CN218525627U - New energy battery safety monitoring device - Google Patents

Abstract

The utility model discloses a new forms of energy battery safety monitoring device, including monitoring box, heating element, monitoring subassembly, battery, place district and heat dissipation base, heating element passes through the inner wall bottom of bolt fastening monitoring box, the monitoring subassembly is two sets of, and embedded installation is in the both sides of monitoring box inner wall respectively, the battery block is in monitoring box, and is located heating element directly over, place the district and be located one side of battery, and be whole with the monitoring box, the heat dissipation base passes through the bottom of bolt fastening monitoring box, be equipped with the heater strip in the heating element, heating element one side is equipped with temperature-detecting device to with temperature-detecting device electric connection. The utility model discloses a heating element's setting can carry out heat treatment to the battery to the temperature that makes the battery reaches between 30 ℃ to 35 ℃, thereby can help the best discharge temperature of battery, thereby helps prolonging the life of battery.

Description

New energy battery safety monitoring device

Technical Field

The utility model relates to an automobile battery detects technical field, especially relates to a new forms of energy battery safety monitoring device.

Background

In modern times, new energy automobiles have become popular categories, the new energy automobiles are automobiles which adopt unconventional automobile fuels as power sources, integrate advanced technologies in the aspects of power control and driving of the automobiles, form advanced technical principles, have new technologies and new structures, the new energy automobiles comprise pure electric automobiles, extended range type electric automobiles, hybrid electric automobiles and fuel cell electric automobiles, the new energy automobiles adopt super capacitors and battery high-voltage energy storage devices, the application voltage can reach 700V at most, and the super capacitors and the battery high-voltage energy storage devices are positioned in high-voltage equipment bins, so the demand on batteries in the market is higher.

The new energy automobile battery needs to use the monitoring devices to carry out real-time monitoring to the battery in the use, the use safety of the battery is guaranteed and the use state of the battery is known, the optimal discharge temperature of the battery used by the electric automobile is between 30 ℃ and 35 ℃, the ambient temperature is reduced, the internal resistance of the battery is increased, the discharge current of the battery is reduced, the effective available capacity is reduced, the battery is charged when the ambient temperature is lower than 10 ℃ below zero, and the service life of the battery is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a new energy battery safety monitoring device.

In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides a new forms of energy battery safety monitoring device, includes monitoring box, heating element, monitoring subassembly, battery, places district and heat dissipation base, heating element passes through the inner wall bottom of bolted fixation in monitoring box, the monitoring subassembly is two sets of, and embedded the both sides of installing in monitoring box inner wall respectively, the battery block is in monitoring box, and is located heating element directly over, place the one side that the district is located the battery, and be whole with the monitoring box, the heat dissipation base passes through the bolted fixation in the bottom of monitoring box, be equipped with the heater strip in the heating element, heating element one side is equipped with temperature-detecting device to with temperature-detecting device electric connection.

Preferably, the surface of the monitoring box is provided with three groups of displays which are distributed in a parallel mode, one side of each display is provided with an on-off key, the bottom of the inner wall of the monitoring box is provided with first heat dissipation holes which are distributed in a parallel mode, and two sides of the inner wall of the monitoring box are respectively provided with mounting grooves which are distributed in a parallel mode.

Preferably, the monitoring subassembly detects the head including installation piece, buffer spring, telescopic link and positive negative pole, the installation piece is fixed in mounting groove inner wall bottom through the bolt, buffer spring runs through the installation piece, and one side of buffer spring connects in mounting groove inner wall bottom, the telescopic link is parallel symmetric distribution in one side of installation piece, and one side bolt fastening of telescopic link in installation piece one side, telescopic link opposite side bolt fastening positive negative pole detects one side of head, positive negative pole detects the first cross section and is trapezoidal.

Furthermore, the two groups of positive and negative detection heads are respectively a positive detection head and a negative detection head.

Still further, the top of the battery is provided with radiating fins which are distributed in a parallel mode.

Preferably, the jib is close to the equal vertical silica gel scraper blade that is equipped with in heating jar inner wall one side, the silica gel scraper blade is kept away from jib one side and all offsets with heating jar inner wall.

Preferably, the positive electrode electronic plate and the negative electrode electronic plate are respectively arranged on two sides of the outside of the battery, and the positive electrode electronic plate and the negative electrode electronic plate respectively correspond to the positive electrode detection head and the negative electrode detection head in position.

