CN218351636U - Thermal battery locking structure - Google Patents

Abstract

The utility model discloses a thermal battery locking structure, including clamp plate, thermal battery, fixed subassembly, support column, the clamp plate sets up top and bottom at the thermal battery respectively, fixed subassembly sets up on the thermal battery, the support column sets up in both sides between the clamp plate, the support column is the screw rod. The utility model discloses a setting of clamp plate and support column has formed the fixed to the thermal battery both ends, and structural framework has also constituted the protection scope to the thermal battery. Through the setting of fixed subassembly, can play further fixed action to the thermal battery, prevent effectively that the thermal battery from taking place the displacement or rotating in violent motion, guarantee that the utmost point ear or the utmost point post that discharge of thermal battery can not receive the damage, avoid and take place incident such as fire, explosion, guaranteed the safe handling of thermal battery. The utility model discloses a locking structure simple to use, the commonality is strong, is applicable to large-scale, heavy thermal battery's fixed locking, also is applicable to the fixed locking of thermal battery on the multiple platform.

Description

Thermal battery locking structure

Technical Field

The utility model belongs to the technical field of battery fixing equipment, especially, relate to a thermal battery locking structure.

Background

The thermal battery has the advantages of high energy density, long storage time, high storage safety, no maintenance and the like, and is widely applied to the fields of weaponry and aerospace and the like. In recent years, the national demand for high-power thermal batteries is increasing, and the application prospect is very wide.

The application field of the thermal battery is wider, but if the platform on which the thermal battery is placed can generate violent movement and vibration, the thermal battery on the platform can be displaced or rotated, so that the discharging lugs or poles of the thermal battery can be damaged, and safety accidents such as fire, explosion and the like can be caused preferably. Therefore, a related structure capable of locking the thermal battery is required to ensure the safety of the working environment of the thermal battery.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a thermal battery locking structure can solve the thermal battery and take place displacement, pivoted problem at service platform.

The utility model discloses a following technical scheme can realize.

The utility model provides a pair of thermal battery locking structure, including clamp plate, thermal battery, fixed subassembly, support column, the clamp plate sets up top and bottom at the thermal battery respectively, fixed subassembly sets up on the thermal battery, the support column sets up in both sides between the clamp plate, the support column is the screw rod.

Preferably, the fixed component is 8-shaped, the thermal batteries are arranged in two groups, each two groups of thermal batteries are fixed by one fixed component, and the fixed components are connected with the thermal batteries through insulating rings.

Preferably, the fixed component comprises a connecting strip A and a connecting strip B, a sliding groove is formed in the connecting strip A, a connecting strip C is arranged on the connecting strip B, the width of the connecting strip C is smaller than that of the connecting strip B, the connecting strip B penetrates through the sliding groove through the connecting strip C to form sliding connection with the connecting strip A, and the fixed component is made of stainless steel.

Preferably, connecting strip A and connecting strip B all are the S-shaped setting, connecting strip A is provided with the hinge respectively with the both ends of connecting strip B, the hinge on the connecting strip A passes through the screw and is connected with the hinge formation of connecting strip B with one side.

Preferably, the bottom of the thermal battery is connected with the pressure plate through an insulating ring.

Preferably, the pressing plate and the supporting columns are made of metal.

Preferably, the insulating ring is made of polytetrafluoroethylene or rubber.

Preferably, the insulating ring is made of polytetrafluoroethylene or rubber.

The beneficial effects of the utility model reside in that:

the utility model discloses a setting of clamp plate and support column has formed the fixed to the thermal battery both ends, and structural framework has also constituted the protection scope to the thermal battery. Through the setting of fixed subassembly, can play further fixed action to the thermal battery, prevent effectively that the thermal battery from taking place the displacement or rotating in violent motion, guarantee that the utmost point ear or the utmost point post that discharge of thermal battery can not receive the damage, avoid and take place incident such as fire, explosion, guaranteed the safe handling of thermal battery. The utility model discloses a locking structure simple to use, the commonality is strong, is applicable to large-scale, heavy thermal battery's fixed locking, also is applicable to the fixed locking of thermal battery on the multiple platform.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of the fixing assembly of the present invention;

fig. 3 is a schematic structural view of the fixing assembly of the present invention;

in the figure: 1-pressing plate, 2-thermal battery, 3-fixing component, 4-support column, 5-insulating ring, 6-connecting strip A, 61-sliding groove, 7-connecting strip B, 71-connecting strip, 8-hinge, 9-screw and 10-insulating ring C.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

Example 1:

as shown in fig. 1 to 3, a thermal battery locking structure, includes clamp plate 1, thermal battery 2, fixed subassembly 3, support column 4, clamp plate 1 sets up respectively in the top and the bottom of thermal battery 2, fixed subassembly 3 sets up on thermal battery 2, support column 4 sets up in both sides between clamp plate 1, support column 4 is the screw rod and is provided with many, is convenient for dismouting on clamp plate 1 to play the supporting role. The thermal battery 2 may be a large thermal battery, and has a cylindrical shape.

