CN113250489A

CN113250489A - A interim board house of energy-conservation nature for engineering is built in room

Info

Publication number: CN113250489A
Application number: CN202110648792.3A
Authority: CN
Inventors: 张峰
Original assignee: Shaanxi Xingai Construction Engineering Co ltd
Current assignee: Shaanxi Xingai Construction Engineering Co ltd
Priority date: 2021-06-10
Filing date: 2021-06-10
Publication date: 2021-08-13
Anticipated expiration: 2041-06-10
Also published as: CN113250489B

Abstract

The invention discloses an energy-saving temporary board house for building engineering, which comprises a heat conduction pipe for heat conversion, at least one top plate and a plurality of side plates, wherein each top plate is connected with two adjacent side plates, the heat conduction pipe is positioned at one side of the top plate close to the side plates, the water inlet end of the heat conduction pipe is connected with a hot water source or a cold water source, and the water outlet end of the heat conduction pipe is provided with a recovery pipe. The interim board house of energy-conservation nature for building engineering of design through the connection in heat pipe and hot water source or cold water source, is convenient for adjust the temperature in the board house, improves the comfort level in board house, simultaneously, can carry out recycle to the flowing water in the heat pipe, and then makes the engineering cost reduction in earlier stage.

Description

A interim board house of energy-conservation nature for engineering is built in room

Technical Field

The invention relates to the field of building construction, in particular to an energy-saving temporary board house for building construction.

Background

The temporary board house is an environment-friendly economical movable board house which is widely applied to field operation such as road, railway, building construction and the like, takes light steel as a framework, takes a sandwich board as a containment material, performs space combination by standard modulus series, and adopts bolt connection as a component.

In the related art, the construction period of the construction engineering is limited usually, workers do not need to live in a construction site for a long time, and only need to stay during construction, so the construction site provides temporary board houses for the workers, but the temporary board houses are poor in heat insulation and heat preservation effect, and air conditioners are needed to be installed for adjusting the indoor temperature.

In view of the above-mentioned related art, the inventor believes that installing an air conditioner in a temporary board house increases the site power consumption, so that the project early cost increases.

Disclosure of Invention

In order to reduce the early cost of the project, the invention provides an energy-saving temporary board house for building projects.

The invention provides an energy-saving temporary board house for house construction engineering, which adopts the following technical scheme:

the utility model provides an interim board house of energy-conservation nature for building engineering, is including heat pipe, at least one roof and a plurality of curb plate that is used for the heat conversion, each the roof is with four of end to end the curb plate is connected, the heat pipe is located the roof is close to curb plate one side, the end of intaking of heat pipe is connected with hot water source or cold water source, the play water end of heat pipe is provided with the recovery tube.

By adopting the technical scheme, the top plate and the side plate are assembled, the heat conduction pipe is fixed on one side, close to the side plate, of the top plate, then the water inlet end of the heat conduction pipe is determined to be connected with a hot water source or a cold water source according to the indoor temperature, if the indoor temperature is high, the water inlet end of the heat conduction pipe is communicated with the cold water source, so that the cold water absorbs indoor heat through the heat conduction pipe, the indoor temperature is reduced, and when the indoor temperature is reduced, the water inlet end of the heat conduction pipe is connected with the hot water source, so that the hot water radiates the heat indoors through the heat conduction pipe, and the indoor temperature is improved; the interim board house of energy-conservation nature for building engineering of design through the connection in heat pipe and hot water source or cold water source, is convenient for adjust the temperature in the board house, improves the comfort level in board house, simultaneously, can carry out recycle to the flowing water in the heat pipe, and then makes the engineering cost reduction in earlier stage.

Optionally, the top plate includes an outer top plate, a heat absorbing layer, a first heat insulating layer and an inner top plate, a plurality of heat absorbing pipes are arranged in the heat absorbing layer, the outer top plate, the heat absorbing layer, the first heat insulating layer and the inner top plate are sequentially connected by one side of the inner top plate, which is far away from the side plate, water inlet ends of all the heat absorbing pipes are connected with a cold water source, and water outlet ends of all the heat absorbing pipes are communicated with the recovery pipe.

