CN214505679U - Portable lithium cell heating insulation can - Google Patents

Abstract

The utility model discloses a portable lithium cell heating insulation can, including the incubator main part, the outside top of incubator main part is provided with controllable temperature regulator and switch module, the outside front end of incubator main part is provided with the USB interface, the outside front side both ends of incubator main part and rear side both ends are connected with butterfly head adjusting screw respectively, butterfly head adjusting screw's end department is fixed with location splint, the outside left and right sides of incubator main part is provided with the wiring port respectively, the inside cooperation of wiring port has two elastic clamping piece, the bottom of incubator main part is provided with the base, the inside top of incubator main part is provided with lithium cell and graphite alkene electric heat piece. The utility model relates to a portable lithium cell heating insulation can, the heat preservation to unmanned aerial vehicle battery when mainly used transmission of electricity is patrolled and examined, its whole constitution simple structure, cost economy, easy operation, it is convenient to use, and the installation or the dismantlement of being convenient for have good application flexibility.

Description

Portable lithium cell heating insulation can

Technical Field

The utility model relates to an insulation can technical field specifically is a portable lithium cell heating insulation can.

Background

The transmission of electric energy is an important component link of the overall function of the power system. Power plants and electrical load centers are typically located in different areas. A power plant is built in a place with proper conditions of primary energy resources such as water power and coal, and electric energy can be transmitted to a load center far away from the power plant through power transmission, so that the development and utilization of the electric energy exceed the limit of regions. Compared with other energy transmission modes, the power transmission mode has the advantages of small loss, high benefit, flexibility, convenience, easiness in adjustment and control, reduction of environmental pollution and the like.

Because the electric energy transmits through transmission line, and the height of transmission line is higher, and present transmission of electricity is patrolled and examined mainly and is gone on through unmanned aerial vehicle, and when the temperature was lower, the unable normal work of merit power battery in the unmanned aerial vehicle to the operation is patrolled and examined in the influence. In order to solve the defects, a portable lithium battery heating and heat preservation box is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving because the electric energy transmits through transmission line, and the high height of transmission line is higher, and present transmission of electricity is patrolled and examined mainly and is gone on through unmanned aerial vehicle, and when the temperature was lower, the unable normal work of merit power battery in the unmanned aerial vehicle to the influence is patrolled and examined shortcomings such as operation, and provides a portable lithium cell heating insulation can.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a portable lithium cell heating insulation can, includes the insulation can main part, the outside top of insulation can main part is provided with controllable temperature regulator and switch module, the outside front end of insulation can main part is provided with the USB interface, the outside front side both ends of insulation can main part and rear side both ends are connected with butterfly head adjusting screw respectively, the outside left and right sides of insulation can main part is provided with the wiring port respectively, the inside cooperation of wiring port has two elasticity clamp splice, the outside surface of elasticity clamp splice is provided with the handrail groove, the bottom of insulation can main part is provided with the base, the inside top of insulation can main part is provided with lithium cell and graphite alkene electric heat piece.

Preferably, the positions of the butterfly head adjusting screws on the two positions of the front side of the outer portion of the incubator main body correspond to the positions of the butterfly head adjusting screws on the two positions of the rear side of the outer portion of the incubator main body, and a positioning clamp plate is fixed to the end of each butterfly head adjusting screw and located inside the incubator main body. When the unmanned aerial vehicle battery was located the inside of insulation can main part, rotatory butterfly head adjusting screw everywhere respectively, under the effect of location splint, can press from both sides the unmanned aerial vehicle battery tight fixedly to this stability of guaranteeing the unmanned aerial vehicle battery. Wherein, but the unmanned aerial vehicle battery of the fixed not unidimensional model of locating splint centre gripping, it has good use flexibility.

Preferably, the top and the bottom of the elastic clamping block are respectively fixed with a limiting rib, wherein the limiting rib is located in a limiting groove, a spring is arranged in the limiting groove, two ends of the spring are respectively limited on a spring column, and the spring column is respectively fixed on the limiting rib and in the limiting groove. The wiring port mainly used link up the wiring between unmanned aerial vehicle battery and the unmanned aerial vehicle, and its electric wire connects the back from the wiring port, and two elastic clamping blocks can be fixed with the electric wire centre gripping under the elastic action of spring, can effectively avoid the electric wire in disorder, have also reduced the open area of wiring port department to a certain extent, have reduced thermal scattering and disappearing, have improved the heat preservation effect.

Preferably, the controllable temperature regulator is the control center of heat preservation box main part, and switch module, lithium cell and graphite alkene electric heat piece all with controllable temperature regulator electric connection. Send the instruction to controllable temperature regulator through the switch module, the temperature that generates heat of adjustable graphite alkene electric heat piece to this reaches the optimum operating temperature of unmanned aerial vehicle battery.

Preferably, the lithium battery is electrically connected with the USB interface. The lithium battery mainly supplies power for electronic components in the heat preservation box main body and charges the lithium battery through the USB interface.

