CN209675416U - A kind of all-vanadium flow battery charging-discharging structure - Google Patents

Abstract

The utility model discloses a kind of all-vanadium flow battery charging-discharging structures, it is related to all-vanadium flow battery technical field, it includes battery body, the left side of the battery body is provided with socket, interface is provided in the socket, the left side of the battery body is fixedly connected with the right side of frame, and the upper surface of the frame is connected with telescopic device, and the top of the telescopic device is fixedly connected with the lower surface of block.The all-vanadium flow battery charging-discharging structure, pass through setting battery body, interface, socket, frame, slide bar, sliding sleeve, the first spring and card slot, so that the first sliding block is located in first sliding groove, secondly block is slowly unclamped, so that the first spring contraction drives block to move down, so that block band moving slide-bar moves down, so that slide bar is effectively connected in card slot, and slide bar effectively plays the role of limit, when so that interface being stirred by external force, interface is not easily disconnected from socket, so that equipment can work normally.

Description

A kind of all-vanadium flow battery charging-discharging structure

Technical field

The utility model relates to all-vanadium flow battery technical field, specially a kind of all-vanadium flow battery charging-discharging structure.

Background technique

The scale of renewable energy gradually increases, but its there are unstable and discontinuous problems, it is necessary to be equipped with corresponding Energy storage device, therefore vanadium cell just becomes particularly important, currently, needing will be external when to all-vanadium flow battery charge and discharge Charge and discharge are carried out in interface insertion socket, when not needing to carry out charge and discharge, the socket on battery body is exposed to sky for a long time In gas, so that dust in air and impurity are easily accessible in socket, the normal charge and discharge of battery are affected, socket and interface is caused to connect It not can be carried out work after connecing, and interface is inserted directly into socket mostly, when being stirred interface by external force, so that interface is easy It falls off with socket, influences equipment and work, staff is needed to access again, be inconvenient.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of all-vanadium flow battery charging-discharging structure, solves When not needing to carry out charge and discharge, the socket on battery body is exposed for a long time in air, so that dust in air and impurity It is easily accessible in socket, affects the normal charge and discharge of battery, not can be carried out work, and interface after causing socket to connect with interface It is inserted directly into socket mostly, when being stirred interface by external force, so that interface is easy to fall off with socket, influences equipment and carry out work Make, the problem of needing staff to access again, be inconvenient.

(2) technical solution

To achieve the above objectives, the technical scheme adopted by the utility model is that: a kind of all-vanadium flow battery charging-discharging structure, Including battery body, the left side of the battery body is provided with socket, and interface, the battery body are provided in the socket Left side be fixedly connected with the right side of frame, the upper surface of the frame is connected with telescopic device, the telescopic device Top is fixedly connected with the lower surface of block.

The telescopic device is located in card slot, and the card slot is provided with the upper surface of interface, and the interface is located in frame, The left side of the battery body offers the first groove, and protective device, the protective device are provided in first groove It is slidably connected in two second sliding slots, the second sliding slot is provided with the lower surface of the first groove inner wall, the protective device Positioned at the left side of socket.

The back side of the protective device is fixedly connected with the both ends of two second springs, the other end of the second spring with The front of first groove inner wall is fixedly connected, and the back side of the protective device is fixedly connected with pull ring, and the pull ring is socketed in limit The outer surface of position bar, the right end of the gag lever post are fixedly connected with the right side of the second groove inner wall, and second groove opens up In the left side of battery body, second groove is connected with the first groove.

Preferably, the telescopic device includes sliding sleeve, and the sliding sleeve is connected to the upper surface of frame, socket in the sliding sleeve There is slide bar, the slide bar is located in card slot, and the top of the slide bar is fixedly connected with the lower surface of block, the appearance of the slide bar Surface cover is connected to the first spring, and the both ends of first spring are fixedly connected with the upper surface of the lower surface of block and sliding sleeve respectively.

Preferably, the upper surface of the block is provided with knob, and knob is shaped to semicircular, the slide bar and cunning The shape of set is disposed as rectangle.

