CN201232292Y

CN201232292Y - Building wallboard with pre-embedded hot tube

Info

Publication number: CN201232292Y
Application number: CNU2008201181767U
Authority: CN
Inventors: 李昕
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-06-13
Filing date: 2008-06-13
Publication date: 2009-05-06
Anticipated expiration: 2018-06-13

Abstract

Disclosed is a building wallboard of an embedded heat exchange tube, and the wallboard is rectangular, a pipeline is arranged in the wallboard, the pipeline is composed of an upper horizontal tube and a lower horizontal tube as well as a plurality of vertical tubes in cross connection between the upper horizontal tube and the lower horizontal tube, a head end pipe joint and a tail end pipe joint are respectively disposed at both ends of the upper horizontal tube, a head end pipe joint and a tail end pipe joint are respectively arranged at both ends of the lower horizontal tube, the head end pipe joints of both the upper horizontal tube and the lower horizontal tube are positioned on a front splicing face of the wallboard, and the tail end pipe joints of both the upper horizontal tube and the lower horizontal tube are positioned on a rear splicing face of the wallboard. The utility model integrates heat preservation, heat exchange and the pipeline into one body, and utilizes the wallboard for heating and cooling, thereby controlling the indoor temperature, radiating equipment and connecting pipelines need not be arranged indoors, the secondary decoration is saved, the inner space of the building can be utilized more effectively, and the utility model has advantages of beautiful appearance, energy saving and environmental protection.

Description

The building wall board of pre-buried heat exchanger tube

Technical field

The utility model relates to the structure of building wall board, particularly has the building wall board of heat exchange function.

Background technology

The room temperature of building is regulated, and generally adopts air-conditioning system, and as central air-conditioning, cabinet-type air conditioner, wall air conditioner etc., the central air-conditioning ventilating duct takies the interior space and is easy to generate parasite, pollutes room air; Cabinet-type air conditioner, wall-hanging air conditioner main frame are installed in the outdoor housing appearance that influences, and noise is bigger simultaneously; Power consumption is big, and the defective of temperature inequality is arranged.

At the north or other extremely frigid zones, winter, resident family was after finishing the finishing first time in order to keep out the cold, also will caliduct and heat supply heat dissipation equipment be installed in indoor laying, caliduct is in the exposed conduit mode pipeline to be installed, and it is attractive in appearance to destroy metope, also reduced the effective usage space in room

The body of wall of building can be divided into brick formula and device of shifting block type two big classes, and the device of shifting block type body of wall is to constitute with the prefabricated panel assembly unit, and prefabricated panel is made in factory process, and its appearance is smooth, easy construction, has certain intensity, but does not have heat exchange function.

The utility model content

For addressing the above problem, the purpose of this utility model provides a kind of building wall board of pre-buried heat exchanger tube, the collection insulation, heat exchange, pipeline are one, can feed cold water or hot water in the pipeline, thereby adjusting interior temperature, need be in indoor layout heat dissipation equipment and connecting pipe, the trouble of having saved secondary decoration is more effectively utilized building interior space, and attractive in appearance, energy-saving and environmental protection.

For achieving the above object, the utility model is by the following technical solutions:

A kind of building wall board of pre-buried heat exchanger tube, this wallboard is rectangular, be provided with pipeline in the wallboard, it is characterized in that: described pipeline is made up of upper and lower transverse tube and many vertical tubes being connected across between the upper and lower transverse tube, the two ends of upper lateral tube are respectively arranged with head end, tail end union, the two ends of lower transverse tubule also are respectively arranged with head end, tail end union, and the head end union of upper and lower transverse tube all is positioned on the preceding Mosaic face of wallboard, and the tail end union of upper and lower transverse tube all is positioned on the back Mosaic face of wallboard.Be respectively arranged with the tenon or the tenon mouth that are used to locate on the forward and backward Mosaic face of described wallboard.Described head end union is cone shape, the head end union be provided with the multi-stage annular groove in appearance, every grade of annular groove all is the bullet that front end is little, the rear end is big, and the tapering of back one-level annular groove is slightly larger than the tapering of previous stage annular groove, be with a high resiliency sealing ring on every grade of annular groove, described tail end union is sleeve-shaped, tail end union endoporus has multistage step surface, the gradient ecto-entad of step surfaces at different levels increases progressively step by step, is formed for the draw-in groove that cooperates with sealing ring between the adjacent two-stage step surface.

