CN117529064B - Outdoor power supply with temperature control and explosion prevention functions and temperature adjusting method - Google Patents

Abstract

The invention relates to an outdoor power supply with temperature control and explosion prevention and a temperature regulation method, which comprises an explosion prevention middle shell and a power supply shell, wherein a power supply body is arranged in the explosion prevention middle shell; the explosion-proof middle shell is sleeved with an adjusting sleeve, the lower end of the adjusting sleeve is provided with a supporting seat, the upper end of the adjusting sleeve is provided with a metal adjusting plate, and the inner top of the power supply shell is provided with a lifting unit; the adjusting sleeve is formed by encircling four wavy folding heat conducting plates, and the end part of the folding heat conducting plate, which is close to the bending part on one side of the explosion-proof middle shell, is longitudinally and slidably connected with the outer surface of the explosion-proof middle shell through a sliding rail; the sliding rail is provided with a plurality of air outlet holes, an air inlet channel is arranged in the sliding rail, and the supporting seat is provided with a fan assembly for supplying heat dissipation gas to the air inlet channels; the structure of application this application, rational in infrastructure and compact, small, control is adjusted conveniently, can provide reliable heat dissipation, heat preservation and explosion-proof performance for outdoor power supply to the effectual adaptability that promotes outdoor power supply.

Description

Outdoor power supply with temperature control and explosion prevention functions and temperature adjusting method

Technical Field

The invention relates to the technical field of outdoor power supplies, in particular to an outdoor power supply with temperature control and explosion prevention and a temperature regulation method.

Background

With the increasing rise of outdoor life, an outdoor power supply serving as one of the cores of outdoor equipment is also developed at a high speed, but the outdoor environment, particularly the temperature environment, may be greatly changed, and the existing outdoor power supply mostly only has a single heat preservation or heat dissipation function, so that users often need to prepare a plurality of outdoor power supplies to cope with different use scenes, the power supply utilization rate is relatively low, resource waste is brought, and an outdoor power supply capable of carrying out heat preservation and heat dissipation functions is needed.

Disclosure of Invention

The invention aims to solve the technical problems of the prior art and provides an outdoor power supply with temperature control and explosion prevention and a temperature adjusting method.

The technical scheme adopted for solving the technical problems is as follows:

an outdoor power supply with temperature control and explosion prevention is constructed, wherein the outdoor power supply comprises an explosion-proof middle shell and a power supply shell arranged outside the explosion-proof middle shell, and a power supply body is arranged in the explosion-proof middle shell; the explosion-proof middle shell is sleeved with an adjusting sleeve, the lower end of the adjusting sleeve is provided with a supporting seat for supporting the explosion-proof middle shell, the upper end of the adjusting sleeve is provided with a metal adjusting plate, and the inner top of the power supply shell is provided with a lifting unit for adjusting the lifting of the metal adjusting plate; the adjusting sleeve is formed by enclosing four wavy folding heat conducting plates, and the end part of the folding heat conducting plate, which is close to the bending part of one side of the explosion-proof middle shell, is longitudinally and slidably connected with the outer surface of the explosion-proof middle shell through a sliding rail; the sliding rail is provided with a plurality of air outlet holes, an air inlet channel communicated with the air outlet holes is arranged in the sliding rail, and the supporting seat is provided with a fan assembly for supplying heat dissipation gas to the air inlet channels; the support seat is provided with a pulling switch for controlling the operation of the fan assembly and an elastic reset piece for assisting the pulling switch to reset, and the pulling switch controls the fan assembly to be closed when being pulled to a set degree; the metal adjusting plate is provided with a low-temperature heating wire component and a trigger switch for controlling the low-temperature heating wire component to be electrified, and the trigger switch is triggered when the metal adjusting plate is driven by the lifting unit to rise to the highest position.

