CN113250489B

CN113250489B - Energy-saving temporary board house for house construction engineering

Info

Publication number: CN113250489B
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: 2024-02-09
Anticipated expiration: 2041-06-10
Also published as: CN113250489A

Abstract

The invention discloses an energy-saving temporary board house for house construction engineering, which comprises a heat conducting 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 conducting pipe is positioned at one side of the top plate, which is close to the side plates, the water inlet end of the heat conducting pipe is connected with a hot water source or a cold water source, and the water outlet end of the heat conducting pipe is provided with a recovery pipe. The design is used for building engineering's energy-conserving temporary board house, through the connection of heat pipe and hot water source or cold water source, is convenient for adjust the temperature in the board house, improves the comfort level of board house, simultaneously, can carry out recycle to the flowing water in the heat pipe, and then makes engineering early-stage cost reduce.

Description

Energy-saving temporary board house for house construction engineering

Technical Field

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

Background

The temporary slab house is a temporary house widely applied to field operations such as roads, railways, building construction and the like, and is an environment-friendly and economic movable slab house with a brand-new concept, wherein the temporary slab house takes light steel as a framework, sandwich boards as enclosure materials, standard modulus series are used for space combination, and components are connected by bolts.

In the related art, the construction period of the building engineering is limited generally, workers do not need to live on a construction site for a long time, and only need to live in the construction period, so the construction site provides a temporary board house for the workers, but the temporary board house has poor heat insulation and poor heat preservation effect, and an air conditioner is required to be installed for adjusting the indoor temperature.

With respect to the related art described above, the inventor considers that installing an air conditioner in a temporary board house increases power consumption of a construction site, resulting in an increase in the engineering early-stage cost.

Disclosure of Invention

In order to reduce the engineering early-stage cost, the invention provides an energy-saving temporary board house for house construction engineering.

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

the utility model provides an energy-conserving temporary board house for engineering is built to room, includes heat pipe, at least one roof and a plurality of curb plate that are used for the heat conversion, every the roof with four of end to end curb plate connection, the heat pipe is located the roof is close to curb plate one side, the water inlet end and the hot water source or the cold water source of heat pipe are connected, the water outlet end of heat pipe is provided with the recovery pipe.

By adopting the technical scheme, firstly, the top plate and the side plates are assembled, then the heat conducting pipe is fixed on one side of the top plate, which is close to the side plates, then the water inlet end of the heat conducting 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 higher, the water inlet end of the heat conducting pipe is communicated with the cold water source, so that cold water absorbs indoor heat through the heat conducting pipe, the indoor temperature is further reduced, and when the indoor temperature is reduced, the water inlet end of the heat conducting pipe is connected with the hot water source, so that the hot water emits heat to the indoor through the heat conducting pipe, and the indoor temperature is further improved; the design is used for building engineering's energy-conserving temporary board house, through the connection of heat pipe and hot water source or cold water source, is convenient for adjust the temperature in the board house, improves the comfort level of board house, simultaneously, can carry out recycle to the flowing water in the heat pipe, and then makes engineering early-stage cost reduce.

Optionally, the roof includes outer roof, heat sink, first heat preservation and interior roof, be provided with a plurality of heat absorption pipes in the heat sink, outer roof, heat sink, first heat preservation and interior roof by interior roof keep away from curb plate one side is connected gradually, all the water inlet end of heat absorption pipe all is connected with the cold water source, all the water outlet end of heat absorption pipe all with the recovery pipe intercommunication.

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

Optionally, the heat conduction pipe is provided with a first control valve and a plurality of atomizer, the atomizer is followed the axial distribution of heat conduction pipe, a control valve is used for controlling the switch of atomizer.

By adopting the technical scheme, when the temperature in the board house is higher, the first control valve is started, so that the atomizing nozzle is fully opened, then the heat-conducting pipe is communicated with the cold water source, so that cold water enters the board house through the atomizing nozzle, further, the temperature in the board house is reduced, when the temperature in the board house is relatively propped against, the first control valve is closed, so that the atomizing nozzle is closed, then the heat-conducting pipe is communicated with the hot water source, so that the heat of the hot water is emitted through the side wall of the heat-conducting pipe, and the temperature in the board house is increased; the setting of atomizer, the outflow of the cold water of being convenient for, and then make the interior temperature of board room reduce, simultaneously, reduce the dry degree in the board room.

Optionally, a plurality of fins are arranged on the heat absorption tube and the heat conduction tube.

