CN216203951U - Heat pipe cold radiation system for household room and household room - Google Patents

Abstract

The utility model discloses a heat pipe cold radiation system for a household room and the household room, comprising: the device comprises an evaporation unit, a condensation unit and a working medium transmission assembly; the evaporation unit is flat and is provided with a liquid inlet and a gas outlet; the evaporation unit comprises more than one evaporation heat exchange tube group, and the more than one evaporation heat exchange tube group is arranged in a region close to the top of the indoor space in a layering mode from top to bottom; the condensation unit is arranged outside the household room and is provided with a liquid outlet and a gas inlet; the working medium transmission assembly comprises a connecting pipe and a pipeline control element. The evaporation unit is arranged to be flat, so that the space occupied in the height direction of the household room is reduced as much as possible; in addition, the evaporation heat exchange tube sets are arranged in a vertical layered mode, the layered quantity can be selected according to the layer heights of different household rooms, the configuration is flexible, the application range is wide, and the equipment configuration cost is economical on the premise that the refrigeration requirement is met.

Description

Heat pipe cold radiation system for household room and household room

Technical Field

The utility model relates to the technical field of heat pipe heat exchange, in particular to a heat pipe cold radiation system of a household room and the household room.

Background

According to the air flow principle, the density of hot air is low and can rise; the cold air has high density and will sink. Therefore, a gradient distribution of temperature tends to exist from low to high in the building space, and the higher the space is, the higher the measured temperature is. With the continuous improvement of living standard, people are pursuing quality life, and higher requirements are correspondingly put forward on the comfort level of living environment.

In the existing air conditioning system, a temperature sensor is usually arranged at the air return opening, and even a remote controller is used for measuring the temperature. The temperature measurement at these locations is not a high temperature point in the building, and from the perspective of air conditioning and refrigeration, the temperature measurement at these locations can ensure that the temperature in the area reaches the set requirement, but inevitably, as mentioned above, the temperature in the area above the temperature measurement point may be much higher than the set point due to the temperature gradient in the space, particularly in the vertical direction, which is especially obvious in the tall spaces of domestic rooms such as villas, courtyards and living rooms.

In addition, in an atrium or a living room in a home, air conditioning load design is usually performed by a zoned calculation, but since air conditioning is performed in an upper portion of a through-area by passing through the upper and lower portions, the air conditioning cools air and then flows to a lower portion area, and accordingly, air having a relatively high temperature rises to the upper portion area. In this case, although the upper area senses that the temperature is correctly over the set temperature, the air conditioner is fully turned on, but since the air conditioner design calculates the cooling capacity according to the area heat load and the air conditioner type is matched with this, when there is heat due to convection of the upper and lower air, the air conditioner cannot reach the set temperature even if the air conditioner is fully turned on. Therefore, although the energy consumption of the building is high, the comfort of residents in the room is difficult to guarantee.

Therefore, a refrigerating device with economical cost, refrigeration and energy conservation and comfortable indoor environment temperature feeling is needed in the field of household rooms.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides the heat pipe cold radiation system which is simple in configuration, economic in equipment cost and use and maintenance cost, and capable of refrigerating and saving energy and is suitable for the household room.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

in one aspect, a heat pipe cold radiation system for a home-use room is disclosed, which reduces a temperature of an indoor space of the home-use room by using an indoor and outdoor temperature difference, the indoor space having a height of one or more floor heights, the heat pipe cold radiation system comprising: the device comprises an evaporation unit, a condensation unit and a working medium transmission assembly; the evaporation unit is flat and is provided with a liquid inlet and a gas outlet; the evaporation unit comprises more than one evaporation heat exchange tube group, the more than one evaporation heat exchange tube group is arranged in a region close to the top of the indoor space in a layering mode from top to bottom, each evaporation heat exchange tube group is provided with an inlet and an outlet, and the inlets and the outlets are respectively communicated with the liquid inlet and the gas outlet of the evaporation unit; the condensation unit is arranged outside the household room and is provided with a liquid outlet and a gas inlet; the working medium transmission assembly comprises a connecting pipe and a pipeline control element, and the connecting pipe is used for communicating the liquid inlet with the liquid outlet and communicating the gas outlet with the gas inlet; the pipeline control element is arranged on the connecting pipe and used for controlling the working medium circulation between the evaporation unit and the condensation unit.

