CN211403264U - Inside homothermal trades electric cabinet - Google Patents

Abstract

The utility model relates to an inside homothermal trades electric cabinet. The technical scheme of the utility model is that: the battery replacement cabinet comprises a cabinet body, a circulation assembly and a temperature control assembly, wherein the circulation assembly is arranged in the cabinet body, the temperature control assembly is arranged outside the cabinet body, and the temperature control assembly is communicated with the cabinet body; the cabinet body is provided with a plurality of battery bins which are not contacted with each other, a gap between the battery bins forms an air channel, and a gap between the battery bins and the cabinet body forms a circulating channel; the circulating assembly comprises an inner fan and an outer fan, the inner fan is arranged on the side wall of the battery compartment and is communicated with the battery compartment and the air channel, the outer fan is arranged on the side wall of the cabinet body, and the outer fan is arranged in the circulating channel; the temperature control assembly comprises an air conditioner which is communicated with a circulation channel in the cabinet body. An object of the utility model is to provide a can inside constant temperature, heat the refrigeration with the air conditioner, the rethread fan carries out the internal circulation, and every battery compartment all has independent fan moreover, can supply with every battery compartment alone, reaches the inside homothermal battery cabinet that trades of highest constant temperature effect.

Description

Inside homothermal trades electric cabinet

Technical Field

The utility model relates to an inside homothermal trades electric cabinet.

Background

In the existing power change cabinets, some equipment needs to be cooled, insulated and dehumidified to achieve the optimal working state, because for the power change cabinets with extreme working conditions, for example, in very cold, very hot and very humid areas, the working environment of the equipment is very severe, when the temperature is too high, the temperature is increased sharply due to the difficulty in heat dissipation of the equipment, the service life of the equipment is shortened or the equipment is scrapped, if the temperature is too low, the equipment cannot work normally, the existing power change cabinets adopt fans to dissipate heat, which cannot meet the requirements of the existing equipment, have low efficiency and small range, lack of a heating constant temperature function, cause the loss of users due to the small range of the service area of the equipment, and the power change cabinets charge lithium batteries aiming at the lithium batteries, the lithium batteries cannot be charged under the high-temperature or low-temperature environment, and the service life of the power change cabinets can be reduced due to the long-term high-temperature charging, but also causes spontaneous combustion of the lithium battery.

To solve the above problems, a new structure is proposed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can inside constant temperature, heat the refrigeration with the air conditioner, the rethread fan carries out the internal circulation, and every battery compartment all has independent fan moreover, can supply with every battery compartment alone, reaches the inside homothermal battery cabinet that trades of highest constant temperature effect.

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

the battery replacing cabinet with constant internal temperature comprises a cabinet body, a circulating assembly and a temperature control assembly, wherein the circulating assembly is arranged in the cabinet body, the temperature control assembly is arranged outside the cabinet body, and the temperature control assembly is communicated with the cabinet body; the cabinet body is provided with a plurality of battery bins which are not in contact with each other, a gap between the battery bins forms an air channel, and a gap between the battery bins and the cabinet body forms a circulating channel; the circulating assembly comprises an inner fan and an outer fan, the inner fan is arranged on the side wall of the battery compartment and is communicated with the battery compartment and the air channel, the outer fan is arranged on the side wall of the cabinet body, and the outer fan is arranged in the circulating channel; the temperature control assembly comprises an air conditioner which is communicated with a circulation channel in the cabinet body.

The inside constant-temperature battery replacement cabinet adopting the technical scheme is internally provided with the circulating component, the temperature control component is arranged outside the cabinet body, the temperature of the battery bins is mainly controlled by the temperature which needs to be controlled, the battery bins are not contacted with each other, an air channel is formed by gaps between the battery bins, the temperature in the air channel can be effectively controlled to be increased or reduced, the circulating channel formed by the gaps between the battery bins and the cabinet body is used for supplementing or extracting air in the air channel to form integral temperature regulation, the circulating component is provided with the inner fan and the outer fan, the inner fan is used for better regulating and controlling the temperature of the air in the battery bins, the outer fan is used for better flowing the air in the circulating channel, and the air conditioner of the temperature control component is communicated with the circulating channel, so when the temperature control is needed, the temperature regulation of the air conditioner is assisted by the action of the outer fan and the inner fan, the effect of constant temperature inside can be achieved.