By adopting the technical scheme, when the top plate is installed, the inner top plate is connected with the side plate, the first heat-preservation layer is connected with one side, far away from the side plate, of the inner top plate, the side, far away from the inner top plate, of the first heat-preservation layer is connected with the heat-absorbing layer, the heat-absorbing pipe is arranged in the heat-absorbing layer, one side, far away from the first heat-preservation layer, of the heat-absorbing layer is connected with the outer top plate, and the outer top plate is fixed with the inner top plate; the setting of outer roof is convenient for protect the board house, reduces the damage of external factor to the board house, and the setting of heat-sink shell is convenient for absorb external heat, and then is convenient for heat the rivers in the heat-sink shell, reduces the waste of resource, practices thrift the cost, and the setting on first heat preservation is convenient for maintain the temperature in the board house, and then reduces the input of cost.

Optionally, be provided with first control valve and a plurality of atomizer on the heat pipe, the atomizer is followed the axial of heat pipe distributes, first control valve is used for controlling atomizer's switch.

By adopting the technical scheme, when the temperature in the board room is high, the first control valve is started to enable the atomizing nozzles to be completely opened, then the heat conduction pipes are communicated with the cold water source, so that cold water enters the board room through the atomizing nozzles, the temperature in the board room is further reduced, when the temperature in the board room is relatively low, the first control valve is closed to enable the atomizing nozzles to be closed, then the heat conduction pipes are communicated with the hot water source, the heat of the hot water is dissipated out through the side walls of the heat conduction pipes, and the temperature in the board room is increased; due to the arrangement of the atomizing spray head, cold water is convenient to disperse, so that the temperature in the board room is reduced, and meanwhile, the drying degree in the board room is reduced.

Optionally, a plurality of fins are arranged on each of the heat absorbing pipe and the heat conducting pipe.

Through adopting above-mentioned technical scheme, the area of contact of increase heat-absorbing pipe and heat-sink shell is set up to the fin, and then the heat-absorbing pipe of being convenient for is to the thermal absorption of heat-absorbing layer, simultaneously, area of contact in increase heat pipe and the board house, and then the heat pipe of being convenient for is to the thermal absorption in the board house and the giving off of heat in the heat pipe.

Optionally, the side plates include an inner side plate, a second insulating layer, and an outer side plate, and the inner side plate, the second insulating layer, and the outer side plate are sequentially disposed from one side close to the heat pipe to one side far away from the heat pipe.

Through adopting above-mentioned technical scheme, the setting of interior plate and outer panel is convenient for protect the second heat preservation, reduces the external environment and to the damage of second heat preservation, practices thrift the cost, and the setting of second heat preservation is convenient for maintain the stability of temperature in the board house, reduces thermal scattering and disappearing in the board house, simultaneously, reduces external thermal entering.

Optionally, the heat absorption pipe includes a heat absorption section, a conveying section, and a control element for controlling a water flow path in the conveying section, a water inlet end of the heat absorption section is connected to a cold water source, a water outlet end of the heat absorption section is connected to the conveying section, and one end of the conveying section, which is far away from the heat absorption section, is respectively communicated with the recovery pipe and the heat conduction pipe.

By adopting the technical scheme, when the temperature in the board room is lower, the control piece is adjusted to enable the conveying section to be communicated with the heat conduction pipe, meanwhile, the conveying section is disconnected with the recovery pipe, when the indoor temperature is higher, the control piece is adjusted to enable the conveying section to be disconnected with the heat conduction pipe, and meanwhile, the conveying section is communicated with the recovery pipe; the heat absorption section is convenient for absorb the heat in the heat absorption layer, the conveying section is convenient for convey the hot water in the heat absorption section, and the control part is convenient for control the path of the water flow in the conveying section.

Optionally, the recycling pipe includes a first recycling section, a second recycling section, and a collecting section, the first recycling section and the second recycling section are both communicated with the collecting section, one end of the first recycling section, which is far away from the collecting section, is communicated with the water outlet end of the heat conducting pipe, and the second recycling section is communicated with one end of the conveying section, which is far away from the heat absorbing section.

Through adopting above-mentioned technical scheme, the setting of first recovery section is convenient for retrieve the rivers in the heat-conducting tube, and the setting of second recovery section is convenient for retrieve the rivers in the heat-absorbing tube, collects the setting of section, is convenient for retrieve the flowing water in first recovery section and the second recovery section, improves the utilization ratio of rivers.