Preferably, the protective device includes cover board, and the cover board is arranged in the first groove, the upper surface of the cover board It is fixedly connected to the second sliding block with lower surface, second sliding block is slidably connected in second sliding slot, the back side of the cover board It is fixedly connected with two positive one end of second spring, the back side of the cover board is fixedly connected with the positive one end of pull ring.

Preferably, first groove is shaped to L shape, and the second groove is shaped to semicircle.

Preferably, the lower surface of the interface offers first sliding groove, and it is sliding that first is slidably connected in the first sliding groove The lower surface of block, first sliding block is fixedly connected with the lower surface of frame inner wall.

(3) beneficial effect

The utility model has the beneficial effects that:

1, the all-vanadium flow battery charging-discharging structure, by setting battery body, interface, socket, frame, slide bar, sliding sleeve, First spring and card slot, when needing to limit interface, staff pulls up block first, slides so that block drives Bar moves up, and interface is inserted into socket, so that the first sliding block is located in first sliding groove, secondly slowly unclamps block, so that the One spring contraction drives block to move down, so that block band moving slide-bar moves down, so that slide bar is effectively connected to card slot It is interior, and slide bar effectively plays the role of limit, when so that interface being stirred by external force, interface is not easily disconnected from socket, so that setting It is standby to can work normally.

2, all-vanadium flow battery charging-discharging structure, by the way that pull ring, gag lever post, cover board, the first groove, the second bullet is arranged Spring, frame, socket and interface, when not needing to carry out charge and discharge to battery body, staff pulls up block, so that sliding Bar is detached from card slot, then interface is extracted, and secondly staff stirs pull ring to the left, so that during pull ring is moved to the left It is detached from gag lever post, so that the elastic force of two second springs drives cover board to move forward, so that cover board is fully located at the left side of socket, So that cover board effectively plays the role of protection, avoiding dust and impurity in air from entering socket causes cannot proceed normally Charge and discharge.

3, the all-vanadium flow battery charging-discharging structure passes through setting frame, gag lever post, pull ring, cover board, the second sliding block, the Two sliding slots, the first sliding block and interface, when needing to open cover board, staff is pulled along pull ring, then pull ring is socketed in limit On the bar of position, so that gag lever post effectively plays the role of limit, so that cover board will not move forward, staff is facilitated to be inserted into Interface, because being provided with the second sliding block, so that cover board will not shake and more stable when moving left and right, because being provided with the first sliding block, Interface is inserted into socket by staff, so that the first sliding block is located in first sliding groove, after slide bar is caught in card slot, so that the first sliding block Effectively play the role of limit, so that interface is not easy to shake, improves the stability of charge and discharge.

Detailed description of the invention

Fig. 1 is the schematic diagram of the section structure that the utility model is faced；

Fig. 2 is the structural schematic diagram of the utility model battery body left view；

Fig. 3 is the structural schematic diagram amplified at the utility model A.

In figure: 1 battery body, 2 sockets, 3 interfaces, 4 first sliding grooves, 5 first sliding blocks, 6 frames, 7 telescopic devices, 71 are slided Bar, 72 first springs, 73 sliding sleeves, 8 card slots, 9 blocks, 10 first grooves, 11 protective devices, 111 second sliding blocks, 112 cover boards, 12 Second sliding slot, 13 second springs, 14 second grooves, 15 gag lever posts, 16 pull rings.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figure 1-3, the utility model provides a kind of technical solution: a kind of all-vanadium flow battery charging-discharging structure, packet Battery body 1 is included, the left side of battery body 1 is provided with socket 2, interface 3 is provided in socket 2, because being provided with the second sliding block 111, so that cover board 112 will not shake when moving left and right and more stable, the left side of battery body 1 and the right side of frame 6 It is fixedly connected, the upper surface of frame 6 is connected with telescopic device 7, and the top of telescopic device 7 is fixedly connected with the lower surface of block 9.

