CN210837864U - Novel energy storage battery cabinet - Google Patents

Abstract

The utility model relates to a novel energy storage battery rack, including the battery frame, battery frame top-down falls into a plurality of layers, the detachable erection joint in the place ahead support bracket and the place ahead fixed bolster that becomes an organic whole in front of each layer of battery frame, the left and right sides of each layer of battery frame sets up the slip backup pad respectively, the battery module is placed on the slip backup pad and is fixed in each layer of battery frame through the place ahead support bracket and the place ahead fixed bolster, set up the battery management system module of being connected with control terminal on the battery frame, the battery module of every layer of battery frame is established ties or is connected in parallel and be connected with the battery management system module. The utility model discloses a novel energy storage battery rack firmly fixes a plurality of battery modules and battery management system module on the battery frame, and overall structure is simple, strong, firm, and energy-conserving this that falls realizes better shockproof effect through insulating pad, can be used to the activity transportation scene, and the battery is safe more and reliable, is difficult to warp and damage, can prolong battery module and battery life.

Description

Novel energy storage battery cabinet

Technical Field

The utility model belongs to the technical field of the electric wire netting energy storage rack, concretely relates to novel energy storage battery rack.

Background

With the rapid development of new energy vehicles, the demand of people on the use amount of battery modules matched with the new energy vehicles is gradually increased. For convenient taking, the battery module is usually directly placed on the battery frame, is not fixed or is unreliable in fixation, is not subjected to all-dimensional fixation and shockproof treatment from top to bottom and from left to right, is very easy to deform and damage during movable transportation, has short service life, and seriously influences the production and after-sales maintenance costs.

SUMMERY OF THE UTILITY MODEL

For solving the problem that exists among the prior art, the utility model provides a novel energy storage battery rack.

The utility model provides a novel energy storage battery rack, includes the battery frame, battery frame top-down falls into a plurality of layers, and the detachable erection joint of the front side of each layer of battery frame becomes integrative place ahead support holder and the place ahead fixed bolster, and the left and right both sides of each layer of battery frame set up the slip backup pad respectively, and a plurality of group battery module are placed on the slip backup pad and are fixed in each layer of battery frame through place ahead support holder and place ahead fixed bolster respectively on, still set up battery management system module on the battery frame, the battery module on each layer of battery frame is established ties or is parallelly connected and is connected with battery management system module respectively, and battery management system module carries out data transmission with control terminal connection.

Furthermore, the front support bracket is in a shape of a Chinese character ji, bolt holes are symmetrically formed in two ends of the front support bracket, and the front support bracket is connected with the battery rack through bolts.

Furthermore, the sliding support plate is L-shaped, one side of the sliding support plate is mounted on the battery frame through bolts, and the other side of the sliding support plate is used for placing the battery module.

Furthermore, a fixing support is installed on one side of the tail end of the sliding support plate, an upper fixing support is installed on the other side, opposite to the tail end of the sliding support plate, the bottom of the battery module is in contact with the fixing support, and the top of the battery module is in contact with the upper rear fixing support.

Further, the fixed bolster is L type and its both sides contact with the left side and the rear side of battery module bottom respectively.

Further, back upper place fixed bolster is the L type, on the back upper place fixed bolster, with the left side and the top that the battery module contacted set up insulating pad b and insulating pad c respectively.

Furthermore, the place ahead fixed bolster is L type and face-to-face installs in place ahead support holder both sides, and place ahead fixed bolster top and the one side towards battery module set up insulating pad a.

Furthermore, the battery management system module is mounted on the battery frame through a fixing frame bolt, the battery management system module is communicated with the control terminal through a communication line or a wireless network, and bidirectional data transmission can be achieved, or the battery management system module is connected with the input end of the control terminal; the battery management system module is used for monitoring and managing the temperature and the voltage state of the battery in the battery module, uploading monitored data to the control terminal through a communication line or a wireless network, interacting data with the control terminal, and placing the battery management system module above, in the middle and below the battery rack without limitation on the position.

Further, the wireless network includes any one of Zigbee, bluetooth, 4G, and 5G.