When the temperature in the cabinet body needs to be controlled, if the temperature is in summer, the air conditioner refrigerates and conveys cold air into the circulating channel, at the moment, the outer fan operates to push the cold air entering the circulating channel, so that the cold air flows and moves along the circulating channel to be supplemented into the air inlet channel, at the moment, the inner fan of the battery compartment is started to blow the cold air in the air channel into the battery compartment, the battery compartment is ensured to be always at an appropriate temperature, and the batteries in the battery compartment are ensured to be in a constant temperature state; when the air conditioner heats in winter, the air conditioner transmits hot air into the circulating channel, the outer fan operates at the moment, the hot air entering the circulating channel is pushed, the hot air flows, the hot air advances along the circulating channel and is supplemented into the air inlet channel, the inner fan of the battery compartment is started at the moment, the hot air in the air channel is blown into the battery compartment, the battery compartment is guaranteed to be always at an appropriate temperature, and the batteries in the battery compartment are guaranteed to be in a constant temperature state.

As an improved technical scheme of the utility model:

the outer fans are arranged on four corners in the front face of the cabinet body, the wind directions between the outer fans are opposite end to end, and the wind directions in the circulating channels flow in the clockwise direction.

Set up the outer fan on four corners in the cabinet body facade, and wind direction head and the tail between the outer fan is relative, finally make the wind direction in the circulation way be clockwise direction flow, the setting can make the wind in the circulation way can be fixed direction and flow on four corners, keep the wind direction that the invariable direction flows, can reduce air conditioning or steam energy consumption in the circulation way on the one hand, also can form one and keep the effect that specific direction flows and carry out the replenishment to the wind channel, also can conveniently learn the wind direction disorder that causes when wherein certain outer fan damages simultaneously, thereby make things convenient for the staff to carry out timely replacement.

As an improved technical scheme of the utility model:

the cabinet body is provided with a vent hole which is communicated with the circulating channel.

The air vent that is equipped with on the cabinet body can be discharged the internal unnecessary gas of cabinet, also can follow the outside of the cabinet body in time simultaneously and absorb the air and supply to the internal of cabinet, avoids the internal closed condition that is in for a long time of cabinet, especially when the temperature is suitable, can directly let the internal air convection of cabinet through the air vent, guarantees that the internal temperature of cabinet is unanimous basically with air temperature, can not use the air conditioner to carry out the regulation and control of temperature under this condition, reduces the loss of resource.

As an improved technical scheme of the utility model:

the air conditioner is provided with a communication interface of an RS485 or CAN bus or a TTL serial port.

The communication interface of RS485 or CAN bus or TTL serial ports that the air conditioner has CAN make things convenient for the remote control after air conditioner and host computer are connected, CAN make things convenient for the staff to carry out artificial temperature regulation and control.

As an improved technical scheme of the utility model:

the temperature control assembly further comprises a temperature sensor, the temperature sensor is arranged in the battery bin, and the temperature sensor is electrically connected with the air conditioner.

The temperature sensor arranged in the temperature control assembly can more directly acquire the temperature value in the battery compartment, so that more accurate temperature regulation and control can be carried out.

After the structure is adopted, the utility model discloses beneficial effect does:

adopt this technical scheme's inside homothermal trade electric cabinet, the space between the battery compartment forms the wind channel, can control effectively and improve or reduce the temperature in the wind channel, and the circulation way is then for supplementing or take out the air in the wind channel, form holistic temperature regulation and control, the air temperature in the battery compartment and the air in the circulation way can be regulated and control better to interior fan and outer fan's setting flows, the setting of air conditioner can be when needs carry out the control by temperature change, temperature regulation through the air conditioner, the effect of outer fan and inner fan is assisted again, can accomplish inside homothermal effect.