Preferably, the heat dissipation base is internally provided with second heat dissipation holes distributed in parallel, the bottom of the heat dissipation base is provided with a bottom plate, and the bottom plate is internally provided with screw holes distributed symmetrically.

The beneficial effects of the utility model are that:

1. the temperature detection device on one side of the heating assembly can detect the temperature of the battery through the arranged heating assembly, when the temperature of the battery is equal to the set temperature, the heating wire in the heating assembly can be started, and the battery can be heated, so that the temperature of the battery reaches 30-35 ℃, the optimal discharge temperature of the battery can be facilitated, and the service life of the battery can be prolonged;

2. through the monitoring subassembly that sets up, when placing the battery in the top of monitoring box, two sets of positive negative poles detect the head and remove to the mounting groove because of receiving the resistance this moment, can make two sets of positive negative poles detect first in close contact with positive electronic piece and negative electronic piece through buffer spring's resilience force simultaneously, can improve the device's work efficiency.

Drawings

Fig. 1 is a schematic perspective view of a new energy battery safety monitoring device provided by the present invention;

fig. 2 is a schematic structural view of a heating assembly of the new energy battery safety monitoring device provided by the present invention;

fig. 3 is a schematic structural view of a monitoring box of the new energy battery safety monitoring device provided by the utility model;

fig. 4 is a schematic structural view of a monitoring assembly of the new energy battery safety monitoring device provided by the present invention;

fig. 5 is a schematic diagram of a battery structure of a new energy battery safety monitoring device provided by the present invention.

In the figure: 1. a monitoring box; 2. a heating assembly; 3. a monitoring component; 4. a battery; 5. a placement area; 6. a heat dissipation base; 101. a display; 102. a first heat dissipation hole; 103. mounting grooves; 201. a temperature detection device; 301. mounting blocks; 302. a buffer spring; 303. a telescopic rod; 304. a positive and negative electrode detection head; 401. a heat sink; 501. an electronic control element; 502. a heat radiation fan; 601. a second heat dissipation hole; 602. a base plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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.

Embodiment 1, refer to fig. 1 to 5, a new energy battery safety monitoring device, including monitoring box 1, heating element 2, monitoring component 3, battery 4, place district 5 and heat dissipation base 6, its characterized in that, heating element 2 passes through the bolt fastening in monitoring box 1's inner wall bottom, monitoring component 3 is two sets of, and embedded the both sides of installing in monitoring box 1 inner wall respectively, battery 4 block is in monitoring box 1, and is located heating element 2 directly over, place district 5 and be located one side of battery 4, and be whole with monitoring box 1, heat dissipation base 6 passes through the bolt fastening in monitoring box 1's bottom, be equipped with the heater strip in the heating element 2, heating element 2 one side is equipped with temperature-detecting device 201 to with temperature-detecting device 201 electric connection.

In this embodiment, monitoring box 1 surface is equipped with three groups of displays 101 that are the block distribution, display 101 one side is equipped with the on & off switch, monitoring box 1 inner wall bottom is equipped with the first louvre 102 that is the block distribution, monitoring box 1 inner wall both sides are seted up respectively and are the mounting groove 103 that the block distribution, monitoring subassembly 3 includes installation block 301, buffer spring 302, telescopic link 303 and positive negative pole detection head 304, installation block 301 is through the bolt fastening in mounting groove 103 inner wall bottom, buffer spring 302 runs through installation block 301, and one side of buffer spring 302 is connected in mounting groove 103 inner wall bottom, telescopic link 303 is the symmetry distribution in one side of installation block 301 side by side, and one side bolt fastening in installation block 301 one side of telescopic link 303, telescopic link opposite side louvre bolt fastening positive negative pole detection head 304 one side, positive negative pole detection head 304 cross section is trapezoidal, two sets up positive pole detection head 304 is the positive pole respectively and negative pole detection head, battery 4 top is equipped with the fin 401 that the block distribution, the outside both sides of battery 4 are equipped with positive pole electron plate and negative pole electron plate and are equipped with positive pole electron plate detection head and negative pole plate position and be equipped with the heat dissipation base plate position respectively and be the heat distribution of base plate 602, the heat dissipation base plate is corresponding, and is equipped with the heat dissipation base plate distribution of 6, the heat distribution bottom plate.