Described wallboard inside is embedded with foam insulation, and this foam insulation is near the outside of wallboard, and described upper and lower transverse tube and vertical tube are near the inboard of wallboard.

The utility model has following positive beneficial effect:

Be embedded with the hidden pipe that is used for water delivery in the wallboard, after the splicing of each piece wallboard, become the body of wall with water pipe network, wallboard is made in factory as building unit, but Fast Installation at the scene, and easy construction reduces building costs; Utilize body of wall heating and cooling, reduced ventilating duct, the required space of caliduct, need be in indoor layout heat dissipation equipment and connecting pipe, the trouble of having saved secondary decoration does not take building area, and interior wall is smooth attractive in appearance, does not destroy integrality of wall; Beautified the room, energy-saving effect is remarkable;

Can insert the thermal water source winter at the two ends of water pipe network, the thermal water source can be heating boiler, electric water heater, underground water, solar water heater or geothermal spring etc., after the water pipe network internal of body of wall fed hot water, pipeline can be delivered to the heat that hot water contained whole wallboard inner surface, utilized the wallboard heat radiation, because the pipeline outside has the insulation interlayer, so heat can outwards not transmit, can only disperse in the room, interior temperature is raise, reach the purpose of heating, hygienic and convenient.

Can insert cold water source summer at the two ends of water pipe network, and cold water source can be underground water, tap water, river etc.After the water pipe network internal of body of wall fed cold water, the temperature of surfaces of wall can reduce, and the heat in the absorption chamber reaches the refrigeration purpose, thereby makes the room cool in summer and warm in winter, regulates the room temperature.

Description of drawings

Fig. 1 is the structural representation of the utility model wallboard one embodiment.

Fig. 2 is the side cutaway view of Fig. 1.

Fig. 3 is the structural representation of head end union among Fig. 1.

Fig. 4 is the structural representation of tail end union among Fig. 2.

Fig. 5 is the structural representation after wallboard shown in Figure 1 is assembled into body of wall.

Fig. 6 is the sectional view of Fig. 5.

Fig. 7 is A-A cutaway view Amplified image of Fig. 6.

Fig. 8 is the local amplification view of the B of Fig. 6.

The specific embodiment

Number in the figure

1 head end union, 2 tail end unions, 3 head end unions, 4 tail end unions

5 upper lateral tubes, 6 lower transverse tubules, 7 vertical tubes

8 tenons, 9 tenon mouths, 10 wallboards

11 annular grooves, 12 step surfaces, 13 high resiliency sealing rings

14 draw-in grooves, 15 foam insulations, 16 feed pipes

17 return pipes, 18 bypass pipes

Please refer to Fig. 1, Fig. 2, Fig. 5, the utility model is a kind of building wall board of pre-buried heat exchanger tube, and this wallboard 10 is rectangular, is provided with pipeline in the wallboard 10, pipeline by upper and lower

transverse tube

5,6 and be connected across upper and lower horizontal stroke and between many vertical tubes 7 form.

The two ends of upper lateral tube 5 are respectively arranged with head end union 1 and the tail end union 2 that cooperatively interacts, and head end union 1 and tail end union 2 lay respectively on the forward and backward Mosaic face of wallboard.

The two ends of lower transverse tubule 6 are respectively arranged with head end union 3, the tail end union 4 that cooperatively interacts, and head end union 3, tail end union 4 lay respectively on the forward and backward Mosaic face of wallboard 10.The preceding Mosaic face of wallboard 10 is provided with tenon 8, and the back Mosaic face of wallboard 10 is provided with tenon mouth 9.

Please refer to Fig. 5, during use,, locate in the tenon mouth 9 on last block of wallboards of the tenon 8 embeddings 10 back Mosaic faces before the back wallboard 10 on the Mosaic faces, just constituted the body of wall of building each piece wallboard 10 splicing in proper order.After the splicing of each piece wallboard coincide, in the back wallboard 10 in the head end union 1 of upper lateral tube and the adjacent last block of wallboard 10 the tail end union 2 of upper lateral tube peg graft and coincide.In the wallboard 10 in back in the head end union 3 of lower transverse tubule and the adjacent last block of wallboard 10 the tail end union 4 of lower transverse tubule peg graft and coincide, thereby become body of wall with water pipe network.