The outdoor power supply with the temperature control and explosion prevention functions, provided by the invention, is characterized in that the sliding rail bulge is arranged on the surface of the explosion prevention middle shell; a plurality of movable grooves are formed in one side, which is attached to the explosion-proof middle shell, of the sliding rail; the folding heat-conducting plate comprises folding blades, each bending part of each folding blade is provided with a movable rotating shaft, the movable rotating shafts on one side, close to the explosion-proof middle shell, of the folding heat-conducting plate are located in the movable grooves in a one-to-one correspondence mode, and the folding blades are provided with strip-shaped through grooves for accommodating the sliding rails.

The outdoor power supply with the temperature control and explosion prevention functions, provided by the invention, is characterized in that the air inlet channel is arranged on one side of the sliding rail, which is away from the explosion prevention middle shell, and a plurality of air outlet holes are distributed on the left side and the right side of the sliding rail.

The invention relates to an outdoor power supply with temperature control and explosion prevention, wherein a fan assembly comprises an air chamber arranged in a supporting seat and a fan arranged in the air chamber; the air chamber is provided with an air inlet pipe communicated with the outside of the power supply shell and a plurality of air outlet pipes communicated with the air inlet channels in a one-to-one correspondence manner; the fan is used for sucking outside air into the air chamber through the air inlet pipe.

The invention relates to an outdoor power supply with temperature control and explosion prevention, wherein the middle part of a metal regulating plate is provided with an upward convex hull, and the convex hull is internally provided with a low-temperature heating wire component.

The invention relates to an outdoor power supply with temperature control and explosion prevention, wherein a transverse adjusting through groove is formed in a convex hull; the lifting unit comprises an adjusting cam extending into the adjusting through groove, a stepping motor driving the adjusting cam and a guide assembly for lifting and guiding the metal adjusting plate.

The invention relates to an outdoor power supply with temperature control and explosion prevention, wherein a control panel is arranged on the upper surface of a power supply shell, and both a lifting unit and a power supply body are controlled by the control panel.

The outdoor power supply temperature adjusting method with the temperature control and the explosion prevention is applied to the outdoor power supply with the temperature control and the explosion prevention, and comprises the following steps:

when heat preservation is needed, the lifting unit is controlled to operate so as to drive the metal adjusting plate to rise to the highest position, the trigger switch is triggered, the low-temperature heating wire assembly is operated so as to enable the temperature of the metal adjusting plate to rise, the folding heat conducting plate is straightened and attached to the explosion-proof middle shell, the pull switch is pulled so as to enable the fan assembly to be closed, heat of the metal adjusting plate is conducted to the explosion-proof middle shell through the folding heat conducting plate, a heat preservation environment is provided for the power supply body, and the external low-temperature environment is resisted;

when heat dissipation is needed, the lifting unit is controlled to operate so as to drive the metal adjusting plate to descend to a set position, at the moment, the folding heat conducting plate is restored to be in a wave shape, the trigger switch is in an un-triggered state, the trigger switch is pulled to reset under the action of the elastic reset piece, the fan assembly is started to operate so as to supply heat dissipation gas to the air inlet channels, the heat dissipation gas overflows into each wave-shaped groove of the folding heat conducting plate through the plurality of air outlet holes on the sliding rail, overflows from two ends of the wave-shaped groove, and heat on the explosion-proof middle shell is taken away so as to achieve the heat dissipation purpose;

when heat preservation and heat dissipation are not needed, the power supply to the low-temperature heating wire component and the fan component is disconnected.

