side part of the housing (81) is provided with a through hole (87) communicated with the cavity (86), and the side part of the gear (97) penetrates through the through hole (87) to be meshed with the rack (99).

7. The energy storage battery gang jig of claim 1, wherein: two groups of first clamping plates (82) are arranged on the edge of the inner wall of the housing (81), two groups of second clamping plates (83) are slidably arranged on the inner wall of the housing (81), and rubber pads are arranged on the first clamping plates (82) and the second clamping plates (83).

8. The energy storage cell grouping clamp of claim 7, wherein: the inner wall of the housing (81) is fixed with a mounting plate (85), one side of the mounting plate (85) is fixed with a second air cylinder (84), and one end of a piston rod of the second air cylinder (84) is connected to a second clamping plate (83).

9. The energy storage battery gang jig of claim 1, wherein: be fixed with first cylinder (4) on connecting plate (3), piston rod one end of first cylinder (4) is connected with fixed plate (6), electronic slip table (7) are installed to the bottom of fixed plate (6), the top of housing (81) is installed on the slide of electronic slip table (7) in fixture (8).

10. The energy storage cell grouping clamp of claim 9, wherein: two groups of limiting rods (5) are connected to the fixing plate (6), two groups of limiting holes are formed in the connecting plate (3), and the limiting rods (5) are slidably mounted in the limiting holes.