Has the advantages that: in the technical conception, the characteristics that the internal space of the household room has small horizontal area, medium height and the like and has temperature gradient in the vertical direction are fully considered, the refrigeration technical scheme in the prior art generally has the problems of high energy consumption, high equipment cost and use cost and poor household body feeling comfort, and firstly, the evaporation unit is arranged to be flat, so that the height of the internal space is reduced as much as possible; more importantly, the evaporation heat exchange tube sets are arranged in a vertical layered mode, and the layered quantity can be selected according to the layer heights of different household rooms, for example: the common household room only has a single-layer floor height, the height is low, the single-layer evaporation heat exchange tube group can be selected to be configured to meet the refrigeration requirement, for the villa type household room, the space height of an atrium and a living room is usually two to three floor heights, the space in the height direction is sufficient, and meanwhile, the temperature gradient is large, so that more than two layers of evaporation heat exchange tube groups are required to be configured at the top of the atrium or the living room space of the villa to meet the preset refrigeration power and efficiency. The configuration is flexible, the application range is wide, and the equipment configuration cost is economical on the premise of meeting the refrigeration requirement.

As a further improvement of the technical scheme, the top of the indoor space is provided with a closed ceiling, and the closed ceiling is provided with more than one air suction opening and more than one air supply opening.

Has the advantages that: the household room with the closed ceiling is arranged in the indoor space, the evaporation unit is not required to be provided with the shell, the evaporation heat exchange tubes are arranged in the closed ceiling, the closed space formed by the closed ceiling is used, through the matching of the air suction ports and the air supply ports on the ceiling, namely, more than one air suction ports are uniformly distributed along the periphery of the closed ceiling, more than one air supply ports are uniformly distributed in the other areas of the closed ceiling except the air suction ports, the circulating refrigeration of the top air is realized, the equipment configuration cost is saved, the whole top space of the household room can be fully utilized for heat exchange refrigeration, the refrigeration efficiency and the power are further effectively improved, and the decoration visual effect of the internal space is not influenced.

As a further improvement of the technical scheme, the evaporation unit further comprises an evaporation heat exchange shell, the evaporation heat exchange shell is wrapped on the periphery of the evaporation heat exchange tube set, and the evaporation heat exchange shell is provided with more than one air suction opening and more than one air supply opening.

Has the advantages that: more than one air suction opening is arranged on the top surface of the evaporation heat exchange shell or on the top surface and the side surface of the evaporation heat exchange shell, so that air with higher temperature can be sucked as far as possible, and more than one air supply opening is arranged on the bottom surface of the evaporation heat exchange shell or on the bottom surface and the side surface of the evaporation heat exchange shell, so that low-temperature air exhausted by the evaporation heat exchange shell can be rapidly reduced, and the refrigeration efficiency is improved; in addition, for the household room provided with the open type suspended ceiling, the appearance of the evaporation unit is integrated with the open type suspended ceiling conveniently, so that the vision is abrupt and the sense of incongruity is avoided, and the appearance of the evaporation heat exchange shell can be further arranged to be decorative.

As a further improvement of the technical solution, the height of the indoor space is a floor height, the evaporation unit includes an evaporation heat exchange tube set, the height of the liquid inlet is lower than that of the liquid outlet, and the height of the gas outlet is lower than that of the gas inlet.

Has the advantages that: for a common household room, the household room has the characteristics of high single-layer room height, small area, small heat exchange requirement and high noise sensitivity, the height relation between the liquid inlet and the liquid outlet is set, the circulation of the working medium between the evaporation unit and the condensation unit is conveniently driven by gravity, the configuration is simple, the initial cost is economical, the operation process is noiseless, the energy consumption is extremely low, and the use cost is economical.

As a further improvement of the technical scheme, the height of the indoor space is at least two floor heights, the evaporation unit comprises more than two evaporation heat exchange tube sets, an evaporation heat exchange shell is wrapped on the periphery of each evaporation heat exchange tube set, each evaporation heat exchange shell is provided with an air suction port positioned on the top surface and an air supply port positioned on the bottom surface, and between any two vertically adjacent evaporation heat exchange shells, the air supply port of the evaporation heat exchange shell above is communicated with the air suction port of the evaporation heat exchange shell below; the air suction opening of the uppermost evaporation heat exchange shell is used for sucking high-temperature gas before heat exchange; and the air supply outlet of the evaporation heat exchange shell at the lowest part is used for sending out the low-temperature gas after heat exchange.