Drawings

Fig. 1 is a front perspective view of a modular assembly of the battery changing cabinet with a constant internal temperature of the present invention;

fig. 2 is a bottom perspective view of the modular components of the interior thermostatic battery changing cabinet of the present invention;

fig. 3 is the air duct circulation schematic diagram of the modular assembly of the battery changing cabinet with constant internal temperature.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1-3, an interior constant-temperature battery replacement cabinet comprises a cabinet body 1, a circulation assembly 2 and a temperature control assembly 3, wherein the circulation assembly 2 is arranged in the cabinet body 1, the temperature control assembly 3 is arranged outside the cabinet body 1, and the temperature control assembly 3 is communicated with the cabinet body 1; a plurality of battery bins 11 are arranged on the cabinet body 1, the battery bins 11 are not in contact with each other, an air channel 4 is formed by the gaps between the battery bins 11, and a circulating channel 5 is formed by the gaps between the battery bins 11 and the cabinet body 1; the circulation assembly 2 comprises an inner fan 21 and an outer fan 22, the inner fan 21 is arranged on the side wall of the battery compartment 11, the inner fan 21 is communicated with the battery compartment 11 and the air channel 22, the outer fan 22 is arranged on the side wall of the cabinet body 1, and the outer fan 22 is arranged in the circulation channel 5; the temperature control assembly 3 comprises an air conditioner 31, and the air conditioner 31 is communicated with a circulation channel 5 in the cabinet body 1.

The outer fans 22 are arranged on four corners in the front face of the cabinet body 1, the wind directions among the outer fans 22 are opposite end to end, and the wind direction in the circulation channel 5 flows in a clockwise direction.

The cabinet body 1 is provided with a vent hole 12, and the vent hole 12 is communicated with the circulating channel 5.

The air conditioner 31 is provided with a communication interface of an RS485 or CAN bus or a TTL serial port.

The temperature control assembly 3 further comprises a temperature sensor 32, the temperature sensor 32 is arranged in the battery compartment 11, and the temperature sensor 32 is electrically connected with the air conditioner 31.

The inside constant-temperature battery replacing cabinet adopting the technical scheme is characterized in that a circulating component 2 is arranged in a cabinet body 1, a temperature control component 3 is arranged outside the cabinet body 1, the temperature of a battery bin 11 is mainly controlled, so that the battery bins 11 are not contacted with each other, an air channel 4 is formed by gaps between the battery bins to effectively control and increase or decrease the temperature in the air channel 4, a circulating channel 5 formed by the gaps between the battery bins 11 and the cabinet body 1 is used for supplementing or extracting air in the air channel 4 to form integral temperature regulation, an inner fan 21 and an outer fan 22 are arranged on the circulating component 2, the inner fan 21 is used for better regulating and controlling the temperature of the air in the battery bin 11, the outer fan 22 is used for better flowing the air in the circulating channel 5, and because an air conditioner 31 of the temperature control component 3 is communicated with the circulating channel 5, when the temperature control is required, the temperature is regulated by the air conditioner 31, and the effect of constant temperature inside can be achieved by the aid of the functions of the outer fan 22 and the inner fan 21.

When the temperature control in the cabinet 1 is needed, if in summer, the air conditioner 31 refrigerates and sends cold air into the circulation duct 5, at this time, the outer fan 22 operates to push the cold air entering the circulation duct 5, so that the cold air flows and moves along the circulation duct 5 to supplement the air into the air inlet duct 4, at this time, the inner fan 21 of the battery compartment 11 is started to blow the cold air in the air duct 4 into the battery compartment 11, thereby ensuring that the battery compartment 11 is always at an appropriate temperature and the battery in the battery compartment 11 is at a constant temperature state; in winter, the air conditioner 31 heats and conveys hot air into the circulating channel 5, at this time, the outer fan 22 operates to push the hot air entering the circulating channel 5, so that the hot air flows up and advances along the inside of the circulating channel 5 to supplement the air into the air inlet channel 4, at this time, the inner fan 21 of the battery compartment 11 is started to blow the hot air in the air channel 4 into the battery compartment 11, so as to ensure that the battery compartment 11 is always at an appropriate temperature and the batteries in the battery compartment 11 are at a constant temperature state.

