CN105864907A - Movable radiation heat exchange device - Google Patents

Abstract

The invention discloses a movable radiation heat exchange device. The movable radiation heat exchange device comprises a compressor (1), a first heat exchanger (2) and a second heat exchanger (3) which are sequentially connected and located on the same space, and further comprises an energy storage device (4) corresponding to the first heat exchanger (2) and carrying out heat exchange with the first heat exchanger (2). According to the movable radiation heat exchange device, the problem that in the prior art, the effect becomes poorer and poorer when a movable air conditioner conducts refrigeration or heating for a long time can be solved.

Description

Mobile radiation heat exchange device

technical field

The invention relates to the technical field of mobile air conditioning, in particular to a mobile radiation heat exchange device.

Background technique

Generally, air conditioners are mainly used to cool or heat indoor environments, and are roughly divided into split air conditioners, window air conditioners, and mobile air conditioners.

Split-type air conditioners are generally composed of an indoor unit and an outdoor unit, which are connected by connecting pipelines. The outdoor unit and the indoor unit are relatively fixed and cannot be moved. Although split-type air conditioners are used frequently, when the number of individuals using the air conditioner is small (one or several), not only the effect is slow, but also energy waste will be caused. The window air conditioner integrates the outdoor unit and indoor unit components in the same shell, and is installed on the wall or window through the wall, but has the disadvantages of limited cooling capacity, loud noise, inconvenient maintenance, unsightly appearance and poor safety performance. . The existing mobile air conditioner integrates all components such as the evaporator, condenser, compressor, and fan indoors. This type of air conditioner does not need to be installed and fixed at any position, but can be adjusted at will according to the needs of the human body. Compared with the window machine, it is more flexible. However, since the evaporator and condenser act on the use area at the same time, the effect of cooling or heating for a long time will eventually become worse and worse.

Contents of the invention

The purpose of the present invention is to propose a mobile radiation heat exchange device to solve the problem in the prior art that the effect of the mobile air conditioner is getting worse when cooling or heating for a long time.

According to one aspect of the present invention, a mobile radiation heat exchange device is provided, including a compressor, a first heat exchanger, and a second heat exchanger connected in sequence and located in the same space, and also includes an energy storage device, the energy storage device and the The first heat exchanger is arranged correspondingly, and exchanges heat with the first heat exchanger.

Preferably, the mobile radiation heat exchange device further includes a first throttling device arranged in series between the first heat exchanger and the second heat exchanger.

Preferably, the mobile radiation heat exchange device further includes a second throttling device arranged in series between the first throttling device and the second heat exchanger. To the first non-return valve of the second heat exchanger.

Preferably, a first air pipe stop valve is arranged between the first throttling device and the second throttling device.

Preferably, the energy storage device includes a heat conduction shell and a phase change material built into the heat conduction shell, and the heat conduction shell is in contact with the first heat exchanger.

Preferably, the heat conduction shell is sheathed on the outside of the first heat exchanger, the shell of the heat conduction shell in contact with the first heat exchanger is a heat transfer shell, and the other parts of the shell are thermal insulation shells.

Preferably, the suction end of the compressor is provided with an accumulator.

Preferably, the bottom of the mobile radiation heat exchange device is provided with rollers.

Preferably, the mobile radiant heat exchange device includes an air outlet adjusting device arranged at the air outlet of the second heat exchanger, and the air outlet angle of the air outlet adjusting device is adjustable.

Preferably, a water receiving tray is provided at the bottom of the second heat exchanger and/or the first heat exchanger.

Preferably, the first heat exchanger and the second heat exchanger are respectively arranged at two ends of the maximum interval of the mobile radiation heat exchange device.

The mobile radiation heat exchange device of the present invention includes a compressor, a first heat exchanger, and a second heat exchanger that are sequentially connected and located in the same space, and also includes an energy storage device that is arranged correspondingly to the first heat exchanger, And perform heat exchange with the first heat exchanger. When the mobile radiation heat exchange device is working, the cold energy released by the first heat exchanger can be replaced by the energy storage device, so that the cold energy released by the first heat exchanger can be stored in the energy storage device, avoiding the first heat exchange The heat exchanger releases the cold energy in the surrounding air, reducing the impact on the performance of the second heat exchanger due to the fact that the first heat exchanger and the second heat exchanger are located in the same space, so that the mobile radiation heat exchange device can be used for a long time with high efficiency. to air conditioning.

