CN113758029A - Solar heat collection enclosure product suitable for assembly type building and production method thereof - Google Patents

Abstract

The invention discloses a solar heat collection enclosure part suitable for an assembly type building and a production method thereof, wherein the solar heat collection enclosure part comprises a single-sheet louvered flat-plate solar heat collector, wherein the single-sheet louvered flat-plate solar heat collector is provided with a plurality of groups, and the plurality of groups of single-sheet louvered flat-plate solar heat collectors jointly form a louvered flat-plate solar heat collector module; the invention integrates the heat collecting system with the building, can replace building shutter decorative strips to be assembled at the positions of building shutter plates, partition walls, balcony boards and the like, updates the heat preservation structure, adopts the heat preservation structure taking aerated concrete, glass bead concrete, floating bead concrete and the like as main materials, improves the structural strength and the heat preservation performance, optimizes the comprehensive performance of the heat preservation concrete on the premise of meeting the working performance, the compressive strength and the heat conductivity coefficient of the heat preservation concrete mixture, and can realize integrated design, modular production and assembly construction according to the shutter flat plate solar collector metal mold determined in advance in a factory.

Description

Solar heat collection enclosure product suitable for assembly type building and production method thereof

Technical Field

The invention relates to the technical field of solar heat collectors, in particular to a solar heat collection enclosure product suitable for an assembly type building and a production method thereof.

Background

Under the development trend that the building energy consumption is high for a long time, particularly the low heat consumption energy occupation ratio is too high, comprehensive building energy conservation is beneficial to fundamentally promoting energy resource conservation and reasonable utilization, the flat-plate solar collector can provide a medium-low temperature heat source in the building as a product for reasonably utilizing green energy, and the assembled building in China is also developed on the ground in China along with the development of a plurality of national policies for popularizing the assembled building. Compared with the traditional construction mode, the assembly type building has obvious advantages, and the most centralized embodiment is that the product quality can be ensured on the premise of saving a large amount of resources, multiple styles can be realized, the construction period can be greatly shortened, and the energy conservation and emission reduction can be realized on the premise of ensuring controllable cost;

the invention provides a solar heat collection enclosure part suitable for an assembly type building and a production method thereof, which have great significance in the solar heat collection technology of building component formation, because the traditional flat-plate solar heat collector is applied to a building integration, has complicated water paths, long water path pipelines and serious heat loss, is limited by the area of an outer vertical surface of a building and the limit of the roof of a high-rise building for sale, causes the installation and the arrangement of the heat collector to be difficult, and ensures the optimal inclination angle of the heat collector installation to be difficult.

Disclosure of Invention

The invention aims to provide a solar heat collection enclosure suitable for an assembly building and a production method thereof, wherein a beam column in the assembly building is used as a heat sink channel of a solar heat collection system, a solar heat collector and an indoor heat pipeline are connected, a heat medium is supplied to a heat user for heat release and then is recycled after being heated in the heat collector through a heat medium channel and the indoor pipeline, the problems that the solar heat collector system is arranged on a roof pipeline, the heat loss is large, the inclination angle is not easy to guarantee and the like are avoided, the solar heat collection enclosure is easy to modularize and prefabricate, the integration degree with the building is high, and the assembly construction can be carried out.

In order to achieve the purpose of the invention, the invention is realized by the following technical scheme: the utility model provides a solar energy collection enclosure article that is fit for assembled building, includes single-chip tripe formula flat-plate solar collector, single-chip tripe formula flat-plate solar collector is equipped with multiunit and multiunit single-chip tripe formula flat-plate solar collector constitutes tripe formula flat-plate solar collector module jointly, single-chip tripe formula flat-plate solar collector both ends all are equipped with heat transfer end, single-chip tripe formula flat-plate solar collector bottom symmetry is fixed with supports fixed fossil fragments, single-chip tripe formula flat-plate solar collector constitutes tripe formula flat-plate solar collector module through supporting fixed fossil fragments connection, the right-hand member that supports fixed fossil fragments and is close to the tripe formula flat-plate solar collector module outside is fixed with the connection jib.

The further improvement lies in that: the single-sheet louvered flat-plate solar collector comprises a louvered flat-plate heat insulation structure and a heat collection plate, and the heat collection plate is laid on the louvered flat-plate heat insulation structure.