Fixed subassembly 3 is the setting of 8 fonts, thermal battery 2 is provided with two sets ofly, and every two sets of thermal battery 2 use a fixed subassembly 3 fixed, fixed subassembly 3 forms through insulating circle 5 and thermal battery 2 and is connected. Because of there is the tolerance in the high dimension of thermal battery 2, can not guarantee that all thermal batteries 2 can both tightly assemble, fixed subassembly 3 is used for fixed thermal battery 2, can prevent that thermal battery 2 from taking place position change and rotation in violent motion process, keeps thermal battery 2's stability. The 8-shaped arrangement of the fixing component 3 facilitates the banding of the thermal battery 2.

The insulating ring 5 is made of polytetrafluoroethylene or rubber, has an insulating function, has certain flexibility, and can play a buffering role between the thermal battery 2 and the fixed component 3.

Fixed subassembly 3, including connecting strip A6, connecting strip B7, be provided with spout 61 on the connecting strip A6, be provided with connecting strip C71 on the connecting strip B7, the width of connecting strip C71 is less than the width of connecting strip B7, and connecting strip B7 runs through spout 61 and connecting strip A6 through connecting strip C71 and forms sliding connection, fixed subassembly 3 material is the stainless steel. Connecting strips A6 and B7 are both bendable.

Connecting strip A6 and connecting strip B7 all are the S-shaped setting, connecting strip A6 and the both ends of connecting strip B7 are provided with hinge 8 respectively, hinge 8 on the connecting strip A6 passes through the screw 9 and is connected with hinge 8 with one side of connecting strip B7. The hinge 8 enables the joint of the connecting strip A6 and the connecting strip B7 to rotate, so that the diameter of the 8-shaped structural annular part of the fixing assembly 3 is changed, and the fixing assembly is suitable for thermal batteries 2 with different diameters.

The bottom of the thermal battery 2 is connected with the pressure plate 1 through an insulating ring 10. The material of clamp plate 1 and support column 4 is the metal, increases sturdiness and durability between them to guarantee the holistic stability of structure.

Insulating ring 10 material is polytetrafluoroethylene or rubber, has insulating function, and has certain flexibility, can play the cushioning effect between thermal battery 2 and clamp plate 1, and has increased the frictional force between thermal battery 2 and the clamp plate 1, further prevents that thermal battery 2 from taking place to rotate.

Claims (8)

1. A thermal battery locking structure is characterized in that: including clamp plate (1), thermal battery (2), fixed subassembly (3), support column (4), clamp plate (1) sets up top and bottom at thermal battery (2) respectively, fixed subassembly (3) set up on thermal battery (2), support column (4) set up in both sides between clamp plate (1), support column (4) are the screw rod.

2. A thermal battery locking structure as claimed in claim 1, wherein: fixed subassembly (3) are the setting of 8 fonts, thermal battery (2) are provided with two sets ofly, and every two sets of thermal battery (2) use a fixed subassembly (3) fixed, fixed subassembly (3) form through insulating circle (5) and thermal battery (2) and are connected.

3. A thermal battery locking structure as claimed in claim 1, wherein: fixed subassembly (3), including connecting strip A (6), connecting strip B (7), be provided with spout (61) on connecting strip A (6), be provided with connecting strip C (71) on connecting strip B (7), the width of connecting strip C (71) is less than the width of connecting strip B (7), and connecting strip B (7) run through spout (61) and connecting strip A (6) through connecting strip C (71) and form sliding connection, fixed subassembly (3) material is the stainless steel.

4. A thermal battery locking structure as claimed in claim 3, wherein: connecting strip A (6) all are the S-shaped setting with connecting strip B (7), connecting strip A (6) are provided with hinge (8) respectively with the both ends of connecting strip B (7), hinge (8) on connecting strip A (6) are passed through screw (9) and are connected with hinge (8) formation with one side of connecting strip B (7).

5. A thermal battery locking structure as claimed in claim 1, wherein: the bottom of the thermal battery (2) is connected with the pressure plate (1) through an insulating ring (10).

6. A thermal battery locking structure as claimed in claim 1, wherein: the pressing plate (1) and the supporting columns (4) are made of metal.

7. A thermal battery locking arrangement as claimed in claim 2, wherein: the insulating ring (5) is made of polytetrafluoroethylene or rubber.

8. A thermal battery locking structure as claimed in claim 5, wherein: the insulating ring (10) is made of polytetrafluoroethylene or rubber.

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