Description of drawings

The accompanying drawings described here are used to provide a further understanding of the present invention and constitute a part of the application. The schematic embodiments of the present invention and their descriptions are used to explain the present invention and do not constitute improper limitations to the present invention. In the attached picture:

Fig. 1 is a schematic structural diagram of a mobile radiation heat exchange device according to an embodiment of the present invention.

Description of reference signs: 1. Compressor; 2. First heat exchanger; 3. Second heat exchanger; 4. Energy storage device; 5. First throttling device; 6. Second throttling device; 7. The first one-way valve; 8, the first air pipe shut-off valve; 9, the liquid reservoir; 10, the four-way valve; 11, the second air pipe shut-off valve; 12, the fan; 13, the oil-gas separator.

detailed description

In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be understood by those skilled in the art that the present invention may be practiced without these specific details. In other instances, well-known methods, procedures, components and circuits have not been described in detail so as not to obscure the present invention.

Referring to Fig. 1, according to an embodiment of the present invention, the mobile radiation heat exchange device includes a compressor 1, a first heat exchanger 2 and a second heat exchanger 3 connected in sequence and located in the same space, and also includes an energy storage device 4. The energy storage device 4 is arranged corresponding to the first heat exchanger 2 and exchanges heat with the first heat exchanger 2 .

The mobile radiation heat exchange device of the present invention includes a compressor 1, a first heat exchanger 2 and a second heat exchanger 3 connected in sequence and located in the same space, and also includes an energy storage device 4, which is connected to the first heat exchanger. The heat exchanger 2 is arranged correspondingly, and exchanges heat with the first heat exchanger 2 . When the mobile radiation heat exchange device is working, the cold energy released by the first heat exchanger 2 can be replaced by the energy storage device 4, so that the cold energy released by the first heat exchanger 2 can be stored in the energy storage device 4 to avoid The first heat exchanger 2 releases cold energy in the surrounding air, which has a negative effect on air conditioning, and reduces the working performance of the second heat exchanger 3 due to the fact that the first heat exchanger 2 and the second heat exchanger 3 are located in the same space The effect is caused, so that the mobile radiation heat exchange device can play the role of air conditioning with high efficiency for a long time.

In this embodiment, the compressor 1 is connected to the first heat exchanger 2 through the four-way valve 10, so that the cooling and heating conversion of the mobile radiation heat exchange device can be realized through the reversing of the four-way valve 10, This makes the mobile radiation heat exchange device capable of both cooling and heating.

The mobile radiation heat exchange device further includes a first throttling device 5 arranged in series between the first heat exchanger 2 and the second heat exchanger 3 . The first throttling device 5 can throttle the refrigerant when the mobile radiation heat exchange device is cooling or heating, so as to ensure the air conditioning effect of the mobile radiation heat exchange device.

The mobile radiation heat exchange device also includes a second throttling device 6 arranged in series between the first throttling device 5 and the second heat exchanger 3, and the first throttling device 5 is externally connected in parallel with a unit from the first heat exchanger 2. Leading to the first non-return valve 7 leading to the second heat exchanger 3 . Both the first throttling device 5 and the second throttling device 6 here are electronic expansion valves.

When the mobile radiation heat exchange device is in the cooling state, the refrigerant flows out from the compressor 1, passes through the first heat exchanger 2, passes through the first one-way valve 7 and the first throttling device 5, and then passes through the second throttling device 6 into the second heat exchanger 3, during this process, the first throttling device 5 is fully opened, and the second throttling device 6 throttles the refrigerant. Since the throttling effect still exists when the first throttling device 5 is fully opened, the throttling effect of the first throttling device 5 is reduced by the first one-way valve 7, so that the temperature control of the mobile radiation heat exchange device can be more accurate.

