CN211119830U - Assembled decoration water supply and radiation heat supply system capable of recycling exhaust energy - Google Patents

Abstract

The utility model provides a retrieve assembled fitment water supply and radiant heating system of energy of airing exhaust, includes the shower room that constitutes by building wall, the top of shower room is equipped with steam recovery unit, be equipped with wall heat transfer coil pipe in the building wall, steam recovery unit is linked together through pipeline and wall heat transfer coil pipe, the shower room is equipped with the lateral wall exhaust fan near wall heat transfer coil pipe department, the lateral wall exhaust fan blows in the cavity between wall heat transfer coil pipe and the building wall through the steam of air outlet in with the shower room. Utilize the utility model discloses, can recycle the high temperature steam in the room, utilize the heat promotion whole shower room temperature ability that the bathing produced, comfort when improving the shower.

Description

Assembled decoration water supply and radiation heat supply system capable of recycling exhaust energy

Technical Field

The utility model relates to a heat recovery system, concretely relates to assembled fitment water supply and radiant heating system of energy of retrieving to exhaust.

Background

At present, other rooms have heating in winter, and the temperature is higher, very can install the new trend system to the family, and the new trend system need be aired exhaust, and high temperature steam exhaust outdoor can inevitably make the energy consumption increase, if high temperature steam can not obtain make full use of, will be very big loss.

In addition, when bathing in winter, if the high-temperature hot air generated by the hot water for bathing is discharged out of the shower room and cannot be better utilized, especially for a large-scale public shower room, the energy consumption is also greatly increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome the defect that prior art exists, provide an ability recycle high temperature steam in the room, utilize the heat that the bathing produced to promote the assembled fitment water supply and the radiant heating system of the energy of airing exhaust of the whole shower room temperature.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a retrieve assembled fitment water supply and radiant heating system of energy of airing exhaust, includes the shower room that constitutes by building wall, the top of shower room is equipped with steam recovery unit, be equipped with wall heat transfer coil pipe in the building wall, steam recovery unit is linked together through pipeline and wall heat transfer coil pipe, the shower room is equipped with the lateral wall exhaust fan near wall heat transfer coil pipe department, the lateral wall exhaust fan blows in the cavity between wall heat transfer coil pipe and the building wall through the steam of air outlet in with the shower room.

Furthermore, the hot gas recovery device comprises a room exhaust pipe and a hot gas recovery fan which are connected with each other, the hot gas recovery fan is fixed at the top of the shower room, and the room exhaust pipe is communicated with the wall surface heat exchange coil pipe through the pipeline.

Further, the building wall body is equipped with the electronic air outlet of side wall in the position of keeping away from the lateral wall exhaust fan, the electronic air outlet of side wall is used for the air current discharge after the wall heat transfer coil pipe heat transfer.

Further, the air outlet is in a slit shape.

Furthermore, a hand washing basin faucet is externally connected to the pipeline.

Furthermore, a shower nozzle is arranged in the shower room.

Further, the wall heat exchange coil is fixed on the building wall through the wall aluminum alloy heat conduction keel.

Further, heat-conducting grease is arranged at the joint of the wall surface heat exchange coil and the wall surface aluminum alloy heat-conducting keel.

Furthermore, the wall surface heat exchange coil is covered with an assembled aluminum alloy decorative wall panel.

Furthermore, heat exchange reinforcing ribs are arranged on the assembled aluminum alloy decorative wall panel.

Compared with the prior art, the utility model has the advantages as follows:

the room is provided with a heating system, hot air with higher temperature is concentrated into the air exhaust pipe from the room from different rooms, then the temperature of external hot water in the pipeline is raised, one part of the heated hot water can be used for supplying water to a hand washing basin faucet and a shower nozzle in the shower room, and the other part of the heated hot water is introduced into a wall surface heat exchange coil pipe for heat exchange, so that the environmental temperature of the shower room is raised, and the comfort in shower is improved;

when showering in winter, the air with heat at the upper part of the shower room enters the room exhaust pipe through the hot air recovery fan, and the air with heat at the lower part of the shower room is blown into a cavity between the wall heat exchange coil and the building wall through the side wall exhaust fan, so that the temperature of the wall of the shower room is improved, and the environment temperature of the shower room is further improved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic view of the installation structure of the wall heat exchange coil in fig. 1.

In the figure, 1, a shower room, 2, a building wall, 3, a hot gas recovery device, 3.1, a room exhaust pipe, 3.2, a hot gas recovery fan, 4, a wall heat exchange coil, 5, a pipeline, 6, a side wall exhaust fan, 7, a strip seam air outlet, 8, a wash basin faucet, 9, a shower nozzle, 10, a wall aluminum alloy heat conduction keel, 11, an assembled aluminum alloy decorative wall panel, 12, heat conduction grease, 13, a copper-aluminum composite heat exchange reinforcing rib, 14 and a side wall electric air outlet.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-2, the present embodiment includes a shower room 1 composed of a building wall 2, a hot air recovery device 3 is disposed on the top of the shower room 1, a wall heat exchange coil 4 is disposed in the building wall 2, the hot air recovery device 3 is communicated with the wall heat exchange coil 4 through a pipeline 5, a side wall exhaust fan 6 is disposed near the wall heat exchange coil in the shower room 1, and the side wall exhaust fan 6 blows hot air in the shower room 1 into a cavity between the wall heat exchange coil 4 and the building wall 2 through a slit-shaped air outlet 7.