The further improvement lies in that: the louvered flat-plate solar collector module is installed on the fabricated building, the fabricated building comprises a roof, beam columns and a building window, the beam columns are symmetrically distributed on the left side and the right side of the roof, the building window is longitudinally equidistantly distributed between the beam columns, heat sink channels are formed in the beam columns, and the heat sink channels are connected with indoor heat medium pipelines of the fabricated building through indoor heat medium pipeline interfaces.

The further improvement lies in that: the louvered flat-plate solar collector module is located between building windows, the heat transfer end is connected with the beam column, and the connecting suspension rod is connected with the building windows.

A method for producing a solar heat collection enclosure product suitable for an assembly type building comprises the following steps:

step one

Firstly, assembling and forming a metal mold of the louvered flat plate heat-insulation structure according to the structural form of a building window on an assembly type building, and manufacturing the louvered flat plate heat-insulation structure by using the mold;

step two

Firstly, laying a heat collection plate on a manufactured louvered flat plate heat insulation structure to finish the manufacture of a single-sheet louvered flat plate solar collector, and meanwhile, arranging heat transfer ends at two ends of the single-sheet louvered flat plate solar collector for later connection with building components, wherein the single-sheet louvered flat plate solar collector is preferably a dry heat pipe type flat plate solar collector;

step three

Firstly, according to the requirements of an assembly type building structure, the modulus and the building appearance, a specified number of single-sheet louvered flat-plate solar collectors are supported by adopting a supporting and fixing keel as a structure support and are fixedly connected through the supporting and fixing keel to form a louvered flat-plate solar collector module, and then connecting hanging rods are arranged at two ends of the supporting and fixing keel on the louvered flat-plate solar collector module;

step four

When the assembly type building is constructed, a heat sink channel is preset in a beam column, an indoor heat medium pipeline interface is arranged in the heat sink channel, when the louvered flat-plate solar collector module is installed, the heat transfer end is connected with the beam column and extends to the heat sink channel, then the connecting suspension rods on the fixed keels are supported at the two ends of the louvered flat-plate solar collector module and connected with a wall between building windows of the assembly type building, finally the heat sink channel is connected with the indoor heat medium pipeline through the indoor heat medium pipeline interface, and heat sink heat is carried to a heat utilization position through fluid in the heat sink channel.

The further improvement lies in that: in the first step, the main raw materials of the louver type flat plate heat-insulating structure are aerated concrete, glass bead concrete, floating bead concrete, a bonding material and a reinforcing material, the louver type flat plate heat-insulating structure is manufactured by pouring and vibrating according to the proportion of the materials of the assembled building components, then plastering after the assembled building components are placed into a mold, and then maintaining, processing and repairing are carried out to finish the manufacturing of the louver type flat plate heat-insulating structure.

The further improvement lies in that: in the fourth step, the connection mode between the heat transfer end and the beam column comprises bolt connection, buckle connection and welding connection, and the connection mode between the connecting suspender and the assembly type building wall body is expansion bolt connection.

The invention has the beneficial effects that: the invention integrates a heat collection system with a building, can replace building shutter decorative strips to be assembled at the positions of building shutter plates, partition walls, balcony boards and the like, is updated on the aspect of heat preservation structure construction, adopts a heat preservation structure taking aerated concrete, glass bead concrete, floating bead concrete and the like as main materials, improves the structural strength and the heat preservation performance, and ensures that the comprehensive performance of the heat preservation concrete is optimal on the premise of meeting the working performance, the compressive strength and the heat conductivity coefficient of heat preservation concrete mixture.

Drawings

FIG. 1 is a perspective view of a single-piece louvered flat-plate solar collector of the present invention;

FIG. 2 is a perspective view of a louvered flat plate solar collector module of the present invention;

FIG. 3 is a schematic plan view of a solar energy collection enclosure of the present invention;

fig. 4 is a schematic perspective view of the solar heat collecting enclosure of the present invention.

Wherein: 1. a louvered flat plate heat-insulating structure; 2. a heat collecting plate; 3. a single-blade louvered flat-plate solar collector; 4. a heat transfer end; 5. a louvered flat-plate solar collector module; 6. supporting the fixed keel; 7. connecting the hanger rod; 8. a roof; 9. a beam column; 10. a building window; 11. a heat sink channel; 12. indoor heating medium pipeline interface.