Optionally, the control element comprises a second control valve located at the connection of the conveying section and the second recovery section, and a third control valve located at the connection of the conveying section and the heat conductive pipe.

Through adopting above-mentioned technical scheme, the intercommunication or the disconnection of section and second recovery section are retrieved in the control of being convenient for to the setting of second control valve, and the intercommunication or the disconnection of section and heat pipe are carried in the control of being convenient for to the setting of third control valve, and then are convenient for utilize the hot water in the heat absorption pipe.

In summary, the invention includes at least one of the following beneficial technical effects:

1. the designed energy-saving temporary board house for the house construction project is convenient for adjusting the temperature in the board house through the connection of the heat conduction pipe and a hot water source or a cold water source, the comfort level of the board house is improved, and meanwhile, flowing water in the heat conduction pipe can be recycled, so that the early cost of the project is reduced;

2. the arrangement of the outer top plate is convenient for protecting the board room, the damage of external factors to the board room is reduced, the arrangement of the heat absorption layer is convenient for absorbing external heat, further the water flow in the heat absorption pipe is convenient for heating, the waste of resources is reduced, the cost is saved, the arrangement of the first heat preservation layer is convenient for maintaining the temperature in the board room, and further the cost input is reduced;

3. the setting of fin, the area of contact of increase heat-absorbing pipe and heat-sink shell, and then the heat-absorbing pipe of being convenient for is to the thermal absorption of heat-absorbing layer, simultaneously, the area of contact in increase heat pipe and the board room, and then the heat pipe of being convenient for is to the thermal absorption in the board room and the giving off of heat in the heat pipe.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

Fig. 2 is a cross-sectional view of an embodiment of the present invention.

Fig. 3 is a partial structural schematic diagram of an embodiment of the present invention.

Description of reference numerals: 1. a heat conducting pipe; 2. a top plate; 21. an outer top plate; 22. a heat absorbing layer; 23. a first insulating layer; 24. an inner ceiling plate; 3. a side plate; 31. an inner side plate; 32. a second insulating layer; 33. an outer panel; 4. a recovery pipe; 41. a first recovery section; 42. a second recovery section; 43. a collection section; 5. a heat absorbing tube; 51. a heat absorption section; 52. a conveying section; 53. a control member; 531. a second control valve; 532. a third control valve; 6. an atomizing spray head; 7. a first control valve; 8. and a fin.

Detailed Description

The present invention is described in further detail below with reference to figures 1-3.

The embodiment of the invention discloses an energy-saving temporary board house for house building engineering.

Referring to fig. 1 and 2, an energy-saving temporary board house for building engineering includes a heat pipe 1 for heat conversion, at least one top plate 2, and a plurality of side plates 3, in this embodiment, two top plates 2 and eight side plates 3 are provided, each top plate 2 corresponds to four side plates 3, each top plate 2 is welded to four side plates 3 connected end to end, and two adjacent side plates 3 are welded, the heat pipe 1 is fixed to one side of the top plate 2 close to the side plates 3 by bolts, in this embodiment, a metal pipe is used as a conduit, in other embodiments, a material with strong heat conductivity can be used, a water inlet end of the heat pipe 1 is communicated with a hot water source or a cold water source, and a water outlet end of the heat pipe 1 is welded with a recovery pipe 4; the setting of heat pipe 1 is convenient for adjust the temperature in the board room through switching hot water supply and cold water supply, and then reduces the installation of thermoregulation device for the cost reduction of engineering early stage.

Referring to fig. 1 and 2, be provided with first control valve 7 and a plurality of atomizer 6 on heat pipe 1, first control valve 7 passes through the bolt fastening on the lateral wall of heat pipe 1, atomizer 6 and heat pipe 1 intercommunication, and whole atomizer 6 along the axial evenly distributed of heat pipe 1, first control valve 7 is used for controlling the switch of atomizer 6, and the setting of atomizer 6 is convenient for cool down in the board house, simultaneously, reduces the degree of dryness in the board house.

Referring to fig. 1 and 2, the side plate 3 includes an inner plate 31, a second heat insulation layer 32 and an outer plate 33, and the inner plate 31, the second heat insulation layer 32 and the outer plate 33 are sequentially arranged from one side close to the heat pipe 1 to one side far away from the heat pipe 1, one side of the inner plate 31 is welded with the top plate 2, one side of the inner plate far away from the top plate 2 is fixed with the ground through anchor bolts, the second heat insulation layer 32 is adhered to the outer surface of the inner plate 31, the outer plate 33 is adhered to one side of the second heat insulation layer 32 far away from the inner plate 31, and the outer plate 33 is welded with the inner plate 31, so that the heat insulation performance of the side plate 3.