Preferably, both ends of the outer side of the base are provided with screw holes, and an opening is formed in the base; wherein, the base is communicated with the interior of the insulation can main body through the opening. Because the opening has been seted up to the inside of base, need not to dismantle the unmanned aerial vehicle battery when the installation, can directly cover on the unmanned aerial vehicle battery, through installation screw in the base to it is fixed to make the heat preservation box main part.

Preferably, a plurality of micropores are uniformly formed in the bottom of the graphene electric heating sheet; the graphene electric heating sheet is communicated with the interior of the heat preservation box main body through a plurality of micropores. When the graphene electric heating sheet works, heat of the graphene electric heating sheet can be rapidly diffused to the micropores through the micropores at the plurality of positions, and the heating efficiency of the graphene electric heating sheet is effectively improved.

Preferably, the foam heat-insulating layer is bonded on the inner wall of the periphery inside the heat-insulating box main body. The foam heat-insulating layer is mainly used for heat insulation in the heat-insulating box main body, and can enhance the heat-insulating effect.

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

the utility model relates to a portable lithium cell heating insulation can, the heat preservation to unmanned aerial vehicle battery when mainly used transmission of electricity is patrolled and examined, its whole constitution simple structure, cost economy, easy operation, it is convenient to use, and the installation or the dismantlement of being convenient for have good application flexibility.

Drawings

Fig. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

fig. 3 is a left side view structure diagram of the present invention;

fig. 4 is a schematic top view of the present invention;

FIG. 5 is a cross-sectional view taken at B-B of FIG. 4;

fig. 6 is a partially enlarged view of C in fig. 5.

In the figure: 1-a main body of the incubator; 2-a controllable temperature regulator; 3-a switching assembly; 4-USB interface; 5-butterfly head adjusting screw; 6-positioning the splint; 7-a wiring port; 8-an elastic clamping block; 9-an armrest slot; 10-a limiting rib; 11-a limiting groove; 12-a spring; 13-a spring post; 14-a base; 15-graphene heating plates; 16-a lithium battery; 17-microwell; 18-foam insulation layer.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution:

the utility model provides a portable lithium cell heating insulation can, includes insulation can main part 1, 1 outside top of insulation can main part is provided with controllable temperature regulator 2 and switch module 3, 1 outside front end of insulation can main part is provided with USB interface 4, 1 outside front side both ends and the rear side both ends of insulation can main part are connected with butterfly head adjusting screw 5 respectively, 1 outside left and right sides of insulation can main part is provided with wiring port 7 respectively, wiring port 7's fit in has two elasticity clamp splice 8, the outside surface of elasticity clamp splice 8 is provided with handrail groove 9, the bottom of insulation can main part 1 is provided with base 14, the inside top of insulation can main part 1 is provided with lithium cell 15 and graphite alkene electric heat piece 16.

The positions of two butterfly-head adjusting screws 5 on the front side of the outer portion of the heat preservation box main body 1 correspond to the positions of two butterfly-head adjusting screws 5 on the rear side of the outer portion of the heat preservation box main body 1, a positioning clamp plate 6 is fixed at the end of each butterfly-head adjusting screw 5, and the positioning clamp plate 6 is located inside the heat preservation box main body 1. When the unmanned aerial vehicle battery was located insulation can main part 1's inside, rotatory butterfly head adjusting screw 5 everywhere respectively, under the effect of locating clamping plate 6, can press from both sides the unmanned aerial vehicle battery tight fixedly to this stability of guaranteeing the unmanned aerial vehicle battery. Wherein, but the unmanned aerial vehicle battery of the fixed not unidimensional model of locating splint 6 centre gripping, it has good use flexibility.

The top and the bottom of the elastic clamping block 8 are respectively fixed with a limiting rib 10, wherein the limiting rib 10 is positioned in a limiting groove 11, a spring 12 is arranged in the limiting groove 11, two ends of the spring 12 are respectively limited on a spring column 13, and the spring column 13 is respectively fixed on the limiting rib 10 and in the limiting groove 11. The wiring port 7 mainly used link up the wiring between unmanned aerial vehicle battery and the unmanned aerial vehicle, and its electric wire connects the back from wiring port 7, and two elastic clamping blocks 8 can be fixed with the electric wire centre gripping under the elastic action of spring 12, can effectively avoid the electric wire in disorder, have also reduced the open area of wiring port 7 department to a certain extent, have reduced thermal scattering and disappearing, have improved the heat preservation effect.

Controllable temperature regulator 2 is the control center of heat preservation box main part 1, and switch module 3, lithium cell 15 and graphite alkene electric heat piece 16 all with controllable temperature regulator 2 electric connection. Send the instruction to controllable temperature regulator 2 through switch module 3, adjustable graphite alkene electric heat piece 16 generate heat the temperature to this reaches the optimum operating temperature of unmanned aerial vehicle battery.

The lithium battery 15 is electrically connected with the USB interface 4. The lithium battery 15 mainly supplies power to electronic components in the incubator main body 1, and the lithium battery 15 can be charged through the USB interface 4.