Detailed Description

In order to further understand the present invention, the following detailed description will be made with reference to the following examples, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

According to fig. 1, 2, 3 and 4, the embodiment provides a solar heat collection enclosure part suitable for an assembly type building, which comprises a single-piece louvered flat-plate solar heat collector 3, wherein multiple groups of single-piece louvered flat-plate solar heat collectors 3 form a louvered flat-plate solar heat collector module 5, heat transfer ends 4 are arranged at two ends of the single-piece louvered flat-plate solar heat collector 3, supporting and fixing keels 6 are symmetrically fixed at the bottom end of the single-piece louvered flat-plate solar heat collector 3, the single-piece louvered flat-plate solar heat collector 3 is connected through the supporting and fixing keels 6 to form the louvered flat-plate solar heat collector module 5, and a connecting suspender 7 is fixed at the right end, close to the outer side of the louvered flat-plate solar heat collector module 5, of the supporting and fixing keel 6.

The single-sheet louvered flat-plate solar collector 3 comprises a louvered flat-plate heat insulation structure 1 and a heat collection plate 2, and the heat collection plate 2 is laid on the louvered flat-plate heat insulation structure 1.

Louvered flat plate solar collector module 5 installs on the assembly type structure, the assembly type structure includes roofing 8, beam column 9 and building window 10, 9 symmetric distribution in the 8 left and right sides of roofing of beam column, building window 10 is vertical equidistance between beam column 9 and distributes, set up heat sink channel 11 in the beam column 9, heat sink channel 11 is through indoor heat medium pipe connector 12 and the indoor heat medium pipe connection of assembly type structure.

The louvered flat-plate solar collector module 5 is located between building windows 10, the heat transfer end 4 is connected with a beam column 9, and the connecting suspension rod 7 is connected with the building windows 10.

Example one

Referring to fig. 1, a single-plate louver type flat plate collector 3 which is prefabricated or cast in place according to the structural form, size and size of a building component comprises a louver type flat plate heat insulation structure 1 and a heat collection plate 2, wherein the heat collection plate 2 is laid on the manufactured louver type flat plate heat insulation structure 1, and the single-plate louver type flat plate collector 3 is manufactured.

The single-plate louvered flat-plate solar collector 3 is a louvered honeycomb structure formed by dividing a traditional flat-plate solar collector based on the theory that a honeycomb structure with a small aspect ratio can effectively inhibit fluid convection, and when the aspect ratio of a square wall of the louvered honeycomb structure is about 2:1, the convection heat transfer coefficient in an air square cavity of the single-plate louvered flat-plate solar collector 3 is 0.75W/(m2℃) smaller than that of the traditional flat-plate solar collector in the same time period.

The louvered flat plate heat-insulation structure 1 is formed by pouring aerated concrete, glass bead concrete, floating bead concrete, a bonding material and a reinforcing material according to the proportion of building component materials, prefabricating in a factory or pouring in situ to manufacture the louvered flat plate heat-insulation structure, and then plastering, curing and waterproof treating a main body of the louvered flat plate heat-insulation structure. According to research tests, the floating bead is used for replacing fine aggregate or cement to change the performance of the heat-insulating concrete, on the premise of meeting the working performance, compressive strength and heat conductivity of the heat-insulating concrete mixture, when the selection gradation is 0.3-0.6 mm, the heat conductivity of the heat-insulating concrete is 0.35W/(m.K) at least, meanwhile, the floating bead concrete is in a structural form taking organic materials as main materials, the fire-proof grade meets the requirements when the floating bead concrete is used in a building, and the floating bead concrete can bear certain load of peripheral members, and has the characteristic of the same service cycle as that of the building members.

The heat collecting plate 2 is a heat pipe type flat plate solar collector and comprises an evaporation section, a heat insulation section and a condensation section of a traditional heat pipe, a working medium in the evaporation section of a heat pipe box is subjected to phase change after the evaporation section is heated, working medium steam reaches the condensation section under the action of expansion pressure, condensate generated after the condensation section is cooled flows back to the evaporation section under the action of capillary force to be recycled, and when the condensation end of the heat pipe of the heat collector is connected with a heat exchange device, the condensation end serves as a middle heat transfer end to quickly transfer heat absorbed by the heat collector to the heat exchange device. The heat pipe type flat-plate solar collector is a waterless dry device, so that the problems of water leakage and freezing prevention of the collector can be solved.

Example two

Referring to fig. 2, a louvered flat-plate solar collector module 5 manufactured according to the requirements of an assembly building structure, module size and building appearance comprises a single-plate louvered flat-plate solar collector 3, a supporting and fixing keel 6 and a connecting suspender 7.