Referring to fig. 1 and 2, the top plate 2 includes an outer top plate 21, a heat absorbing layer 22, a first heat insulating layer 23 and an inner top plate 24, the heat absorbing layer 22 is disposed to absorb heat from the outside, a plurality of heat absorbing pipes 5 are fixed in the heat absorbing layer 22 through bolts, the outer top plate 21, the heat absorbing layer 22, the first heat insulating layer 23 and the inner top plate 24 are sequentially bonded from the side of the inner top plate 24 away from the side plate 3, the inner top plate 24 is welded to the outer top plate 21, the side of the inner top plate 24 away from the first heat insulating layer 23 is welded to the inner side plate 31 and the outer side plate 33, stability of the board room is improved, safety of the board room is improved, water inlet ends of all the heat absorbing pipes 5 are connected to a cold water source to absorb heat in the heat absorbing layer 22 and reduce heat loss, utilization rate of natural resources is improved, water outlet ends of all the heat absorbing pipes 5 are communicated to the recovery pipes 4 to recycle water flow in the water absorbing pipes, the waste of resources is reduced, and further energy is saved.

Referring to fig. 2 and 3, a plurality of fins 8 are fixed on the heat absorbing pipe 5 and the heat conducting pipe 1 through bolts, all the fins 8 are uniformly distributed along the axial direction of the heat absorbing pipe 5 and the heat conducting pipe 1, and the arrangement of the fins 8 improves the heat absorbing capacity of the heat absorbing pipe 5, and simultaneously improves the heat absorbing capacity and the heat dissipating capacity of the heat conducting pipe 1, thereby realizing the adjustment of the temperature in the board room.

Referring to fig. 1 and 3, the heat absorption pipe 5 includes a heat absorption section 51, a conveying section 52 and a control member 53 for controlling a water flow path in the conveying section 52, a water inlet end of the heat absorption section 51 is communicated with a cold water source, a water outlet end of the heat absorption section 51 is communicated with the conveying section 52, and one end of the conveying section 52, which is far away from the heat absorption section 51, is respectively communicated with the recovery pipe 4 and the heat conduction pipe 1, so that water flow in the heat absorption section 51 is reasonably utilized, heat loss is reduced, and energy saving is realized.

Referring to fig. 1 and 3, the recycling pipe 4 includes a first recycling section 41, a second recycling section 42 and a collecting section 43, the first recycling section 41 and the second recycling section 42 are both communicated with the collecting section 43, one end of the first recycling section 41, which is far away from the collecting section 43, is communicated with a water outlet end of the heat conducting pipe 1, the second recycling section 42 is communicated with one end of the conveying section 52, which is far away from the heat absorbing section 51, the control part 53 includes a second control valve 531 and a third control valve 532, the second control valve 531 is fixed at a connection position of the conveying section 52 and the second recycling section 42 through bolts, so as to adjust the connection and disconnection between the conveying section 52 and the second recycling section 42, and the third control valve 532 is fixed at a connection position of the conveying section 52 and the heat conducting pipe 1 through bolts, so as to adjust the connection and disconnection between the conveying section 52 and the heat conducting pipe 1 and the second recycling section 42, and further facilitate control of a path of water flow in the heat absorbing section 51.