Set up outer fan 22 on four corners in the cabinet body 1 front, and wind direction between the outer fan 22 is end to end relative, finally make the wind direction in the circulation way 5 be clockwise direction flow, the setting can make the wind in the circulation way 5 can be fixed direction and flow on four corners, keep the wind direction that the constant direction flows, can reduce air conditioning or the energy consumption of steam in the circulation way 5 on the one hand, also can form one and keep the effect that specific direction flows and carry out the replenishment to wind channel 4, also can conveniently learn the wind direction disorder that causes when wherein certain outer fan 22 damages simultaneously, thereby make things convenient for the staff to carry out timely replacement.

The vent hole 12 that is equipped with on the cabinet body 1 can be discharged the interior unnecessary gas of cabinet body 1, also can in time follow the outside of the cabinet body 1 simultaneously and absorb the air and supply in the cabinet body 1, avoid being in the closed condition for a long time in the cabinet body 1, especially when the temperature is suitable, can directly let the air convection in the cabinet body 1 through vent hole 12, guarantee that the temperature in the cabinet body 1 is unanimous basically with the air temperature, can not use air conditioner 31 to carry out the regulation and control of temperature under this condition, reduce the loss of resource.

The communication interface of the RS485 or CAN bus or TTL serial port of the air conditioner 31 CAN facilitate the remote control of the air conditioner 31 after being connected with an upper computer, and CAN facilitate the manual temperature regulation and control of workers.

The temperature sensor 32 arranged in the temperature control component 3 can more directly acquire the temperature value in the battery compartment 11, so that more accurate temperature regulation and control can be carried out.

The above description is only for the preferred embodiment of the present invention, and the above preferred embodiment is not intended to limit the scope of the present invention; all changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (5)

1. The battery replacing cabinet with the constant internal temperature is characterized by comprising a cabinet body, a circulating assembly and a temperature control assembly, wherein the circulating assembly is arranged in the cabinet body, the temperature control assembly is arranged outside the cabinet body, and the temperature control assembly is communicated with the cabinet body; the cabinet body is provided with a plurality of battery bins which are not in contact with each other, a gap between the battery bins forms an air channel, and a gap between the battery bins and the cabinet body forms a circulating channel; the circulating assembly comprises an inner fan and an outer fan, the inner fan is arranged on the side wall of the battery compartment and is communicated with the battery compartment and the air channel, the outer fan is arranged on the side wall of the cabinet body, and the outer fan is arranged in the circulating channel; the temperature control assembly comprises an air conditioner which is communicated with a circulation channel in the cabinet body.

2. The inside homothermal trade battery cabinet of claim 1, characterized in that: the outer fans are arranged on four corners in the front face of the cabinet body, the wind directions between the outer fans are opposite end to end, and the wind directions in the circulating channels flow in the clockwise direction.

3. The inside homothermal trade battery cabinet of claim 1, characterized in that: the cabinet body is provided with a vent hole which is communicated with the circulating channel.

4. The inside homothermal trade battery cabinet of claim 1, characterized in that: the air conditioner is provided with a communication interface of an RS485 or CAN bus or a TTL serial port.

5. The interior thermostatic battery changing cabinet according to any one of claims 1 to 4, characterized in that: the temperature control assembly further comprises a temperature sensor, the temperature sensor is arranged in the battery bin, and the temperature sensor is electrically connected with the air conditioner.

Images