Has the advantages that: to villa formula home-use room, the setting of evaporation heat transfer casing, when making many evaporation heat transfer pipe group set up from top to bottom, it constitutes hierarchical cooling to establish ties, the cooling effect is better, high efficiency, like villa zhongting or sitting room, the floor height is more than two-layer building, the evaporation unit that has two-layer above evaporation heat transfer casing is great in occupation space on the height, it is difficult for perceiving, can not arouse the sense of oppressing yet, still make full use of the space at zhongting or sitting room top, further promoted refrigeration efficiency and power.

As a further improvement of the technical scheme, the air filter device also comprises an air filter element, and the air filter element is arranged at the air supply outlet or the air supply outlet and the air suction inlet.

Has the advantages that: the arrangement of the gas filtering element can effectively filter dust and impurities in the air when the air is subjected to circulating refrigeration, and the improvement of the air quality of the indoor space is facilitated.

As a further improvement of the present technical solution, the working medium transmission assembly further comprises a liquid storage device and a pumping element, the liquid storage device is arranged on the connecting pipe between the liquid inlet and the liquid outlet, and the pumping element is arranged on the connecting pipe between the liquid storage device and the liquid inlet.

Has the advantages that: the arrangement of the liquid storage device and the pumping element further improves the circulating power and the speed of the working medium, and is beneficial to improving the refrigeration speed; in addition, the arrangement position of the condensing unit outside the room is not limited by the relative height relation with the evaporating unit, the position arrangement is more flexible, the condensing unit is suitable for the application of different external spaces, and especially for villa type household rooms, the function of the pumping element is more obvious

As a further improvement of the technical scheme, a power air supply element is arranged at the air supply opening.

Has the advantages that: the introduction of the power air supply element is beneficial to improving the air inlet and outlet circulation rate, thereby further improving the heat exchange efficiency.

As a further improvement of the technical solution, the heat pipe cold radiation system further includes a noise reduction element, and the noise reduction element is disposed at the air supply outlet.

Has the advantages that: the arrangement of the noise reduction element is beneficial to reducing the noise generated by power elements, such as a power air supply element and a pumping element, in the heat pipe cold radiation system, and the comfort of the house is improved.

On the other hand, still further disclose a domestic room, include the heat pipe cold radiation system for domestic room of any one of above-mentioned technical scheme.

Has the advantages that: including any one of the above-mentioned technical scheme's domestic room of heat pipe cold radiation system, all can realize effectively reducing indoor temperature under the condition of equipment cost and use cost economy, compare with traditional indoor refrigeration scheme, and can also comply with the environmental protection and advocate, realize energy saving and consumption reduction and fall the purpose of making an uproar.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of a heat pipe cold radiation system for a home use room according to the present invention;

FIG. 2 is a schematic view of another heat pipe cold radiation system for a home use room according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at I;

the corresponding part names indicated by the numbers in the figures are as follows:

a household 01; a closed ceiling 011; an open ceiling 012; an evaporation unit 1; a liquid inlet 11; an air outlet 12; an evaporation heat exchange tube set 13; an evaporative heat exchange housing 14; a powered air delivery element 15; a condensing unit 2; a liquid outlet 21; an air inlet 22; a working medium transmission component 3; a connecting pipe 31; a line control element 32; a reservoir 33; a pumping element 34; an air suction opening 4; an air supply outlet 5; a gas filter element 6; a noise reducing element 7.