Through adopting above-mentioned technical scheme, the setting of fin, the area of contact of increase heat pipe and heat sink, and then the heat pipe of being convenient for absorbs the heat of heat sink, simultaneously, the area of contact in increase heat pipe and the board house, and then the heat pipe of being convenient for absorbs the heat in the board house and gives off the heat in the heat pipe.

Optionally, the curb plate includes interior side plate, second heat preservation and lateral plate, just interior side plate, second heat preservation and lateral plate set gradually from being close to heat pipe one side to keeping away from heat pipe one side.

Through adopting above-mentioned technical scheme, the setting of interior panel and lateral plate is convenient for protect the second heat preservation, reduces the damage of external environment to the 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 the thermal dissipation in the board house, simultaneously, reduces external thermal entering.

Optionally, the heat absorption pipe includes heat absorption section, delivery segment and control piece of the interior water flow path of control delivery segment, the water inlet end and the cold water source of heat absorption section are connected, the water outlet end of heat absorption section with the delivery segment is connected, the delivery segment keep away from heat absorption section one end respectively with recovery pipe and heat conduction pipe intercommunication.

By adopting the technical scheme, when the temperature in the board house is lower, the control piece is adjusted to ensure that the conveying section is 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 ensure that the conveying section is disconnected with the heat conduction pipe, and meanwhile, the conveying section is communicated with the recovery pipe; the setting of heat absorption section is convenient for absorb the heat in the heat absorption layer, and the setting of delivery segment is convenient for carry the hot water in the heat absorption section, and the setting of control spare is convenient for control the route of the interior rivers of delivery segment.

Optionally, the recovery pipe includes first recovery section, second recovery section and gathers the section, first recovery section and second recovery section all with gather the section intercommunication, first recovery section keep away from gather section one end with the play water end intercommunication of heat pipe, second recovery section with carry the section to keep away from heat absorption section one end intercommunication.

Through adopting above-mentioned technical scheme, the setting of first recovery section is convenient for retrieve the rivers in the heat pipe, and the setting of second recovery section is convenient for retrieve the rivers in the heat pipe, gathers 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 member includes a second control valve and a third control valve, the second control valve is located at a connection of the conveying section and the second recovery section, and the third control valve is located at a connection of the conveying section and the heat conducting pipe.

Through adopting above-mentioned technical scheme, the setting of second control valve, the control of being convenient for carries section and the intercommunication or the disconnection of second recovery section, and the setting of third control valve is convenient for control carries section and heat pipe's intercommunication or disconnection, and then is convenient for utilize the hot water in the heat pipe.

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

1. the energy-saving temporary board house for house construction engineering is convenient to adjust the temperature in the board house and improve the comfort level of the board house through the connection of the heat-conducting pipe and the hot water source or the cold water source, and meanwhile, running water in the heat-conducting pipe can be recycled, so that the early-stage cost of the engineering is reduced;

2. the arrangement of the outer top plate is convenient for protecting the board house, reducing the damage of external factors to the board house, the arrangement of the heat absorption layer is convenient for absorbing external heat, thereby being convenient for heating water flow in the heat absorption pipe, reducing the waste of resources, saving the cost, and the arrangement of the first heat preservation layer is convenient for maintaining the temperature in the board house, thereby reducing the investment of the cost;

3. the fin is arranged, so that the contact area between the heat absorption pipe and the heat absorption layer is increased, the heat absorption pipe is convenient to absorb heat of the heat absorption layer, and meanwhile, the contact area between the heat conduction pipe and the inside of the board room is increased, and the heat absorption of the heat conduction pipe to the inside of the board room and the heat dissipation of the heat conduction pipe are facilitated.

Drawings

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

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

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

Reference numerals illustrate: 1. a heat conduction pipe; 2. a top plate; 21. an outer top plate; 22. a heat absorbing layer; 23. a first heat-retaining layer; 24. an inner top plate; 3. a side plate; 31. an inner side plate; 32. a second heat-insulating layer; 33. an outer panel; 4. a recovery pipe; 41. a first recovery section; 42. a second recovery section; 43. a pooling section; 5. a heat absorbing pipe; 51. a heat absorbing section; 52. a conveying section; 53. a control member; 531. a second control valve; 532. a third control valve; 6. an atomizing nozzle; 7. a first control valve; 8. and (3) a fin.