The invention has the beneficial effects that: when heat preservation is needed, the lifting unit is controlled to operate so as to drive the metal adjusting plate to rise to the highest position, the trigger switch is triggered, the low-temperature heating wire assembly is operated so as to enable the temperature of the metal adjusting plate to rise, the folding heat conducting plate is straightened and attached to the explosion-proof middle shell, the pull switch is pulled so as to enable the fan assembly to be closed, heat of the metal adjusting plate is conducted to the explosion-proof middle shell through the folding heat conducting plate, a heat preservation environment is provided for the power supply body, and the external low-temperature environment is resisted; when heat dissipation is needed, the lifting unit is controlled to operate so as to drive the metal adjusting plate to descend to a set position, at the moment, the folding heat conducting plate is restored to be in a wave shape, the trigger switch is in an un-triggered state, the trigger switch is pulled to reset under the action of the elastic reset piece, the fan assembly is started to operate so as to supply heat dissipation gas to the air inlet channels, the heat dissipation gas overflows into each wave-shaped groove of the folding heat conducting plate through the plurality of air outlet holes on the sliding rail, overflows from two ends of the wave-shaped groove, and heat on the explosion-proof middle shell is taken away so as to achieve the heat dissipation purpose; when heat preservation and heat dissipation are not needed, the power supply to the low-temperature heating wire component and the fan component is disconnected; the structure of application this application, rational in infrastructure and compact, small, control is adjusted conveniently, can provide reliable heat dissipation, heat preservation and explosion-proof performance for outdoor power supply to the effectual adaptability that promotes outdoor power supply.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, in which the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained by those skilled in the art without inventive effort:

FIG. 1 is a cross-sectional view of a preferred embodiment of the present invention with temperature control and explosion proof outdoor power source configuration;

FIG. 2 is a schematic view showing a sliding rail passing through a folded heat conducting plate with temperature control and explosion protection for outdoor power supply according to a preferred embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of an outdoor power supply rail with temperature control and explosion protection in accordance with a preferred embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more clear, the following description will make the embodiments described as some, but not all, of the embodiments of the present invention more clear. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present invention, based on the embodiments of the present invention.

The outdoor power supply with temperature control and explosion prevention in the preferred embodiment of the invention is shown in fig. 1, and simultaneously referring to fig. 2 and 3, the outdoor power supply comprises an explosion-proof middle shell 1 and a power supply shell 2 arranged outside the explosion-proof middle shell, wherein a power supply body 3 is arranged in the explosion-proof middle shell 1; an adjusting sleeve is sleeved outside the explosion-proof middle shell 1, a supporting seat 5 for supporting the explosion-proof middle shell 1 is arranged at the lower end of the adjusting sleeve, a metal adjusting plate 6 is arranged at the upper end of the adjusting sleeve, and a lifting unit 7 for adjusting the lifting of the metal adjusting plate is arranged at the inner top of the power supply shell 2; the adjusting sleeve is formed by enclosing four wavy folding heat-conducting plates 40, and the end part of the folding heat-conducting plate 40, which is close to the bending part of one side of the explosion-proof middle shell 1, is longitudinally and slidably connected with the outer surface of the explosion-proof middle shell 1 through a sliding rail 8; the sliding rail 8 is provided with a plurality of air outlet holes 80, an air inlet channel 81 communicated with the plurality of air outlet holes 80 is arranged in the sliding rail 8, and the supporting seat 5 is provided with a fan assembly 9 for supplying heat dissipation gas to the plurality of air inlet channels 81; the support seat 5 is provided with a pulling switch 50 for controlling the operation of the fan assembly 9 and an elastic reset piece 51 for assisting the reset of the pulling switch, and the pulling switch 50 controls the fan assembly 9 to be closed when being pulled to a set degree; the metal adjusting plate 6 is provided with a low-temperature heating wire assembly 60 and a trigger switch 61 for controlling the low-temperature heating wire assembly 60 to be electrified, and the trigger switch 61 is triggered when the metal adjusting plate 6 is driven by the lifting unit 7 to rise to the highest position;

