CN211739523U - Movable container solar heating room - Google Patents

Abstract

The utility model relates to a solar thermal energy utilization and heat-retaining technical field specifically provide a movable container solar heating room. The structure of the solar energy heat collector comprises a heating chamber arranged on a container house, wherein a transparent cover plate is arranged on the sunny side of the heating chamber, and a heat collecting part is arranged in the heating chamber and comprises a microporous solar energy photo-thermal conversion plate and a warm air circulating device; the microporous solar photo-thermal conversion plate is arranged at one side of the heating chamber close to the transparent cover plate, and divides the heating chamber into a heat collection cavity and a heat delivery cavity, a central partition plate is arranged in the heat delivery cavity, and the heat delivery cavity is divided into an air supply chamber and an air return chamber by the central partition plate; the warm air circulating device comprises an air supply pipe, a fan and a return air pipe, the air supply pipe is used for communicating the air supply chamber with the container room, the return air pipe is used for communicating the return air chamber with the container room, and the fan is arranged on the air supply pipe or the return air pipe. Compared with the prior art, the utility model discloses a movable container solar heating room, the heat with solar energy conversion that can be fine comes for container formula prefabricated house to heat, has good spreading value.

Description

Movable container solar heating room

Technical Field

The utility model relates to a solar thermal energy utilization and heat-retaining technical field specifically provide a movable container solar heating room.

Background

The traditional container only has a single freight function, but due to the characteristics of firm box body, convenient movement, low price and the like, more and more other purposes are derived. One application that is now common is mobile homes, which provide temporary accommodation, often at construction sites or where temporary accommodation is needed.

The portable house has a simple structure, generally has no good heat preservation and lighting effects, and can not be connected with floor heating or central heating as a resident house, so that the container type portable house has very poor body feeling of people in winter. Especially in northern areas, people living in the mobile house are greatly inconvenient due to cold winter, and how to solve the problems of lighting and heating of the mobile house is a problem to be solved urgently by technical personnel in the field.

Disclosure of Invention

The utility model relates to a to the not enough of above-mentioned prior art, provide a movable container solar heating room that can solve heating problem, practicality are strong.

The utility model provides a technical scheme that its technical problem adopted is:

a movable container solar heating room comprises a container room, wherein any side surface of the container room is provided with an entrance door or/and a glass window, and the movable container solar heating room is characterized by further comprising a heating room arranged on the container room, one sunny side of the heating room is provided with a transparent cover plate, a heat collection part is arranged in the heating room, and the heat collection part comprises a microporous solar photo-thermal conversion plate and a warm air circulating device;

the microporous solar photo-thermal conversion plate is arranged at one side of the heating chamber close to the transparent cover plate, and divides the heating chamber into a heat collection cavity and a heat delivery cavity, a central partition plate is arranged in the heat delivery cavity, and the heat delivery cavity is divided into an air supply chamber and an air return chamber by the central partition plate;

the warm air circulating device comprises an air supply pipe, a fan and a return air pipe, the air supply pipe is used for communicating the air supply chamber with the container room, the return air pipe is used for communicating the return air chamber with the container room, and the fan is arranged on the air supply pipe or the return air pipe.

Furthermore, the micropore solar photo-thermal conversion plate is directly arranged on the transparent cover plate or is arranged parallel to the transparent cover plate and is connected with the transparent cover plate in a sealing manner to form a closed heat collection cavity.

Preferably, the fan is a silent axial flow fan, and the silent axial flow fan is sleeved with the air supply pipe.

Preferably, the container roof is provided with a return air inlet, the return air inlet is communicated with the return air chamber through a return air pipe, and the return air inlet is a return air louver opening.

Furthermore, the transparent cover plate and the solar photo-thermal conversion plate are obliquely arranged.

Preferably, the glass window and the entrance door are in a side-hung type, and the glass window is made of three-glass two-cavity hollow glass.

Furthermore, a rock wool sandwich board is arranged on the wall body of the heating room for heat preservation, and the thickness of the rock wool sandwich board is 80-120 mm.