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

the utility model discloses a novel energy storage battery rack, including the battery rack, battery rack top-down falls into a plurality of layers, the detachable erection joint becomes integrative place ahead support holder and the place ahead fixed bolster in front side of each layer of battery rack, each layer of left side of battery rack, the right side both sides set up the slip backup pad respectively, a plurality of group's battery module are placed on the slip backup pad and are fixed in each layer of battery rack through place ahead support holder and place ahead fixed bolster respectively on, still set up battery management system module on the battery rack, the battery module on every layer of battery rack is established ties or is parallelly connected and is connected with battery management system module respectively, battery management system module and control terminal are connected and are carried out data transmission. The utility model discloses a novel energy storage battery rack firmly fixes a plurality of battery modules and battery management system module on the battery frame, battery management system module carries out data transmission with control terminal, be convenient for monitor the user state of battery in the battery module, overall structure is simple, strong, firm, the energy-saving falls originally, can be used to the activity transportation scene, realize better shockproof effect through setting up of insulating pad, the battery is safe and reliable more, be difficult to warp and damage, can prolong battery module and battery life, wide application prospect has.

Drawings

Fig. 1 is a schematic structural view of a battery holder according to the present invention;

fig. 2-3 are schematic structural views of the battery module before being placed in the present invention;

fig. 4 is a schematic structural view after the battery module is placed in the present invention;

fig. 5 is a schematic structural view of the front support bracket of the present invention;

fig. 6 is a schematic structural view of the front fixing bracket of the present invention;

fig. 7 is a schematic structural view of the rear upper fixing bracket of the present invention;

wherein, 1, a battery rack; 2. a battery module; 3. a front support bracket; 3-1, bolt holes; 4. a sliding support plate; 5. fixing a bracket; 6. a front fixing bracket; 7-insulating pad a; 8. a bracket is fixed at the upper rear part; 9. an insulating pad b; 10. an insulating pad c; 11. and a battery management system module.

Detailed Description

The technical solution of the present invention is further described below with reference to specific examples, it should be understood that these examples are only for illustrating the present invention, and do not limit the scope of the present invention in any way. The terms used in the present invention generally have meanings commonly understood by those of ordinary skill in the art, unless otherwise specified.

In the following examples, various procedures, methods and reagents not described in detail are conventional methods and products well known in the art.

As shown in fig. 1-7, a novel energy storage battery cabinet comprises a battery rack 1, the battery rack 1 is divided into a plurality of layers from top to bottom, a front supporting bracket 3 and a front fixing bracket 6 which are detachably connected with the front side of each layer of the battery rack 1 into a whole are detachably arranged, a sliding supporting plate 4 is respectively arranged on the left side and the right side of each layer of the battery rack 1, a plurality of groups of battery modules 2 are arranged on the sliding supporting plate 4 and are respectively fixed on each layer of the battery rack 1 through the front supporting bracket 3 and the front fixing bracket 6, a battery management system module 11 is also arranged on the battery rack 1, the battery modules 2 on each layer of the battery rack 1 are connected in series or in parallel and are respectively connected with the battery management system module 11, the battery management system module 11 communicates with a control terminal through a communication line or a wireless network, the battery management system module 11 comprises a temperature sensing module and a voltage sensing module, the temperature, through the voltage state of voltage sensing module control battery module 2, battery management system module 11 will detect temperature and voltage data upload to control terminal and look over and handle, and control terminal is current host computer, and wireless network includes any kind in Zigbee, bluetooth, 4G, 5G, adopts prior art can realize.

The front supporting bracket 3 is in a shape of a Chinese character 'ji' and is symmetrically provided with bolt holes 3-1 at two ends, through holes matched with the bolt holes 3-1 are also arranged at proper positions of each layer of the battery frame 1, bolts penetrate through the bolt holes 3-1 and the through holes in the battery frame 1 to connect the front supporting bracket 3 and the front fixing bracket 6 with the battery frame 1 through bolts, the front fixing bracket 6 is in an L shape, two front fixing brackets 6 with opposite surfaces are arranged at two sides of each front supporting bracket 3, and an insulating pad a 7 is arranged at the top of each front fixing bracket 6 and faces one side of the battery module 2.

Sliding support plate 4 is the L type and just pushes away direction (horizontal) extension along battery module 2 for place battery module 2, battery module 2 bottom and sliding support plate 4 contact on one side, and sliding support plate 4 another side passes through the bolt and installs on battery frame 1.