Detailed Description

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

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

Referring to fig. 1 and 2, an energy-saving temporary board house for house construction engineering comprises a heat conducting pipe 1 for heat conversion, at least one top plate 2 and a plurality of side plates 3, wherein in the embodiment, two top plates 2 and eight side plates 3 are arranged, each top plate 2 corresponds to four side plates 3, each top plate 2 is welded with the four side plates 3 connected end to end, the two adjacent side plates 3 are welded, the heat conducting pipe 1 is fixed on one side of the top plate 2 close to the side plates 3 through bolts, a metal pipe is adopted as a conduit in the embodiment, materials with strong heat conductivity in other embodiments can be adopted, the water inlet end of the heat conducting pipe 1 is communicated with a hot water source or a cold water source, and the water outlet end of the heat conducting pipe 1 is welded with a recovery pipe 4; the heat-conducting pipe 1 is arranged, so that the temperature in a board house can be conveniently adjusted by cutting a heat-exchanging water source and a cold water source, and the installation of temperature-adjusting equipment is further reduced, so that the cost in the earlier stage of engineering is reduced.

Referring to fig. 1 and 2, a first control valve 7 and a plurality of atomizer 6 are arranged on the heat pipe 1, the first control valve 7 is fixed on the side wall of the heat pipe 1 through bolts, the atomizer 6 is communicated with the heat pipe 1, and all the atomizer 6 are uniformly distributed along the axial direction of the heat pipe 1, the first control valve 7 is used for controlling the switch of the atomizer 6, the atomizer 6 is arranged, so that the temperature in a board house is conveniently reduced, and meanwhile, the dryness in the board house is reduced.

Referring to fig. 1 and 2, the side plate 3 includes an inner side plate 31, a second heat insulation layer 32 and an outer side plate 33, and the inner side plate 31, the second heat insulation 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, one side of the inner side 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 foundation bolts, the second heat insulation layer 32 is adhered to the outer surface of the inner side plate 31, the outer side plate 33 is adhered to one side of the second heat insulation layer 32 far away from the inner side plate 31, and the outer side plate 33 is welded with the inner side plate 31, so that the heat insulation performance of the side plate 3 is further enhanced, and the comfort level of indoor temperature is improved.

Referring to fig. 1 and 2, roof 2 includes outer roof 21, heat-absorbing layer 22, first heat preservation 23 and interior roof 24, the setting of heat-absorbing layer 22, be convenient for absorb the heat of external world, and be fixed with a plurality of heat-absorbing pipes 5 through the bolt in the heat-absorbing layer 22, outer roof 21, heat-absorbing layer 22, first heat preservation 23 and interior roof 24 keep away from curb plate 3 one side by interior roof 24 and bond in proper order, and interior roof 24 welds with outer roof 21, interior roof 24 keeps away from first heat preservation 23 one side and welds with interior board 31 and lateral plate 33, the steadiness of board room is improved, and then the security of board room is improved, the water inlet end of all heat-absorbing pipes 5 all is connected with the cold water supply, be convenient for absorb the heat in the heat-absorbing layer 22, reduce the loss of heat, and then improve the utilization ratio to natural resources, the water outlet end of all heat-absorbing pipes 5 all communicates with recovery pipe 4, be convenient for carry out recycle to the rivers in the water-absorbing pipe, reduce the waste of resources, and then the energy saving.

Referring to fig. 2 and 3, a plurality of fins 8 are fixed on the heat absorption tube 5 and the heat conduction tube 1 by bolts, and all fins 8 are uniformly distributed along the axial direction of the heat absorption tube 5 and the heat conduction tube 1, and the arrangement of the fins 8 improves the heat absorption capacity of the heat absorption tube 5, and simultaneously improves the heat absorption capacity and the heat dissipation capacity of the heat conduction tube 1, thereby realizing the adjustment of the temperature in a board room.

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

Referring to fig. 1 and 3, the recovery pipe 4 includes a first recovery section 41, a second recovery section 42 and a collection section 43, the first recovery section 41 and the second recovery section 42 are both communicated with the collection section 43, one end of the first recovery section 41, which is far away from the collection section 43, is communicated with the water outlet end of the heat-conducting pipe 1, the second recovery section 42, which is far away from the heat-absorbing section 51, is communicated with the conveying section 52, the control member 53 includes a second control valve 531 and a third control valve 532, the second control valve 531 is fixed at the junction of the conveying section 52 and the second recovery section 42 through bolts, the connection and disconnection of the conveying section 52 and the second recovery section 42 are convenient to adjust, and the third control valve 532 is fixed at the junction of the conveying section 52 and the heat-conducting pipe 1 through bolts, and the connection and disconnection of the conveying section 52 and the heat-conducting pipe 1 and the second recovery section 42 are convenient to adjust, and the water flow path in the heat-absorbing section 51 is convenient to control.