The utility model discloses a movable container solar heating room compares with prior art, has following outstanding beneficial effect:

(1) the utility model discloses a solar heating room can solve the interim room heating problem of using of winter container formula, facilitates for the resident who lives in at container formula prefabricated house. On one hand, the solar energy is converted into heat energy by the solar energy-heat conversion plate to solve the heating problem in the daytime, and the solar energy-heat conversion plate is clean, pollution-free, renewable in energy source and in line with the requirement of environmental protection; on the other hand, the power supply cost is reduced, and economic benefits are brought.

(2) The heating installation in the thermal-arrest intracavity is inhaled the supply-air chamber by the fan, the fan directly sends into the container room with the supply-air chamber heating installation again in, because the pressure in the container room, microthermal air is sent back the wind chamber through the return air inlet once more, through blockking of central authorities' baffle, the return air is extrudeed and is got into the thermal-arrest chamber, accomplish a circulation, in this process, the heat radiation has been utilized, heat-conduction, the thermal convection, and seamless connection between the cavity, almost there is not the loss of pipeline, the temperature that the heating installation got into the container room has been guaranteed.

(3) The solar photo-thermal conversion plate is provided with the micropores, so that the air turbulence is improved, and the heat convection is enhanced.

(4) The rock wool sandwich board is arranged on the wall of the container house for heat preservation, and the problems of insufficient heat storage and overlarge temperature difference between day and night of the traditional passive container type prefabricated house are solved.

(5) In the embodiment, the transparent cover plate and the solar photo-thermal conversion plate are obliquely arranged, so that the inclination angle heat collection and heat exchange effects are better compared with the plane design.

The utility model has the characteristics of reasonable in design, simple structure, easily processing, the heating of being convenient for etc.

Drawings

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

FIG. 1 is a schematic structural view of a movable container solar heating house;

FIG. 2 is a structural schematic diagram (I) of a heat collecting cavity;

FIG. 3 is a schematic structural diagram (II) of the heat collecting cavity.

The reference numerals in the drawings denote:

1. the container house 2, the entrance door 3, the return air inlet 4, the transparent cover plate 5, the return air chamber 6, the heating chamber 7, the central partition plate 8, the air supply chamber 9, the container house top 10, the hollow glass window 11, the mute axial flow fan 12, the solar photothermal conversion plate 13, the return air pipe 14, the air supply chamber 15, the heat collection cavity 16 and the side wall.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to limit the present invention.

In the present invention, unless otherwise specified, the use of directional terms such as "upper, lower, left, and right" generally means upper, lower, left, and right as illustrated with reference to the accompanying drawings; "inner and outer" refer to the inner and outer relative to the profile of the components themselves.

A preferred embodiment is given below:

referring to fig. 1, 2 and 3, the movable container solar heating room in the embodiment includes a rectangular container room 1, an entrance door 2 is installed on one side surface of the rectangular container room 1, a hollow glass window 10 with three glass layers and two cavities is installed on the other side surface of the rectangular container room 1, and both the entrance door 2 and the hollow glass window 10 adopt a flat-open type. The wall body of the container room 1 is provided with a rock wool sandwich board for heat preservation, and the thickness of the rock wool sandwich board is 100 mm.

A heating room 6 is arranged on the container house 1, a transparent cover plate 4 is arranged on the sunny side of the heating room 6, and the transparent cover plate 4 is obliquely processed relative to the container roof 9. The heating chamber 6 is internally provided with a heat collection part, and the heat collection part comprises a micropore solar energy photo-thermal conversion plate 12 and a warm air circulating device.

The microporous solar photo-thermal conversion plate 12 is installed at one side of the heating chamber 6 close to the transparent cover plate 4, is connected with the inner wall of the heating chamber 6, and divides the heating chamber 6 into a closed heat collecting cavity 15 with a smaller area and a heat sending cavity with a larger area. A central clapboard 7 is arranged in the heat-sending cavity, and the central clapboard 7 divides the heat-sending cavity into an air-supplying chamber 8 and an air-returning chamber 5. The warm air circulating device is arranged between the air supply chamber 8 and the air return chamber 5 and comprises an air supply pipe 14, a mute axial flow fan 11 and an air return pipe 13, the air supply pipe 14 is used for communicating the air supply chamber 8 with the container room 1, the air return pipe 13 is used for communicating the air return chamber 5 with the container room 1, and the mute axial flow fan 11 is arranged on the air supply pipe 14 and is sleeved with the air supply pipe 14. The container roof 9 is provided with a return air louver 3, and the return air louver 3 is communicated with the return air chamber 5 through a return air pipe 13, so that the circulation of air in the container roof 1 and the return air chamber 5 is facilitated.