The louvered flat-plate solar collector module 5 can be formed by connecting a required number of single-plate louvered flat-plate solar collectors 3 according to the size of a module required by a building component. The number of the single-blade louvered flat-plate solar collectors 3 in the louvered flat-plate solar collector module 5 can be adjusted at will according to requirements.

3 both ends of monolithic tripe formula flat plate solar collector reserve heat transfer end 4, when tripe formula flat plate solar collector module 5 used in the building, the heat transfer end 4 of reserving passes through bolt, buckle or welded connection with the beam column 9 of assembly type structure, and at this moment, beam column 9 is as heat sink to set up heat sink channel 11 wherein, can take away the heat that passes the heat transfer end fast.

EXAMPLE III

Referring to fig. 3 and 4, the application of the solar heat collecting enclosure part suitable for the fabricated building in the building.

The solar heat collection enclosure part suitable for the assembly type building is characterized in that a shutter type flat plate solar heat collector module 5 is used as a building component and is connected with other structures of the building to form one part of the building, the installation and the fixation can be carried out through embedded parts of a wall body between a connecting suspension rod 7 at two ends of a supporting and fixing keel 6 and a building window 10, meanwhile, a heat sink channel 11 in a beam column 9 playing a heat sink role is communicated with an indoor heat medium pipeline interface 12, and a heat medium is conveyed to a heat utilization place.

The embodiment also provides a production method of the solar heat collection enclosure part suitable for the fabricated building, which is characterized in that: the method comprises the following steps:

step one

Firstly, assembling and forming a metal mold of a louver type flat plate heat-insulating structure 1 according to the structural form of a building window 10 on an assembly type building, and manufacturing the louver type flat plate heat-insulating structure 1 by using the mold, wherein the main raw materials of the louver type flat plate heat-insulating structure 1 are aerated concrete, glass bead concrete, floating bead concrete, a bonding material and a reinforcing material, pouring and vibrating according to the proportion of the materials of the assembly type building components during manufacturing, then plastering after entering the mold, and then performing maintenance, treatment and repair to finish the manufacturing of the louver type flat plate heat-insulating structure 1;

step two

Firstly, laying a heat collection plate 2 on a manufactured louvered flat plate heat insulation structure 1, manufacturing a single-piece louvered flat plate solar heat collector 3, arranging heat transfer ends 4 at two ends of the single-piece louvered flat plate solar heat collector 3 for connecting with building components at a later stage, and preferably selecting the single-piece louvered flat plate solar heat collector 3 as a dry-type heat pipe flat plate solar heat collector;

step three

Firstly, according to the requirements of an assembly type building structure, the modulus and the building appearance, a specified number of single-sheet louvered flat-plate solar collector 3 is supported by a supporting and fixing keel 6, and is fixedly connected with the supporting and fixing keel 6 to form a louvered flat-plate solar collector module 5, and then connecting suspension rods 7 are arranged at two ends of the supporting and fixing keel 6 on the louvered flat-plate solar collector module 5;

step four

During the construction of the assembly type building, a heat sink channel 11 is preset in a beam column 9, an indoor heat medium pipeline interface 12 is arranged in the heat sink channel 11, when the louver type flat-plate solar collector module 5 is installed, a heat transfer end 4 is connected with the beam column 9 and extends to the heat sink channel 11, then a connecting suspender 7 on a fixed keel 6 is supported at two ends of the louver type flat-plate solar collector module 5 to be connected with a wall between a building window 10 of the assembly type building, finally the heat sink channel 11 is connected with the indoor heat medium pipeline through the indoor heat medium pipeline interface 12, heat sink heat is carried and conveyed to a heat utilization position through fluid in a pipe, the connection mode between the heat transfer end 4 and the beam column 9 comprises bolt connection, buckle connection and welding connection, and the connection mode between the connecting suspender 7 and the wall of the assembly type building is expansion bolt connection.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a solar energy collection enclosure that is fit for prefabricated building article, includes single-chip tripe formula flat-plate solar collector (3), its characterized in that: single-piece tripe formula flat-plate solar collector (3) are equipped with multiunit and multiunit single-piece tripe formula flat-plate solar collector (3) constitute tripe formula flat-plate solar collector module (5) jointly, single-piece tripe formula flat-plate solar collector (3) both ends all are equipped with heat transfer end (4), single-piece tripe formula flat-plate solar collector (3) bottom symmetry is fixed with supports fixed fossil fragments (6), single-piece tripe formula flat-plate solar collector (3) are connected through supporting fixed fossil fragments (6) and are constituteed tripe formula flat-plate solar collector module (5), the right-hand member that supports fixed fossil fragments (6) and be close to tripe formula flat-plate solar collector module (5) outside is fixed with connection jib (7).