When the mobile radiation heat exchange device is in the heating state, the refrigerant flows out from the compressor 1, passes through the second heat exchanger 3, passes through the second throttling device 6, and then passes through the first one-way valve 7 and the first throttle The device 5 enters the first heat exchanger 2, during which the second throttling device 6 is fully opened, the first one-way valve 7 is closed, and the first throttling device 5 throttles the refrigerant.

Preferably, the mobile radiation heat exchange device further includes a fan 12, which is arranged corresponding to the second heat exchanger 3, and is used for accelerating the release of the heat-exchanged air around the second heat exchanger 3 to the target position.

An oil-air separator 13 is also provided at the discharge port of the compressor 1 for separating oil and gas from the refrigerant at the discharge port of the compressor, and returning the separated lubricating oil to the compressor 1 when necessary.

Preferably, a first air pipe stop valve 8 is provided between the first throttle device 5 and the second throttle device 6 , and a second air pipe stop valve 11 is provided between the second heat exchanger 3 and the four-way valve 10 , by setting two gas pipe stop valves, the first heat exchanger 2 and the second heat exchanger 3 can be separated when necessary, so that the first heat exchanger 2 or the second heat exchanger 3 can be replaced or maintained.

The energy storage device 4 includes a heat conduction shell and a phase change material built in the heat conduction shell, and the heat conduction shell is in contact with the first heat exchanger 2 . The heat conduction shell can transfer the heat released by the first heat exchanger 2 to the phase change material during cooling, and be absorbed by the phase change material, thereby preventing the heat from being released to the surrounding environment, and can conduct the heat of the phase change material during heating To the first heat exchanger 2, so as to provide the heat that the first heat exchanger 2 needs to absorb, and prevent the first heat exchanger 2 from directly absorbing the heat of the surrounding environment and having a negative effect on the heating of the second heat exchanger 3.

Preferably, the heat conduction shell is set outside the first heat exchanger 2, the shell of the heat conduction shell in contact with the first heat exchanger 2 is a heat transfer shell, and the shells of other parts are heat preservation shells, which can prevent the energy storage device from 4. Perform heat exchange with the surrounding environment, improve the heat storage effect of the energy storage device 4 on the first heat exchanger 2, further improve the air conditioning performance of the mobile radiation heat exchange device, and effectively prolong the effective running time of the mobile radiation heat exchange device.

The phase change material of the energy storage device 4 can undergo phase change in other places in advance according to the needs of the mobile radiation heat exchange device, thereby improving the heat exchange effect between the energy storage device 4 and the first heat exchanger 2, and improving the mobile radiation heat exchange device performance.

The suction end of the compressor 1 can also be provided with a liquid accumulator 9, so that the gas-liquid separation of the refrigerant entering the suction end of the compressor 1 can be carried out, so as to prevent the liquid refrigerant from entering the suction end of the compressor 1 and affecting the compression. Machine 1 is damaged.

Preferably, the bottom of the mobile radiation heat exchange device is provided with rollers, so that the mobile performance of the mobile radiation heat exchange device can be improved conveniently. Preferably, the roller is a universal wheel.

Preferably, sensors can also be added to the mobile radiation heat exchange device, so that the mobile radiation heat exchange device can realize intelligent control of movement and improve the intelligence of the mobile radiation heat exchange device.

This mobile radiation heat exchange device can be applied to specific scenes such as indoor environments where there are fewer people and kitchens. The angle of the air outlet can be adjusted, and it can be moved intelligently or manually to the desired position to achieve effective temperature control for users and meet the needs of different groups of people. Refrigeration equipment differentiated needs, and can achieve the purpose of energy saving.

Preferably, the mobile radiant heat exchange device includes an air outlet adjusting device arranged at the air outlet of the second heat exchanger 3 , and the air outlet angle of the air outlet adjusting device is adjustable. When using the mobile radiation heat exchange device, the air outlet angle can be adjusted through the air outlet adjustment device, so that the air outlet of the mobile radiation heat exchange device can better meet the needs of users and improve the comfort of use of the mobile radiation heat exchange device .