Telescopic device 7 is located in card slot 8, by the way that slide bar 71 is arranged, so that slide bar 71 is effectively connected in card slot 8, and Slide bar 71 effectively plays the role of limit, and when so that interface 3 being stirred by external force, interface 3 is not easily disconnected from socket 2, so that setting Standby to can work normally, telescopic device 7 includes sliding sleeve 73, and sliding sleeve 73 is connected to the upper surface of frame 6, is socketed with cunning in sliding sleeve 73 Bar 71, slide bar 71 are located in card slot 8, and the top of slide bar 71 is fixedly connected with the lower surface of block 9, the outer surface socket of slide bar 71 There is the first spring 72, the both ends of the first spring 72 are fixedly connected with the upper surface of the lower surface of block 9 and sliding sleeve 73 respectively, pass through First spring 72 is set, so that block 9 is moved up with moving slide-bar 71, interface 3 is inserted into socket 2, so that the first sliding block 5 is located at In first sliding groove 4, block 9 is secondly slowly unclamped, drives block 9 to move down so that the first spring 72 is shunk, so that 9 band of block Moving slide-bar 71 moves down, and card slot 8 is provided with the upper surface of interface 3, and interface 3 is located in frame 6, the upper surface setting of block 9 There is a knob, knob is shaped to semicircular, and the shape of slide bar 71 and sliding sleeve 73 is disposed as rectangle, a left side for battery body 1 Side offers the first groove 10, and the first groove 10 is shaped to L shape, and the second groove 14 is shaped to semicircle, By the way that block 9 is arranged, when not needing to carry out charge and discharge to battery body 1, staff pulls up block 9, so that slide bar 71 are detached from card slot 8, then interface 3 is extracted, and are provided with protective device 11 in the first groove 10, protective device 11 is slidably connected In two second sliding slots 12, second sliding slot 12 is provided with the lower surface of 10 inner wall of the first groove, and protective device 11 is located at socket 2 Left side.

The back side of protective device 11 is fixedly connected with the both ends of two second springs 13, because being provided with the first sliding block 5, is worked Interface 3 is inserted into socket 2 by personnel, so that the first sliding block 5 is located in first sliding groove 4, after slide bar 71 is caught in card slot 8, so that first Sliding block 5 effectively plays the role of limit, so that interface 3 is not easy to shake, protective device 11 includes cover board 112, and cover board 112 is set It sets in the first groove 10, the upper and lower surfaces of cover board 112 are fixedly connected to the second sliding block 111, and the second sliding block 111 is sliding Dynamic to be connected in second sliding slot 12, the back side of cover board 112 is fixedly connected with two positive one end of second spring 13, cover board 112 The back side be fixedly connected with the positive one end of pull ring 16, by be arranged second spring 13 so that the process that pull ring 16 is moved to the left Middle disengaging gag lever post 15, so that the elastic force of two second springs 13 drives cover board 112 to move forward, so that the complete position of cover board 112 In the left side of socket 2, the other end of second spring 13 is fixedly connected with the front of 10 inner wall of the first groove, the back of protective device 11 Face is fixedly connected with pull ring 16, avoids air so that cover board 112 effectively plays the role of protection by setting cover board 112 In dust and impurity enter socket 2 and cause to cannot proceed normally charge and discharge, the lower surface of interface 3 offers first sliding groove 4, The first sliding block 5 is slidably connected in one sliding slot 4, the lower surface of the first sliding block 5 is fixedly connected with the lower surface of 6 inner wall of frame, is drawn Ring 16 is socketed in the outer surface of gag lever post 15, and the right end of gag lever post 15 is fixedly connected with the right side of 14 inner wall of the second groove, leads to Setting gag lever post 15 is crossed, so that gag lever post 15 effectively plays the role of limit, so that cover board 112 will not move forward, side Just staff is inserted into interface 3, and the second groove 14 is provided with the left side of battery body 1, the second groove 14 and the first groove 10 It is connected.