2. A solar heat collecting enclosure adapted for prefabricated buildings according to claim 1 wherein: the single-sheet louvered flat-plate solar collector (3) comprises a louvered flat-plate heat insulation structure (1) and a heat collection plate (2), and the heat collection plate (2) is laid on the louvered flat-plate heat insulation structure (1).

3. A solar heat collecting enclosure adapted for prefabricated buildings according to claim 1 wherein: louvered flat plate solar collector module (5) is installed on the assembly type structure, the assembly type structure includes roofing (8), beam column (9) and building window (10), beam column (9) symmetric distribution is in roofing (8) left and right sides, building window (10) are vertical equidistance between beam column (9) and distributes, set up heat sink passageway (11) in beam column (9), heat sink passageway (11) are through indoor heat medium pipe connector (12) and the indoor heat medium pipe connection of assembly type structure.

4. A solar heat collecting enclosure adapted for prefabricated buildings according to claim 3 wherein: the louvered flat-plate solar collector module (5) is located between building windows (10), the heat transfer end (4) is connected with a beam column (9), and the connecting suspension rod (7) is connected with the building windows (10).

5. A production method of a solar heat collection enclosure product suitable for an assembly type building is characterized by comprising the following steps: the method comprises the following steps:

step one

Firstly, assembling and forming a metal mould of the louvered flat plate heat-insulating structure (1) according to the structural form of a building window (10) on an assembly building, and manufacturing the louvered flat plate heat-insulating structure (1) by using the mould;

step two

Firstly, laying a heat collection plate (2) on a manufactured louvered flat plate heat insulation structure (1) to finish the manufacture of a single-sheet louvered flat plate solar heat collector (3), and meanwhile, arranging heat transfer ends (4) at two ends of the single-sheet louvered flat plate solar heat collector (3) for connecting with building components in the later period, wherein the single-sheet louvered flat plate solar heat collector (3) is preferably a dry heat pipe type flat plate solar heat collector;

step three

Firstly, according to the requirements of an assembly type building structure, the size of a module and the appearance of a building, a specified number of single-sheet louvered flat-plate solar collectors (3) are supported by a supporting and fixing keel (6) and are fixedly connected through the supporting and fixing keel (6) to form a louvered flat-plate solar collector module (5), and then connecting suspension rods (7) are arranged at two ends of the supporting and fixing keel (6) on the louvered flat-plate solar collector module (5);

step four

During the construction of an assembly type building, a heat sink channel (11) is preset in a beam column (9), an indoor heat medium pipeline interface (12) is arranged in the heat sink channel (11), when a louvered flat-plate solar collector module (5) is installed, a heat transfer end (4) is connected with the beam column (9) and extends to the heat sink channel (11), then a connecting suspender (7) on a fixed keel (6) is supported at two ends of the louvered flat-plate solar collector module (5) and a wall body between building windows (10) of the assembly type building are connected, finally the heat sink channel (11) is connected with an indoor heat medium pipeline through the indoor heat medium pipeline interface (12), and heat sink is carried to a heat utilization position through fluid in the heat sink.

6. A method of producing a solar energy collecting enclosure adapted for prefabricated buildings according to claim 5 wherein: in the first step, the main raw materials of the louver type flat plate heat-insulating structure (1) are aerated concrete, glass bead concrete, floating bead concrete, a bonding material and a reinforcing material, the louver type flat plate heat-insulating structure is manufactured by pouring and vibrating according to the proportion of the materials of the assembled building components, then plastering after the assembled building components are placed into a mold, and then maintaining, treating and repairing to finish the manufacturing of the louver type flat plate heat-insulating structure (1).

7. A method of producing a solar energy collecting enclosure adapted for prefabricated buildings according to claim 5 wherein: in the fourth step, the connection mode between the heat transfer end (4) and the beam column (9) comprises bolt connection, buckle connection and welding connection, and the connection mode between the connecting suspender (7) and the assembly type building wall body is expansion bolt connection.

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