Preferably, a water receiving tray is provided at the bottom of the second heat exchanger 3 and/or the first heat exchanger 2 . During the working process of the first heat exchanger 2 and the second heat exchanger 3, the surface of the heat exchanger in the condensed state is easy to generate condensed water. If the condensed water drops on the ground, it will pollute the user's ground. Therefore, this problem can be solved by setting a water receiving tray, so as to improve the cleanliness of the mobile radiation heat exchange device during use.

Preferably, the first heat exchanger 2 and the second heat exchanger 3 are respectively arranged at the two ends of the maximum interval of the mobile radiation heat exchange device, so as to minimize the impact of the first heat exchanger 2 on the second heat exchanger during operation. The negative impact caused by the heat exchanger 3 improves the air conditioning effect of the second heat exchanger 3 .

During cooling operation, the refrigerant circulation direction remains unchanged, but the first heat exchanger 2 changes the way of heat exchange with the air, and the energy storage device 4 is connected to the pipeline to store heat for the heat storage material, avoiding the increase of the ambient temperature; Similarly, during the heating operation, the refrigerant circulation direction remains unchanged, and the first heat exchanger 2 is connected to the energy storage device 4 through pipelines to absorb heat from the heat storage material, avoiding the drop of the ambient temperature, thereby solving the problem of traditional mobile air conditioners. The longer the run time the less effective the drawbacks.

The description of the above embodiments is only used to help understand the method of the present invention and its core idea; meanwhile, for those of ordinary skill in the art, according to the idea of the present invention, there will be changes in the specific implementation and scope of application. In summary, the contents of this specification should not be construed as limiting the present invention.

Claims (10)

1. a mobile radiation heat transfer device, it is characterized in that, including being sequentially connected with and be positioned at the compressor (1) of the same space, First Heat Exchanger (2) and the second heat exchanger (3), also include energy storage equipment (4), described energy storage equipment (4) is correspondingly arranged with described First Heat Exchanger (2), and carries out heat exchange with described First Heat Exchanger (2).

Mobile radiation heat transfer device the most according to claim 1, it is characterized in that, described mobile radiation heat transfer device also includes the first throttle device (5) being arranged in series between described First Heat Exchanger (2) and described second heat exchanger (3).

Mobile radiation heat transfer device the most according to claim 2, it is characterized in that, described mobile radiation heat transfer device also includes the second throttling arrangement (6) being arranged in series between described first throttle device (5) and described second heat exchanger (3), and the loong shunt of described first throttle device (5) has the first check valve (7) from described First Heat Exchanger (2) one-way conduction to described second heat exchanger (3).

Mobile radiation heat transfer device the most according to claim 3, it is characterised in that be provided with the first trachea stop valve (8) between described first throttle device (5) and described second throttling arrangement (6).

Mobile radiation heat transfer device the most according to claim 1, it is characterized in that, described energy storage equipment (4) includes conduction of heat shell and is built in the phase-change material of described conduction of heat shell, and described conduction of heat shell contacts with described First Heat Exchanger (2).

Mobile radiation heat transfer device the most according to claim 5, it is characterized in that, described conduction of heat casing is located at described First Heat Exchanger (2) outward, the housing that described conduction of heat shell contacts with described First Heat Exchanger (2) is heat transfer housing, and the housing of other parts is insulation shell.

Mobile radiation heat transfer device the most according to claim 1, it is characterised in that the bottom of described mobile radiation heat transfer device is provided with roller.

Mobile radiation heat transfer device the most according to claim 1, it is characterised in that described mobile radiation heat transfer device includes the air outlet adjusting device being arranged on the air outlet of described second heat exchanger (3), and the air outlet angle of described air outlet adjusting device is adjustable.

Mobile radiation heat transfer device the most according to claim 1, it is characterised in that the bottom of described second heat exchanger (3) and/or described First Heat Exchanger (2) is provided with drip tray.

Mobile radiation heat transfer device the most according to claim 1, it is characterised in that described First Heat Exchanger (2) and described second heat exchanger (3) are separately positioned on the two ends of the largest interval of described mobile radiation heat transfer device.