Detailed Description

In order to facilitate an understanding of the utility model, the utility model will be described more fully and in detail below with reference to the accompanying drawings and preferred embodiments, but the scope of the utility model is not limited to the specific embodiments below. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In order to realize the purpose of the utility model, the technical scheme provided by the utility model is as follows:

in some embodiments, as shown in fig. 1-2, a heat pipe cold radiation system for a home use room is disclosed, which reduces a temperature of an indoor space of the home use room 01 using an indoor and outdoor temperature difference, the indoor space having a height of more than one floor height, the heat pipe cold radiation system comprising: the device comprises an evaporation unit 1, a condensation unit 2 and a working medium transmission component 3; the evaporation unit 1 is flat and is provided with a liquid inlet 11 and a gas outlet 12; the evaporation unit 1 comprises more than one evaporation heat exchange tube group 13, the more than one evaporation heat exchange tube group 13 is arranged in a region close to the top of the indoor space in a layering mode from top to bottom, each evaporation heat exchange tube group 13 is provided with an inlet and an outlet, and the inlets and the outlets are respectively communicated with the liquid inlet 11 and the air outlet 12 of the evaporation unit 1; a condensing unit 2 arranged outside the household room 01, wherein the condensing unit 2 is provided with a liquid outlet 21 and a gas inlet 22; the working medium transmission assembly 3 comprises a connecting pipe 31 and a pipeline control element 32, wherein the connecting pipe 31 is used for communicating the liquid inlet 11 with the liquid outlet 21 and communicating the gas outlet 12 with the gas inlet 22; the pipeline control element 32 is arranged on the connecting pipe 31 and used for controlling the working medium circulation between the evaporation unit 1 and the condensation unit 2.

Has the advantages that: in the technical conception, the characteristics that the internal space of the household room 01 has small horizontal area, medium height and the like and has temperature gradient in the vertical direction are fully considered, the refrigeration technical scheme in the prior art generally has the problems of high energy consumption, high equipment cost and use cost and poor household body feeling comfort, and firstly, the evaporation unit 1 is arranged to be flat, so that the height of the internal space is reduced as much as possible; more importantly, the evaporation heat exchange tube sets 13 are arranged in an up-down layered mode, the number of layers can be selected according to the layer heights of different household rooms 01, and the household rooms 01 comprise common single-layer rooms and villa-type multi-layer rooms, for example: the common household room 01 is only single-layer floor height, the height is low, the single-layer evaporation heat exchange tube group 13 can be selected to be configured to meet the refrigeration requirement, for the villa type household room 01, the space height of an atrium and a living room is usually two to three floor heights, the space in the height direction is abundant, and meanwhile, the temperature gradient is large, so that more than two layers of evaporation heat exchange tube groups 13 are required to be configured at the top of the atrium or the living room space of the villa to meet the preset refrigeration power and efficiency. The configuration is flexible, the application range is wide, and the equipment configuration cost is economical on the premise of meeting the refrigeration requirement.

In other embodiments, as shown in fig. 1, a closed ceiling 011 is provided at the top of the indoor space, and the closed ceiling 011 is provided with more than one air suction opening 4 and more than one air supply opening 5.

Has the advantages that: the household room 01 with the closed ceiling 011 is arranged in the indoor space, the evaporation unit 1 is not required to be configured with a shell, the evaporation heat exchange tube group 13 is arranged in the closed ceiling 011, by means of the closed space formed by the closed ceiling 011, through the matching of the air suction ports 4 and the air supply ports 5 on the ceiling, more than one air suction ports 4 are uniformly distributed along the periphery of the closed ceiling 011, more than one air supply ports 5 are uniformly distributed in the rest areas of the closed ceiling 011 except the air suction ports 4, the circulating refrigeration of the top air is realized, the equipment configuration cost is saved, the whole top space of the household room 01 can be fully utilized for heat exchange refrigeration, the refrigeration efficiency and the power are further effectively improved, and the decoration visual effect of the internal space is not influenced.

In other embodiments, as shown in fig. 2-3, the evaporation unit 1 further includes an evaporation heat exchange housing 14, the evaporation heat exchange housing 14 is wrapped around the evaporation heat exchange tube set 13, and the evaporation heat exchange housing 14 is provided with more than one air suction opening 4 and more than one air blowing opening 5.

Has the advantages that: the more than one air suction opening 4 is arranged on the top surface of the evaporation heat exchange shell 14 or on the top surface and the side surface of the evaporation heat exchange shell 14, so that air with higher temperature can be sucked as far as possible, and the more than one air supply opening 5 is arranged on the bottom surface of the evaporation heat exchange shell 14 or on the bottom surface and the side surface of the evaporation heat exchange shell 14, so that low-temperature air exhausted by the evaporation heat exchange shell can be quickly reduced, and the refrigeration efficiency is improved; in addition, for the home use house 01 provided with the open ceiling 012, in order to facilitate the integration of the appearance of the evaporation unit 1 and the open ceiling 012, and to avoid visual obtrusiveness and discomfort, the appearance of the evaporation heat exchange housing 14 may be further provided to have decorativeness.