Screw holes are formed in two ends of the outer side of the base 14, and an opening is formed in the base 14; the base 14 is connected to the inside of the incubator body 1 through an opening thereof. Because the opening has been seted up to the inside of base 14, need not to dismantle the unmanned aerial vehicle battery when the installation, can directly cover on the unmanned aerial vehicle battery, through installation screw in base 14 to make insulation can main part 1 fixed.

A plurality of micropores 17 are uniformly formed at the bottom of the graphene electric heating sheet 16; the graphene electric heating sheet 16 is communicated with the interior of the heat preservation box main body 1 through a plurality of micropores 17. When the graphene electric heating sheet 16 works, heat of the graphene electric heating sheet can be rapidly diffused to the micropores 17 through the micropores 17, and heating efficiency of the graphene electric heating sheet is effectively improved.

And foam heat insulation layers 18 are bonded on the inner walls of the periphery inside the incubator main body 1. The foam insulation layer 18 is mainly used for insulation inside the insulation can main body 1, and can enhance the insulation effect.

The utility model discloses a theory of operation:

because the opening has been seted up to the inside of base 14, need not to dismantle the unmanned aerial vehicle battery when the installation, can directly cover on the unmanned aerial vehicle battery, then link up the department of connecing from wiring port 7 with the wiring of unmanned aerial vehicle battery nearby, accessible handrail groove 9 opens two elastic clamping piece 8 when link up the wiring, at last through the mounting screw in base 14 to make heat preservation box main part 1 fixed. Wherein, rotate butterfly head adjusting screw 5 everywhere respectively, under the effect of locating splint 6, can press from both sides the unmanned aerial vehicle battery clamp fixed to this steadiness of unmanned aerial vehicle at the flight in-process battery is guaranteed. Send the instruction to controllable temperature regulator 2 through switch module 3, adjustable graphite alkene electric heat piece 16 generate heat the temperature to this reaches the optimum operating temperature of unmanned aerial vehicle battery. When the graphene electric heating sheet 16 works, heat of the graphene electric heating sheet can be rapidly diffused to the micropores 17 through the micropores 17, and heating efficiency of the graphene electric heating sheet is effectively improved. After the electric wire is connected from the wiring port 7, the two elastic clamping blocks 8 can clamp and fix the electric wire under the elastic action of the spring 12, so that the electric wire is effectively prevented from being messy, the opening area of the wiring port 7 is reduced to a certain extent, the heat loss is reduced, and the heat preservation effect is improved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a portable lithium cell heating insulation can, includes insulation can main part (1), its characterized in that: the utility model discloses a solar energy heat preservation box, including incubator main part (1), rear side, wiring port (7), the inside cooperation of wiring port (7) has two elasticity clamp splice (8), the outside surface of elasticity clamp splice (8) is provided with handrail groove (9), the bottom of incubator main part (1) is provided with base (14), the inside top of incubator main part (1) is provided with lithium cell (15) and graphite alkene electric heat piece (16).

2. The portable lithium battery heating and heat preserving box of claim 1, characterized in that: the positions of the butterfly head adjusting screws (5) on the two sides of the front side of the outer portion of the heat preservation box main body (1) correspond to the positions of the butterfly head adjusting screws (5) on the two sides of the rear side of the outer portion of the heat preservation box main body, a positioning clamping plate (6) is fixed at the end of each butterfly head adjusting screw (5), and the positioning clamping plate (6) is located inside the heat preservation box main body (1).

3. The portable lithium battery heating and heat preserving box of claim 1, characterized in that: the top and the bottom of the elastic clamping block (8) are respectively fixed with a limiting rib (10), wherein the limiting rib (10) is positioned in a limiting groove (11), a spring (12) is arranged in the limiting groove (11), two ends of the spring (12) are respectively limited on a spring column (13), and the spring column (13) is respectively fixed on the limiting rib (10) and in the limiting groove (11).

4. The portable lithium battery heating and heat preserving box of claim 1, characterized in that: the controllable temperature regulator (2) is a control center of the insulation can main body (1), and the switch component (3), the lithium battery (15) and the graphene electric heating sheet (16) are electrically connected with the controllable temperature regulator (2).

5. The portable lithium battery heating and heat preserving box of claim 4, characterized in that: the lithium battery (15) is electrically connected with the USB interface (4).

6. The portable lithium battery heating and heat preserving box of claim 1, characterized in that: screw holes are formed in two ends of the outer side of the base (14), and an opening is formed in the base (14); wherein, the base (14) is communicated with the interior of the heat preservation box main body (1) through the opening.

7. The portable lithium battery heating and heat preserving box of claim 1, characterized in that: a plurality of micropores (17) are uniformly formed in the bottom of the graphene electric heating sheet (16); the graphene electric heating sheet (16) is communicated with the interior of the insulation can main body (1) through a plurality of micropores (17).

8. The portable lithium battery heating and heat preserving box of claim 1, characterized in that: and foam heat-insulating layers (18) are bonded on the inner walls of the periphery inside the heat-insulating box main body (1).

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