The operating procedure of the utility model are as follows:

S1, when needing to limit interface 3, staff pulls up block 9 first so that block 9 drive slide Bar 71 moves up, and interface 3 is inserted into socket 2, so that the first sliding block 5 is located in first sliding groove 4, secondly slowly unclamps block 9, Block 9 is driven to move down so that the first spring 72 is shunk, so that block 9 is moved down with moving slide-bar 71, so that slide bar 71 has Effect is connected in card slot 8；

S2, when not needing to carry out charge and discharge to battery body 1, staff pulls up block 9, so that slide bar 71 is de- It is extracted from card slot 8, then by interface 3, secondly staff stirs pull ring 16 to the left, so that the process that pull ring 16 is moved to the left Middle disengaging gag lever post 15, so that the elastic force of two second springs 13 drives cover board 112 to move forward, so that the complete position of cover board 112 In the left side of socket 2；

S3, when needing to open cover board 112, staff is pulled along pull ring 16, then pull ring 16 is socketed in gag lever post On 15, so that gag lever post 15 plays the role of limit, cover board 112 will not be moved forward.

Above-described specific embodiment, to the purpose of this utility model, technical scheme and beneficial effects carried out into One step is described in detail, it should be understood that being not used to limit the foregoing is merely specific embodiment of the present utility model The utility model processed, within the spirit and principle of the utility model, any modification, equivalent substitution, improvement and etc. done, It should be included within the scope of protection of this utility model.

Claims (6)

1. a kind of all-vanadium flow battery charging-discharging structure, including battery body (1), it is characterised in that: the battery body (1) Left side is provided with socket (2), is provided with interface (3) in the socket (2), the left side of the battery body (1) and frame (6) right side is fixedly connected, and the upper surface of the frame (6) is connected with telescopic device (7), the top of the telescopic device (7) End is fixedly connected with the lower surface of block (9)；

The telescopic device (7) is located in card slot (8), and the card slot (8) is provided with the upper surface of interface (3), the interface (3) In frame (6), the left side of the battery body (1) is offered the first groove (10), is set in first groove (10) It is equipped with protective device (11), the protective device (11) is slidably connected in two second sliding slots (12), the second sliding slot (12) it is provided with the lower surface of the first groove (10) inner wall, the protective device (11) is located at the left side of socket (2)；

The back side of the protective device (11) is fixedly connected with the both ends of two second springs (13), the second spring (13) The other end is fixedly connected with the front of the first groove (10) inner wall, and the back side of the protective device (11) is fixedly connected with pull ring (16), the pull ring (16) is socketed in the outer surface of gag lever post (15), the right end and the second groove (14) of the gag lever post (15) The right side of inner wall is fixedly connected, and second groove (14) is provided with the left side of battery body (1), second groove (14) it is connected with the first groove (10).

2. a kind of all-vanadium flow battery charging-discharging structure according to claim 1, it is characterised in that: the telescopic device It (7) include sliding sleeve (73), the sliding sleeve (73) is connected to the upper surface of frame (6), is socketed with slide bar in the sliding sleeve (73) (71), the slide bar (71) is located in card slot (8), and the top of the slide bar (71) is fixedly connected with the lower surface of block (9), institute The outer surface for stating slide bar (71) is socketed with the first spring (72), and the both ends of first spring (72) are respectively and under block (9) Surface is fixedly connected with the upper surface of sliding sleeve (73).

3. a kind of all-vanadium flow battery charging-discharging structure according to claim 2, it is characterised in that: the block (9) Upper surface is provided with knob, and knob is shaped to semicircular, and the shape of the slide bar (71) and sliding sleeve (73) is disposed as Rectangle.

4. a kind of all-vanadium flow battery charging-discharging structure according to claim 1, it is characterised in that: the protective device It (11) include cover board (112), cover board (112) setting is in the first groove (10), and the upper surface of the cover board (112) is under Surface is fixedly connected to the second sliding block (111), and second sliding block (111) is slidably connected in second sliding slot (12), described The back side of cover board (112) is fixedly connected with two positive one end of second spring (13), the back side of the cover board (112) and pull ring (16) positive one end is fixedly connected.

5. a kind of all-vanadium flow battery charging-discharging structure according to claim 1, it is characterised in that: first groove (10) it is shaped to L shape, the second groove (14) is shaped to semicircle.

6. a kind of all-vanadium flow battery charging-discharging structure according to claim 1, it is characterised in that: the interface (3) Lower surface offers first sliding groove (4), slidably connects the first sliding block (5) in the first sliding groove (4), first sliding block (5) lower surface is fixedly connected with the lower surface of frame (6) inner wall.