when heat preservation is needed, the lifting unit 7 is controlled to operate to drive the metal adjusting plate 6 to rise to the highest position, the trigger switch 61 is triggered, the low-temperature heating wire assembly 60 is operated to enable the temperature of the metal adjusting plate 6 to rise, the folding heat conducting plate 40 is straightened and attached to the explosion-proof middle shell 1, the pulling switch 50 is pulled to enable the fan assembly 9 to be closed, heat of the metal adjusting plate 6 is conducted to the explosion-proof middle shell 1 through the folding heat conducting plate 40, a heat preservation environment is provided for the power supply body 3, and the external low-temperature environment is resisted; when heat dissipation is needed, the lifting unit 7 is controlled to operate so as to drive the metal adjusting plate 6 to descend to a set position, at the moment, the folding heat conducting plate 40 is restored to be in a wave shape, the trigger switch 61 is in an un-triggered state, the pull switch 50 is reset under the action of the elastic reset piece 51, the fan assembly 9 is started to operate so as to supply heat dissipation gas to the plurality of air inlet channels 81, the heat dissipation gas overflows into each wave-shaped groove of the folding heat conducting plate 40 through the plurality of air outlet holes 80 on the sliding rail 8 and overflows from two ends of the wave-shaped groove, and heat on the explosion-proof middle shell 1 is taken away (the fact that in the heat dissipation state, the folding heat conducting plate 40 plays a role of forming a plurality of heat dissipation air passages which are clung to the surface of the explosion-proof middle shell as much as possible, and meanwhile, the heat dissipation efficiency can be well guaranteed), and the heat dissipation purpose is achieved; when heat preservation and heat dissipation are not needed, the power supply to the low-temperature heating wire assembly 60 and the fan assembly 9 is disconnected;

the structure of application this application, rational in infrastructure and compact, small, control is adjusted conveniently, can provide reliable heat dissipation, heat preservation and explosion-proof performance for outdoor power supply to the effectual adaptability that promotes outdoor power supply.

Preferably, the sliding rail 8 is convexly arranged on the surface of the explosion-proof middle shell 1; a plurality of movable slots 82 are formed in one side, which is attached to the explosion-proof middle shell 1, of the sliding rail 8; the folding heat-conducting plate 40 comprises folding blades 400, each bending position of the folding blades 400 is provided with a movable rotating shaft 401, the movable rotating shafts 401 on one side of the folding heat-conducting plate 40, which is close to the explosion-proof middle shell 1, are located in the movable slots 82 in a one-to-one correspondence manner, and the folding blades 400 are provided with strip-shaped through slots 402 for accommodating the sliding rails 8; by adopting the structural design, the movable slotting 82 can provide the movable rotating shaft 401 with movement, and simultaneously limit the position of the movable rotating shaft 401 to be always attached to the surface of the explosion-proof middle shell 1, so that the folding heat-conducting plate 40 is ensured to be attached to the explosion-proof middle shell 1 in an unfolding state and a folding state; the opening of the strip-shaped through groove 402 is to allow the sliding rail 8 to pass through the strip-shaped through groove 402 when the folded heat-conducting plate 40 is fully unfolded, so as to avoid the expansion being blocked by the sliding rail 8.

Preferably, the air inlet channel 81 is arranged at one side of the sliding rail 8 away from the explosion-proof middle shell 1, and the plurality of air outlet holes 80 are distributed at the left side and the right side of the sliding rail 8; the slide rail 8 can be arranged in the middle of the side surface of the explosion-proof middle shell 1, and in the heat dissipation state, the air outlet holes 80 are used for air outlet from two sides, which is beneficial to improving the heat dissipation efficiency.

Preferably, the fan assembly 9 includes an air chamber 90 provided in the support base 5 and a fan 91 provided in the air chamber 90; the air chamber 90 is provided with an air inlet pipe 92 communicated with the outside of the power supply shell 2 and a plurality of air outlet pipes 93 communicated with the air inlet channels in a one-to-one correspondence manner; the fan 91 is used for sucking outside air into the air chamber through the air inlet pipe 92; simple structure, good air inlet reliability and convenient control.