The implementation principle of the energy-saving temporary board house for the house building project in the embodiment of the invention is as follows: firstly, an inner side plate 31, a second heat preservation layer 32 and an outer side plate 33 are sequentially connected, an inner top plate 24 is connected with the inner side plate 31, the second heat preservation layer 32 and the outer side plate 33, a first heat preservation layer 23 is connected with one side, far away from a side plate 3, of the inner top plate 24, a first heat preservation layer 23 is connected with one side, far away from the inner top plate 24, of the heat absorption layer 22, a heat absorption pipe 5 is arranged in the heat absorption layer 22, one side, far away from the first heat preservation layer 23, of the heat absorption layer 22 is connected with an outer top plate 21, a heat conduction pipe 1 is fixed on one side, close to the side plate 3, of the inner top plate 24, a water inlet end of the heat conduction pipe 1 is determined to be connected with a hot water source or a cold water source according to indoor temperature, if the temperature in a board room is high, the heat conduction pipe 1 and a heat absorption section 51 are respectively communicated with the cold water source, then a first control valve 7 is started, so that an atomizing nozzle 6 is completely opened, and cold water enters the board room through the atomizing nozzle 6, further reducing the temperature in the board room, closing the third control valve 532, opening the second control valve 531, so that the water in the heat absorption section 51 flows to the second recovery section 42 through the conveying section 52, and finally is collected in the collecting section 43; when the temperature in the board room is relatively low, the first control valve 7 is closed, the atomizing spray head 6 is closed, the heat conduction pipe 1 is communicated with a hot water source, the heat absorption section 51 is connected with a cold water source, the third control valve 532 is opened, the second control valve 531 is closed, water in the conveying section 52 flows into the heat conduction pipe 1, heat is dissipated through the side wall of the heat conduction pipe 1 and the fins 8, the temperature in the board room is increased, and the temperature in the board room is adjusted.

The above are all preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a temporary board house of energy-conservation nature for engineering is built in room which characterized in that: including heat pipe (1), at least one roof (2) and a plurality of curb plate (3) that are used for the heat conversion, each roof (2) and end to end connection four curb plate (3) are connected, heat pipe (1) are located roof (2) are close to curb plate (3) one side, the end of intaking of heat pipe (1) is connected with hot water source or cold water source, the play water end of heat pipe (1) is provided with recovery tube (4).

2. The energy-saving temporary board house for building engineering according to claim 1, characterized in that: the roof (2) comprises an outer roof (21), a heat absorption layer (22), a first heat preservation layer (23) and an inner roof (24), a plurality of heat absorption pipes (5) are arranged in the heat absorption layer (22), the outer roof (21), the heat absorption layer (22), the first heat preservation layer (23) and the inner roof (24) are sequentially connected with one side, away from the side plate (3), of the inner roof (24), all water inlet ends of the heat absorption pipes (5) are connected with a cold water source, and all water outlet ends of the heat absorption pipes (5) are communicated with the recovery pipes (4).

3. The energy-saving temporary board house for building engineering according to claim 1, characterized in that: be provided with first control valve (7) and a plurality of atomizer (6) on heat pipe (1), atomizer (6) are followed the axial of heat pipe (1) distributes, first control valve (7) are used for controlling the switch of atomizer (6).

4. The energy-saving temporary board house for building engineering according to claim 2, characterized in that: the heat absorption pipe (5) and the heat conduction pipe (1) are both provided with a plurality of fins (8).

5. The energy-saving temporary board house for building engineering according to claim 1, characterized in that: the side plate (3) comprises an inner side plate (31), a second heat preservation layer (32) and an outer side plate (33), and the inner side plate (31), the second heat preservation layer (32) and the outer side plate (33) are sequentially arranged from one side close to the heat conduction pipe (1) to one side far away from the heat conduction pipe (1).

6. The energy-saving temporary board house for building engineering according to claim 2, characterized in that: the heat absorption pipe (5) comprises a heat absorption section (51), a conveying section (52) and a control part (53) for controlling a water flow path in the conveying section (52), the water inlet end of the heat absorption section (51) is connected with a cold water source, the water outlet end of the heat absorption section (51) is connected with the conveying section (52), and one end, far away from the heat absorption section (51), of the conveying section (52) is respectively communicated with the recovery pipe (4) and the heat conduction pipe (1).

7. The energy-saving temporary board house for building engineering according to claim 6, characterized in that: the recycling pipe (4) comprises a first recycling section (41), a second recycling section (42) and a collecting section (43), the first recycling section (41) and the second recycling section (42) are communicated with the collecting section (43), one end, far away from the collecting section (43), of the first recycling section (41) is communicated with the water outlet end of the heat conduction pipe (1), and the second recycling section (42) is communicated with one end, far away from the heat absorption section (51), of the conveying section (52).

8. The energy-saving temporary board house for building engineering according to claim 7, characterized in that: the control member (53) comprises a second control valve (531) and a third control valve (532), the second control valve (531) being located at the connection of the conveying section (52) and the second recovery section (42), the third control valve (532) being located at the connection of the conveying section (52) and the heat conductive pipe (1).