The working principle of the embodiment is as follows: when the temperature detection device is used, the battery 4 is firstly placed at the top of the monitoring box 1, at the moment, the two sets of positive and negative electrode detection heads 304 move into the mounting groove 103 due to resistance, meanwhile, the two sets of positive and negative electrode detection heads 304 can be in close contact with the positive electrode electronic sheet and the negative electrode electronic sheet through the resilience force of the buffer spring 302, the heating assembly 2 is started through the on-off key, at the moment, the temperature detection device 201 on one side of the heating assembly 2 can detect the temperature of the battery 4, when the temperature of the battery 4 is higher than the set temperature, heating wires in the heating assembly 2 can be started, the battery 4 can be heated, so that the temperature of the battery 4 reaches 30 ℃ to 35 ℃, the optimal discharge temperature of the battery 4 can be facilitated, the service life of the heat dissipation hole 4 can be prolonged, meanwhile, the positive electrode sheet and the negative electrode sheet on two sides of the battery 4 respectively correspond to the positions of the positive electrode detection heads and the negative electrode detection heads, the current of the battery 4 can be monitored in real time, the data detected by the monitoring assembly 3 is reflected in the electronic control element 501, the current condition is reflected in the first heat dissipation hole 102, the electronic control element 501 can be used for preventing the electronic control element 501 from being too long in use, and the electronic control element 501 from being too long in use.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a new energy batteries safety monitoring device, includes monitoring box (1), heating element (2), monitoring component (3), battery (4), places district (5) and heat dissipation base (6), its characterized in that, heating element (2) are through bolted fixation in the inner wall bottom of monitoring box (1), monitoring component (3) are two sets of, and embedded the both sides of installing in monitoring box (1) inner wall respectively, battery (4) block is in monitoring box (1), and is located heating element (2) directly over, place one side that district (5) are located battery (4), and be whole with monitoring box (1), heat dissipation base (6) are through bolted fixation in the bottom of monitoring box (1), be equipped with the heater strip in heating element (2), heating element (2) one side is equipped with temperature-detecting device (201) to with temperature-detecting device (201) electric connection.

2. The new energy battery safety monitoring device according to claim 1, wherein three groups of displays (101) are arranged on the outer surface of the monitoring box (1) in parallel, an on-off key is arranged on one side of each display (101), first heat dissipation holes (102) are arranged at the bottom of the inner wall of the monitoring box (1) in parallel, and mounting grooves (103) are formed in two sides of the inner wall of the monitoring box (1) in parallel.

3. The safety monitoring device for the new energy battery according to claim 1, wherein the monitoring assembly (3) comprises an installation block (301), a buffer spring (302), a telescopic rod (303) and a positive and negative electrode detection head (304), the installation block (301) is fixed to the bottom of the inner wall of the installation groove (103) through a bolt, the buffer spring (302) penetrates through the installation block (301), one side of the buffer spring (302) is connected to the bottom of the inner wall of the installation groove (103), the telescopic rod (303) is distributed on one side of the installation block (301) in a parallel and symmetrical manner, one side of the telescopic rod (303) is fixed to one side of the installation block (301) through a bolt, the other side of the telescopic rod (303) is fixed to one side of the positive and negative electrode detection head (304), and the cross section of the positive and negative electrode detection head (304) is trapezoidal.

4. The safety monitoring device for the new energy battery according to claim 3, wherein the two sets of positive and negative electrode detection heads (304) are a positive electrode detection head and a negative electrode detection head respectively.

5. The safety monitoring device for the new energy battery according to claim 1, wherein heat dissipation fins (401) are arranged on the top of the battery (4) in a parallel arrangement, positive electrode tabs and negative electrode tabs are respectively arranged on two outer sides of the battery (4), and the positive electrode tabs and the negative electrode tabs correspond to the positions of the positive electrode detection head and the negative electrode detection head respectively.

6. The safety monitoring device for the new energy battery according to claim 5, characterized in that an electronic control element (501) is arranged in the placing area (5), and two groups of cooling fans (502) are arranged in parallel on one side of the placing area (5).

7. The new energy battery safety monitoring device according to claim 1, wherein second heat dissipation holes (601) are formed in the heat dissipation base (6) in a parallel arrangement, a bottom plate (602) is formed at the bottom of the heat dissipation base (6), and screw holes are formed in the bottom plate (602) in a symmetrical arrangement.

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