In other embodiments, as shown in fig. 1, the height of the indoor space is a floor level, the evaporation unit 1 comprises a single evaporation heat exchange tube set 13, the liquid inlet 11 is lower than the liquid outlet 21, and the air outlet 12 is lower than the air inlet 22.

Has the advantages that: as for the common household room 01, the common household room has the characteristics of high single-layer room height, small area, small heat exchange requirement and high noise sensitivity, the height relation between the liquid inlet 11 and the liquid outlet 21 is set, the circulation of the working medium between the evaporation unit 1 and the condensation unit 2 is conveniently driven by gravity, the configuration is simple, the initial cost is economical, the operation process is noiseless, the energy consumption is extremely low, and the use cost is economical.

In other embodiments, as shown in fig. 2-3, the height of the indoor space is at least two floors, the evaporation unit 1 includes more than two evaporation heat exchange tube sets 13, each evaporation heat exchange tube set 13 is surrounded by an evaporation heat exchange housing 14, each evaporation heat exchange housing 14 is provided with an air suction opening 4 on the top surface and an air supply opening 5 on the bottom surface, and between any two adjacent evaporation heat exchange housings 14, the air supply opening 5 of the upper evaporation heat exchange housing 14 is communicated with the air suction opening 4 of the lower evaporation heat exchange housing 14; the air suction opening 4 of the uppermost evaporation heat exchange shell 14 is used for sucking high-temperature gas before heat exchange; the air supply outlet 5 of the lowest evaporation heat exchange shell 14 is used for supplying low-temperature gas after heat exchange.

Has the advantages that: to villa formula domestic room 01, evaporation heat transfer casing 14's setting, when making many evaporation heat transfer pipe group 13 set up from top to bottom, it constitutes hierarchical cooling to establish ties, the cooling effect is better, and efficiency is higher, like villa zhongting or sitting room, the floor height is more than two-layer building, evaporation unit 1 that has evaporation heat transfer casing 14 more than two-layer is great in space occupied on the height, it is difficult to perceive, also can not arouse the sense of oppression, still make full use of the space at zhongting or sitting room top, further promoted refrigeration efficiency and power.

In other embodiments, as shown in fig. 3, the air filter element 6 is further included, and the air filter element 6 is disposed at the air supply opening 5 or at the air supply opening 5 and the air suction opening 4.

Has the advantages that: the arrangement of the gas filtering element 6 can effectively filter dust and impurities in the air when the air is subjected to circulating refrigeration, and is favorable for improving the air quality of the indoor space.

In other embodiments, as shown in fig. 3, working medium transfer assembly 3 further comprises a liquid reservoir 33 and a pumping element 34, wherein liquid reservoir 33 is disposed on connecting pipe 31 between liquid inlet 11 and liquid outlet 21, and pumping element 34 is disposed on connecting pipe 31 between liquid reservoir 33 and liquid inlet 11.

Has the advantages that: the arrangement of the liquid storage device 33 and the pumping element 34 further improves the circulating power and speed of the working medium, and is beneficial to improving the refrigeration speed; in addition, the outdoor arrangement position of the condensing unit 2 is not limited by the relative height relation with the evaporating unit 1, the position arrangement is more flexible, the condensing unit is suitable for the application of different external spaces, and particularly for villa type household rooms 01, the function of the pumping element 34 is more obvious

In other embodiments, as shown in fig. 3, a power blowing element 15 is arranged at the blowing port 5.

Has the advantages that: the introduction of the power air supply element 15 is helpful to improve the air inlet and outlet circulation rate, thereby further improving the heat exchange efficiency.

In other embodiments, as shown in fig. 3, the heat pipe cold radiation system further comprises a noise reduction element 7, and the noise reduction element 7 is provided at the air blowing port 5.

Has the advantages that: the noise reduction element 7 is arranged to help reduce noise generated by power elements in the heat pipe cold radiation system, such as the power air supply element 15 and the pumping element 34, and improve home comfort.