Please refer to Fig. 3, Fig. 4, the structure of head end union 1,3 is identical, head end union 1 is cone shape, head end union 1 be provided with multi-stage annular groove 11 in appearance, every grade of annular groove 11 all is the bullet that front end is little, the rear end is big, and the tapering of back one-level annular groove is slightly larger than the tapering of previous stage annular groove, be with a high resiliency sealing ring 13 on every grade of annular groove 11, high resiliency sealing ring 13 protrudes in the edge of annular groove 11 slightly.The structure of tail end union 2,4 is identical.

Tail end union 2 is sleeve-shaped, and tail end union 2 endoporus have multistage step surface 12, and the gradient ecto-entad of step surfaces 12 at different levels increases progressively step by step, is formed for installing the draw-in groove 14 of sealing ring between the adjacent two-stage step surface.

Please refer to Fig. 7, wallboard 10 inside are embedded with foam insulation 15, and this foam insulation 15 is near the outside of wallboard 10, and upper and lower

transverse tube

5,6 and vertical tube 7 are near the inboard of wallboard.

Please refer to Fig. 6, after each piece wallboard 10 splicing is finished, the tail end union of upper lateral tube in the afterbody wallboard and the tail end union of lower transverse tubule are sealed with plug wire, the head end union of upper lateral tube and the head end union of lower transverse tubule in the previous stage wallboard are connected with feed pipe 16, return pipe 17 respectively, just constitute tandem water pipe network system, can set up bypass pipe 18 between feed pipe 16, the return pipe 17.Can mounted valve on feed pipe 16, the bypass pipe 18.

Can insert the thermal water source winter between the feed pipe 16 of water pipe network system, return pipe 17, the thermal water source can be heating boiler, electric water heater, solar water heater, underground water or geothermal spring etc., after the water pipe network internal of body of wall feeds hot water, pipeline can be delivered to the heat that hot water contained whole wallboard inner surface, utilize the wallboard heat radiation, because the pipeline outside has the insulation interlayer, so heat can outwards not transmit, can only disperse in the room, interior temperature is raise, reach the purpose of heating, hygienic and convenient.

Can insert cold water source summer between the feed pipe 16 of water pipe network, return pipe 17, cold water source can To be underground water, running water, river etc. After the water pipe network internal of body of wall passes into cold water, the wallboard table The temperature of face can reduce, and the heat in the absorption chamber reaches the refrigeration purpose, thereby makes the room cool in summer and warm in winter, Regulate the room temperature. In the design and construction of dwelling construction, adopt the utility model, have with low costly, save The corollary equipment such as the route of pipe line and control cabinet, the advantages such as convenient are simplified in construction.

Claims

1. the building wall board of a pre-buried heat exchanger tube, this wallboard is rectangular, be provided with pipeline in the wallboard, it is characterized in that: described pipeline is made up of upper and lower transverse tube and many vertical tubes being connected across between the upper and lower transverse tube, the two ends of upper lateral tube are respectively arranged with head end, tail end union, the two ends of lower transverse tubule also are respectively arranged with head end, tail end union, and the head end union of upper and lower transverse tube all is positioned on the preceding Mosaic face of wallboard, and the tail end union of upper and lower transverse tube all is positioned on the back Mosaic face of wallboard.

2. the building wall board of pre-buried heat exchanger tube as claimed in claim 1 is characterized in that: be respectively arranged with the tenon or the tenon mouth that are used to locate on the forward and backward Mosaic face of described wallboard.

3. the building wall board of pre-buried heat exchanger tube as claimed in claim 1, it is characterized in that: described head end union is cone shape, the head end union be provided with the multi-stage annular groove in appearance, every grade of annular groove all is that front end is little, the bullet that the rear end is big, and the tapering of back one-level annular groove is slightly larger than the tapering of previous stage annular groove, be with a high resiliency sealing ring on every grade of annular groove, described tail end union is sleeve-shaped, tail end union endoporus has multistage step surface, the gradient ecto-entad of step surfaces at different levels increases progressively step by step, is formed for the draw-in groove that cooperates with sealing ring between the adjacent two-stage step surface.

4. the building wall board of pre-buried heat exchanger tube as claimed in claim 1, it is characterized in that: described wallboard inside is embedded with foam insulation, and this foam insulation is near the outside of wallboard, and described upper and lower transverse tube and vertical tube are near the inboard of wallboard.