Preferably, the middle part of the metal adjusting plate 6 is provided with a convex hull 62 which is convex upwards, and a low-temperature heating wire assembly 60 is arranged in the convex hull 62; the convex hull 62 is provided with a transverse adjusting through groove 63; the lifting unit 7 comprises an adjusting cam 70 extending into the adjusting through groove, a stepping motor 71 driving the adjusting cam 70, and a guide assembly 72 (a guide shaft assembly, a guide rail assembly and the like can be adopted) for lifting and guiding the metal adjusting plate; the cam mechanism drives the metal adjusting plate 6, so that lifting stability can be well guaranteed, the convex hull 62 is arranged to provide installation space for the low-temperature heating wire assembly 60, heat waste of the low-temperature heating wire assembly 60 is reduced, a foundation is provided for forming the adjusting through groove 63, and the metal adjusting plate is convenient to cooperate with the lifting unit 7, and the metal adjusting plate is good in integrity.

Preferably, the upper surface of the power supply housing 2 is provided with a control panel 20, and the lifting unit 7 and the power supply body 3 are controlled by the control panel 20, so that control operation is facilitated.

The outdoor power supply temperature adjusting method with the temperature control and the explosion prevention is applied to the outdoor power supply with the temperature control and the explosion prevention, and comprises the following steps:

when heat preservation is needed, the lifting unit is controlled to operate so as to drive the metal adjusting plate to rise to the highest position, the trigger switch is triggered, the low-temperature heating wire assembly is operated so as to enable the temperature of the metal adjusting plate to rise, the folding heat conducting plate is straightened and attached to the explosion-proof middle shell, the pull switch is pulled so as to enable the fan assembly to be closed, heat of the metal adjusting plate is conducted to the explosion-proof middle shell through the folding heat conducting plate, a heat preservation environment is provided for the power supply body, and the external low-temperature environment is resisted;

when heat dissipation is needed, the lifting unit is controlled to operate so as to drive the metal adjusting plate to descend to a set position, at the moment, the folding heat conducting plate is restored to be in a wave shape, the trigger switch is in an un-triggered state, the trigger switch is pulled to reset under the action of the elastic reset piece, the fan assembly is started to operate so as to supply heat dissipation gas to the air inlet channels, the heat dissipation gas overflows into each wave-shaped groove of the folding heat conducting plate through the plurality of air outlet holes on the sliding rail, overflows from two ends of the wave-shaped groove, and heat on the explosion-proof middle shell is taken away so as to achieve the heat dissipation purpose;

when heat preservation and heat dissipation are not needed, the power supply to the low-temperature heating wire component and the fan component is disconnected;

by the method, the control and adjustment are convenient, reliable heat dissipation, heat preservation and explosion prevention performance can be provided for an outdoor power supply, and therefore the adaptability of the outdoor power supply is effectively improved.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (8)

1. The outdoor power supply with the temperature control and explosion prevention functions is characterized by comprising an explosion prevention middle shell and a power supply shell arranged outside the explosion prevention middle shell, wherein a power supply body is arranged in the explosion prevention middle shell; the explosion-proof middle shell is sleeved with an adjusting sleeve, the lower end of the adjusting sleeve is provided with a supporting seat for supporting the explosion-proof middle shell, the upper end of the adjusting sleeve is provided with a metal adjusting plate, and the inner top of the power supply shell is provided with a lifting unit for adjusting the lifting of the metal adjusting plate; the adjusting sleeve is formed by enclosing four wavy folding heat conducting plates, and the end part of the folding heat conducting plate, which is close to the bending part of one side of the explosion-proof middle shell, is longitudinally and slidably connected with the outer surface of the explosion-proof middle shell through a sliding rail; the sliding rail is provided with a plurality of air outlet holes, an air inlet channel communicated with the air outlet holes is arranged in the sliding rail, and the supporting seat is provided with a fan assembly for supplying heat dissipation gas to the air inlet channels; the support seat is provided with a pulling switch for controlling the operation of the fan assembly and an elastic reset piece for assisting the pulling switch to reset, and the pulling switch controls the fan assembly to be closed when being pulled to a set degree; the metal adjusting plate is provided with a low-temperature heating wire component and a trigger switch for controlling the low-temperature heating wire component to be electrified, and the trigger switch is triggered when the metal adjusting plate is driven by the lifting unit to rise to the highest position.