The implementation principle of the energy-saving temporary board house for house construction engineering in the embodiment of the invention is as follows: firstly, the inner side plate 31, the second heat preservation layer 32 and the outer side plate 33 are sequentially connected, then the inner top plate 24 is connected with the inner side plate 31, the second heat preservation layer 32 and the outer side plate 33, then the first heat preservation layer 23 is connected with one side of the inner top plate 24 far away from the side plate 3, then one side of the first heat preservation layer 23 far away from the inner top plate 24 is connected with the heat absorption layer 22, then the heat absorption pipe 5 is arranged in the heat absorption layer 22, one side of the heat absorption layer 22 far away from the first heat preservation layer 23 is connected with the outer top plate 21, then the heat conduction pipe 1 is fixed on one side of the inner top plate 24 near the side plate 3, then the water inlet end of the heat conduction pipe 1 is connected with a hot water source or a cold water source according to the indoor temperature, if the indoor temperature is higher, the heat conduction pipe 1 and the heat absorption section 51 are respectively communicated with the cold water source, then the first control valve 7 is started, so that the atomizing spray head 6 is fully opened, cold water enters the board through the atomizing spray head 6, the temperature in the board is lowered, meanwhile, the third control valve 532 is closed, the second control valve 531 is opened, so that the water flow collected in the heat absorption section 51 is flowed through the conveying section 52 to the final section 43; when the temperature in the board room is relatively low, the first control valve 7 is closed, so that the atomizing nozzle 6 is closed, then the heat conduction pipe 1 is connected with a hot water source, the heat absorption section 51 is connected with a cold water source, then 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 emitted through the side wall of the heat conduction pipe 1 and the fins 8, the temperature in the board room is increased, and then the temperature in the board room is adjusted.

The above embodiments are not intended to limit the scope of the present invention, so: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims

1. An energy-conserving temporary board house for engineering is built in room, its characterized in that: the heat conduction device comprises a heat conduction pipe (1) for heat conversion, at least one top plate (2) and a plurality of side plates (3), wherein each top plate (2) is connected with four side plates (3) connected end to end, the heat conduction pipe (1) is positioned on one side, close to the side plates (3), of the top plate (2), the water inlet end of the heat conduction pipe (1) is connected with a hot water source or a cold water source, and the water outlet end of the heat conduction pipe (1) is provided with a recovery pipe (4);

the top plate (2) comprises an outer top plate (21), a heat absorption layer (22), a first heat preservation layer (23) and an inner top plate (24), wherein a plurality of heat absorption pipes (5) are arranged in the heat absorption layer (22), the outer top plate (21), the heat absorption layer (22), the first heat preservation layer (23) and the inner top plate (24) are sequentially connected from one side, far away from the side plate (3), of the inner top plate (24), and the water inlet ends of all the heat absorption pipes (5) are connected with a cold water source;

the heat absorption pipe (5) comprises a heat absorption section (51), a conveying section (52) and a control piece (53) for controlling a water flow path in the conveying section (52), wherein 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);

the recovery pipe (4) comprises a first recovery section (41), a second recovery section (42) and a collecting section (43), wherein the first recovery section (41) and the second recovery section (42) are communicated with the collecting section (43), one end of the first recovery section (41) away from the collecting section (43) is communicated with the water outlet end of the heat conducting pipe (1), and one end of the second recovery section (42) away from the heat absorbing section (51) is communicated with the conveying section (52);

the control piece (53) comprises a second control valve (531) and a third control valve (532), the second control valve (531) is located at the joint of the conveying section (52) and the second recovery section (42), and the third control valve (532) is located at the joint of the conveying section (52) and the heat conducting pipe (1).

2. An energy efficient temporary board house for use in building construction according to claim 1, wherein: be provided with first control valve (7) and a plurality of atomizer (6) on heat conduction pipe (1), atomizer (6) are followed the axial distribution of heat conduction pipe (1), first control valve (7) are used for controlling the switch of atomizer (6).

3. An energy efficient temporary board house for use in building construction according to claim 1, wherein: a plurality of fins (8) are arranged on the heat absorption pipe (5) and the heat conduction pipe (1).

4. An energy efficient temporary board house for use in building construction according to claim 1, wherein: 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).