4 terminal one side (upper surface) installation fixed bolster 5 of sliding support plate, fixed bolster 5 is the L type and its both sides contact with battery module 2 bottom left side and rear side respectively, 4 terminal relative opposite side (lower surface) installation top fixed bolster 8 of sliding support plate, 2 bottoms of battery module and 5 contacts of fixed bolster, 2 tops of battery module and the contact of back top fixed bolster 8, back top fixed bolster 8 is the L type, on the back top fixed bolster 8, left side and the top that contact with battery module 2 set up insulating pad b 9 and insulating pad c 10 respectively, play the buffering, the shockproof effect.

The battery management system module 11 is bolted to an appropriate position such as above, in the middle or below the battery rack 1 through the fixing frame 12, and the position can be selected according to actual requirements.

The utility model discloses a theory of operation does:

the bottom of two sides of a battery module 2 is aligned with sliding support plates 4 on two sides of each layer, the battery module 2 is pushed into a battery rack 1 along the sliding support plates 4, the battery module 2 is placed on the sliding support plates 4 on each layer of the battery rack 1, a fixing support 5 from the rear of the battery module 2 to a rear upper fixing support 8 and the battery module 2 are aligned with an insulating pad b 9 and an insulating pad c 10, the battery module is pushed to the right position slightly with force, the front support 3 and the front fixing support 6 are aligned with two sides of the battery module 2, the top of the battery module 2 is contacted with an insulating pad a 7 and pushed to the right position slightly with force, hole positions of the front support 3 and the battery rack 1 are aligned, bolts are used for fixing, hole positions of a battery management system module 11 and a fixing frame 12 are aligned, bolts and other fasteners are used for fixing, and then the battery management system module.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (8)

1. A novel energy storage battery cabinet is characterized by comprising a battery rack (1), wherein the battery rack (1) is divided into a plurality of layers from top to bottom, a front supporting bracket (3) and a front fixing bracket (6) which are detachably connected with the front side of each layer of the battery rack (1) into a whole are arranged on the front side of each layer of the battery rack (1), sliding supporting plates (4) are respectively arranged on the left side and the right side of each layer of the battery rack (1), a plurality of groups of battery modules (2) are placed on the sliding supporting plates (4) and are respectively fixed on each layer of the battery rack (1) through the front supporting bracket (3) and the front fixing bracket (6), the battery rack (1) is also provided with a battery management system module (11), the battery modules (2) on each layer of the battery rack (1) are connected in series or in parallel and are respectively connected with the battery management system module (11), and the battery management system module (11) is connected with the control terminal for data transmission.

2. The novel energy storage battery cabinet as claimed in claim 1, wherein the front support bracket (3) is of a shape of a rectangle and has bolt holes (3-1) symmetrically formed at both ends thereof, and the front support bracket (3) is connected with the battery rack (1) through bolts.

3. The novel energy storage battery cabinet as claimed in claim 1, wherein the sliding support plate (4) is L-shaped, one side of the sliding support plate (4) is bolted to the battery rack (1), and the other side of the sliding support plate (4) is provided with the battery module (2).

4. The novel energy storage battery cabinet as claimed in claim 1, wherein a fixing bracket (5) is installed at one end of the sliding support plate (4), an upper fixing bracket (8) is installed at the other end of the sliding support plate (4) opposite to the end, the bottom of the battery module (2) is in contact with the fixing bracket (5), and the top of the battery module (2) is in contact with the upper rear fixing bracket (8).

5. The novel energy storage battery cabinet as claimed in claim 4, wherein the fixing bracket (5) is L-shaped and two sides of the fixing bracket are respectively contacted with the left side and the rear side of the bottom of the battery module (2).

6. The novel energy storage battery cabinet as claimed in claim 4, wherein the upper rear fixing bracket (8) is L-shaped, and an insulating pad b (9) and an insulating pad c (10) are respectively arranged on the upper rear fixing bracket (8) and on the left side and the top of the upper rear fixing bracket, which are in contact with the battery module (2).

7. The novel energy storage battery cabinet as claimed in claim 1, wherein the front fixing bracket (6) is L-shaped and is installed on two sides of the front support bracket (3) in a face-to-face manner, and an insulating pad a (7) is arranged on the top of the front fixing bracket (6) and on one side facing the battery module (2).

8. The novel energy storage battery cabinet as claimed in claim 1, wherein the battery management system module (11) is mounted on the battery rack (1) through a fixing frame (12) by bolts, and the battery management system module (11) communicates with the control terminal through a communication line or a wireless network.

Images