The utility model discloses a movable container solar heating room is when using, and the sunlight passes through transparent cover plate 4, and the processing of being installed in transparent cover plate 4 has microporous solar photothermal conversion board 12 to absorb the conversion to heat energy. Since the silent axial flow fan 11 operates to suck hot air from the heat collecting chamber 15 into the blowing chamber 8, the hot air is heated again by heat transfer when it enters the blowing chamber 8 through the minute holes of the solar photo-thermal conversion panel 12. Then, the container is directly sent into the container room 1 through the mute axial flow fan 11. The container room 1 generates positive pressure, indoor low-temperature air is extruded and is sent into the air return chamber 5 through the air return louver opening 3 again, the positive pressure is generated in the air return chamber 5 due to the blocking of the central partition plate 7, the return air is extruded and is sent into the heat collection cavity 15 from the micropores on the solar photo-thermal conversion plate 12 again, the return air enters the air return chamber 5 and is heated once, and is heated once again when passing through the micropore solar photo-thermal conversion plate 12, and the photo-thermal conversion process is completed. In the process, heat radiation, heat conduction and heat convection are utilized, and the cavities are connected seamlessly, so that almost no pipeline loss exists.

Experiments in Dalian province prove that the temperature in the heat transfer cavity is 52 ℃ and 27 ℃ indoors when the outdoor temperature of the test data is 5 ℃ below zero.

The microporous solar photo-thermal conversion plate 12 has another installation mode, that is, the microporous solar photo-thermal conversion plate 12 is connected with the transparent cover plate 4 through the side wall 16 to form a heat collection cavity 15.

The above-mentioned embodiments are only one of the preferred embodiments of the present invention, and the general changes and substitutions performed by those skilled in the art within the technical scope of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A movable container solar heating room comprises a container room, wherein any side surface of the container room is provided with an entrance door or/and a glass window, and the movable container solar heating room is characterized by further comprising a heating room arranged on the container room, one sunny side of the heating room is provided with a transparent cover plate, a heat collection part is arranged in the heating room, and the heat collection part comprises a microporous solar photo-thermal conversion plate and a warm air circulating device;

the microporous solar photo-thermal conversion plate is arranged at one side of the heating chamber close to the transparent cover plate, and divides the heating chamber into a heat collection cavity and a heat delivery cavity, a central partition plate is arranged in the heat delivery cavity, and the heat delivery cavity is divided into an air supply chamber and an air return chamber by the central partition plate;

the warm air circulating device comprises an air supply pipe, a fan and a return air pipe, the air supply pipe is used for communicating the air supply chamber with the container room, the return air pipe is used for communicating the return air chamber with the container room, and the fan is arranged on the air supply pipe or the return air pipe.

2. The movable container solar heating room as claimed in claim 1, wherein the micro-porous solar photo-thermal conversion plate is connected to the inner wall of the heating room and forms a heat collecting cavity with the transparent cover plate; or the micropore solar photo-thermal conversion plate is connected with the transparent cover plate through the side wall to form a heat collection cavity.

3. The movable container solar heating room as claimed in claim 1 or 2, wherein the fan is a silent axial flow fan, and the silent axial flow fan is sleeved with the air supply pipe.

4. The movable container solar heating room as claimed in claim 3, wherein the container roof is provided with a return air inlet, the return air inlet is communicated with the return air chamber through a return air pipe, and the return air inlet is a return air louver.

5. The transportable container solar heating house of claim 1, wherein the transparent cover plate is disposed obliquely to the solar-thermal conversion plate.

6. The movable container solar heating room as claimed in claim 1, wherein the glass window and the entrance door are side hung, and the glass window is made of three-glass two-cavity hollow glass.

7. The movable container solar heating room as claimed in claim 1, wherein the container room wall is provided with a rock wool sandwich board for heat preservation, and the thickness of the rock wool sandwich board is 80-120 mm.

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