2. The outdoor power supply with temperature control and explosion prevention according to claim 1, wherein the sliding rail protrusion is arranged on the surface of the explosion-proof middle shell; a plurality of movable grooves are formed in one side, which is attached to the explosion-proof middle shell, of the sliding rail; the folding heat-conducting plate comprises folding blades, each bending part of each folding blade is provided with a movable rotating shaft, the movable rotating shafts on one side, close to the explosion-proof middle shell, of the folding heat-conducting plate are located in the movable grooves in a one-to-one correspondence mode, and the folding blades are provided with strip-shaped through grooves for accommodating the sliding rails.

3. The outdoor power supply with temperature control and explosion prevention according to claim 2, wherein the air inlet channel is arranged on one side of the sliding rail away from the explosion-proof middle shell, and a plurality of air outlet holes are distributed on the left side and the right side of the sliding rail.

4. The outdoor power supply with temperature control and explosion protection according to claim 3, wherein the fan assembly comprises an air chamber disposed in a support base and a fan disposed in the air chamber; the air chamber is provided with an air inlet pipe communicated with the outside of the power supply shell and a plurality of air outlet pipes communicated with the air inlet channels in a one-to-one correspondence manner; the fan is used for sucking outside air into the air chamber through the air inlet pipe.

5. The outdoor power supply with temperature control and explosion prevention according to any one of claims 1 to 4, wherein a convex hull protruding upwards is arranged in the middle of the metal adjusting plate, and the low-temperature heating wire component is arranged in the convex hull.

6. The outdoor power supply with temperature control and explosion prevention according to claim 5, wherein the convex hull is provided with a transverse adjusting through groove; the lifting unit comprises an adjusting cam extending into the adjusting through groove, a stepping motor driving the adjusting cam and a guide assembly for lifting and guiding the metal adjusting plate.

7. The outdoor power supply with temperature control and explosion protection according to any one of claims 1 to 4, wherein a control panel is provided on an upper surface of the power supply housing, and the lifting unit and the power supply body are controlled by the control panel.

8. A temperature control and explosion-proof outdoor power supply temperature regulation method, which is applied to the outdoor power supply with temperature control and explosion-proof according to any one of claims 1 to 7, and is characterized by comprising the following steps:

when heat preservation is needed, the lifting unit is controlled to operate so as to drive the metal adjusting plate to rise to the highest position, the trigger switch is triggered, the low-temperature heating wire assembly is operated so as to enable the temperature of the metal adjusting plate to rise, the folding heat conducting plate is straightened and attached to the explosion-proof middle shell, the pull switch is pulled so as to enable the fan assembly to be closed, heat of the metal adjusting plate is conducted to the explosion-proof middle shell through the folding heat conducting plate, a heat preservation environment is provided for the power supply body, and the external low-temperature environment is resisted;

when heat dissipation is needed, the lifting unit is controlled to operate so as to drive the metal adjusting plate to descend to a set position, at the moment, the folding heat conducting plate is restored to be in a wave shape, the trigger switch is in an un-triggered state, the trigger switch is pulled to reset under the action of the elastic reset piece, the fan assembly is started to operate so as to supply heat dissipation gas to the air inlet channels, the heat dissipation gas overflows into each wave-shaped groove of the folding heat conducting plate through the plurality of air outlet holes on the sliding rail, overflows from two ends of the wave-shaped groove, and heat on the explosion-proof middle shell is taken away so as to achieve the heat dissipation purpose;

when heat preservation and heat dissipation are not needed, the power supply to the low-temperature heating wire component and the fan component is disconnected.