In other embodiments, a household room 01 is further disclosed, which includes any one of the heat pipe cold radiation systems for the household room 01.

Has the advantages that: including any one of the above technical scheme's domestic room 01 of heat pipe cold radiation system, all can realize under the circumstances of equipment cost and use cost economy, effectively reduce indoor temperature, compare with traditional indoor refrigeration scheme, and can also comply with the environmental protection and advocate, realize energy saving and consumption reduction and fall the purpose of making an uproar.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the scope of the present invention.

Claims (10)

1. A heat pipe cold radiation system for a home use room, characterized in that, the temperature of an indoor space of the home use room is reduced by an indoor and outdoor temperature difference, the height of the indoor space is more than one floor height, the heat pipe cold radiation system comprises: the device comprises an evaporation unit, a condensation unit and a working medium transmission assembly;

the evaporation unit is flat and is provided with a liquid inlet and a gas outlet; the evaporation unit comprises more than one evaporation heat exchange tube group, the more than one evaporation heat exchange tube group is arranged in a region close to the top of the indoor space in a layering mode from top to bottom, each evaporation heat exchange tube group is provided with an inlet and an outlet, and the inlets and the outlets are respectively communicated with the liquid inlet and the gas outlet of the evaporation unit;

the condensation unit is arranged outside the household room and is provided with a liquid outlet and a gas inlet;

the working medium transmission assembly comprises a connecting pipe and a pipeline control element, and the connecting pipe is used for communicating the liquid inlet with the liquid outlet and communicating the gas outlet with the gas inlet; the pipeline control element is arranged on the connecting pipe and used for controlling the working medium circulation between the evaporation unit and the condensation unit.

2. A heat pipe cooling radiation system for a home use room as claimed in claim 1, wherein the top of the indoor space is provided with a closed ceiling, and the closed ceiling is provided with one or more air suction ports and one or more air supply ports.

3. A heat pipe cold radiation system for a domestic room as claimed in claim 1, wherein said evaporation unit further comprises an evaporation heat exchange housing, said evaporation heat exchange housing is wrapped around the periphery of said evaporation heat exchange tube set, said evaporation heat exchange housing is provided with more than one air suction opening and more than one air supply opening.

4. A heat pipe cold radiation system for a home use room as claimed in claim 3, wherein the height of said indoor space is a floor height, said evaporation unit comprises an evaporation heat exchange pipe set, the height of said liquid inlet is lower than the height of said liquid outlet, and the height of said air outlet is lower than the height of said air inlet.

5. A heat pipe cold radiation system for a domestic room as claimed in claim 3, wherein the height of said indoor space is at least two floors, said evaporation unit comprises more than two evaporation heat exchange pipe sets, each of said evaporation heat exchange pipe sets is surrounded by an evaporation heat exchange housing, each of said evaporation heat exchange housings is provided with an air suction port on the top surface and an air supply port on the bottom surface, between any two adjacent evaporation heat exchange housings, the air supply port of the upper evaporation heat exchange housing is communicated with the air suction port of the lower evaporation heat exchange housing; the air suction opening of the uppermost evaporation heat exchange shell is used for sucking high-temperature gas before heat exchange; and the air supply outlet of the evaporation heat exchange shell at the lowest part is used for sending out the low-temperature gas after heat exchange.

6. A heat pipe cooling radiation system for a home use room as claimed in claim 2 or 3, further comprising a gas filter element provided at the air supply opening or at the air supply opening and the air suction opening.

7. A heat pipe cold radiation system for a domestic room as claimed in claim 2 or 3, wherein said working medium transfer assembly further comprises a reservoir and a pumping element, said reservoir being provided on a connecting pipe between said inlet port and said outlet port, said pumping element being provided on a connecting pipe between said reservoir and said inlet port.

8. A heat pipe cold radiation system for a home use room as claimed in claim 7, wherein a power blowing member is provided at the blowing port.

9. A heat pipe cold radiation system for a home use room as claimed in claim 8, further comprising a noise reduction element provided at the air blowing port.

10. A domestic room comprising a heat pipe cold radiation system for a domestic room as claimed in any one of claims 1 to 9.

Images