Wall heat exchange coil 4 passes through wall aluminum alloy heat conduction fossil fragments 10 to be fixed on building wall 3, cover one deck assembled aluminum alloy decorative wall panel 11 on wall heat exchange coil 4.

The hot gas recovery device 3 comprises a room exhaust pipe 3.1 and a hot gas recovery fan 3.2, the hot gas recovery fan 3.2 is fixed at the top of the shower room 1, the hot gas recovery fan 3.2 is connected with the room exhaust pipe 3.1, and the room exhaust pipe 3.1 is communicated with the wall surface heat exchange coil pipe 4 through the pipeline 5.

The pipeline 5 is internally and externally connected with tap water and externally connected with hot water in winter; in winter, rooms such as bedrooms are provided with heating systems, the temperature in the rooms is high, a plurality of families can install a fresh air system, the fresh air system needs to exhaust air, the exhausted air with heat heats external hot water in a pipeline 5 through a room exhaust pipe 3.1, then one part of the hot water can be used for supplying water to a hand washing basin faucet 8 and a shower nozzle 9 in a shower room 1, and the other part of the hot water is introduced into a wall surface heat exchange coil 4.

In addition, when bathing, the air with heat at the upper part of the shower room 4 can be introduced into the room exhaust pipe 3.1 through the hot air recovery fan 3.2, and the air with heat at the lower part of the shower room 1 is blown into the cavity between the wall surface heat exchange coil 4 and the building wall 2 through the side wall exhaust fan 6 and the slit air outlet 7, so that the air in the cavity between the assembled aluminum alloy decorative wall panel 11 and the building wall 2 is heated.

The assembled aluminum alloy decorative wall panel 11 has good heat exchange performance. When hot water is introduced into the wall surface heat exchange coil 4, on one hand, air in a cavity between the assembly type aluminum alloy decorative wall panel 11 and the building wall body 2 is heated, and the air convection and the assembly type aluminum alloy decorative wall panel 11 carry out convection heat exchange, so that the assembly type aluminum alloy decorative wall panel 11 is heated, and the assembly type aluminum alloy decorative wall panel 11 uniformly radiates heat into the shower room 1, so that the purpose of improving the indoor temperature is achieved; on the other hand, the wall heat exchange coil 4 can also heat the assembled aluminum alloy decorative wall panel 11 through radiation heat exchange.

Wall heat exchange coil 4 and assembled aluminum alloy decorate shingle nail 11 and all fix on building wall 2 through wall aluminum alloy heat conduction fossil fragments 10, and wall heat exchange coil 4 accessible wall aluminum alloy heat conduction fossil fragments 10 and assembled aluminum alloy decorate shingle nail 11 and carry out the heat conduction heat transfer, improve assembled aluminum alloy and decorate shingle nail 11's surface temperature.

Comprehensively through three modes of conduction, radiation and convection, the assembled aluminum alloy decorative wall panel 11 is heated by the wall surface heat exchange coil 4, so that heat is uniformly dissipated into the shower room 1, and the indoor temperature is increased.

Because wall heat exchange coil 4 and wall aluminum alloy heat conduction fossil fragments 10's material is different, and have the space on the contact surface, be equipped with heat conduction grease 12 at wall heat exchange coil 4 and wall aluminum alloy heat conduction fossil fragments 10's contact site. Heat conduction grease 12 has good thermal conductivity, can fill the space between wall heat transfer coil 4 and wall aluminum alloy heat conduction fossil fragments 10 to wrap up together some wall heat transfer coil 4 and wall aluminum alloy heat conduction fossil fragments 10, increase heat conduction area.

The assembled aluminum alloy decorative wall panel 11 is provided with copper-aluminum composite heat exchange reinforcing ribs 13, the heat conductivity of copper is higher than that of aluminum, but the mechanical strength is insufficient. The copper-aluminum composite heat exchange reinforcing ribs 13 arranged on the assembly type aluminum alloy decorative wall panel 11 increase heat exchange between the assembly type aluminum alloy decorative wall panel 11 and air in the cavity, further improve the temperature of the assembly type aluminum alloy decorative wall panel 11, and increase the structural strength of the assembly type aluminum alloy decorative wall panel 11.

The shower room 1 is also provided with a side wall electric air outlet 14, and the side wall electric air outlet 14 can be opened when the side wall exhaust fan 6 is opened, so that air after heat exchange with the wall surface heat exchange coil 4 is exhausted outdoors.

Various modifications and variations of the present invention may be made by those skilled in the art, and they are within the scope of the present invention provided they are within the scope of the claims and their equivalents.

What is not described in detail in the specification is prior art that is well known to those skilled in the art.

Claims (10)

1. The utility model provides a retrieve assembled fitment water supply and radiant heating system of exhaust air energy, includes the shower room that constitutes by building wall, its characterized in that: the bathroom is characterized in that a hot air recovery device is arranged at the top of the shower room, a wall surface heat exchange coil is arranged in the building wall body, the hot air recovery device is communicated with the wall surface heat exchange coil through a pipeline, a side wall exhaust fan is arranged at the position, close to the wall surface heat exchange coil, of the shower room, and hot air in the shower room is blown into a cavity between the wall surface heat exchange coil and the building wall body through an air outlet by the side wall exhaust fan.

2. The prefabricated fitment water and radiant heat supply system for recovering exhaust air energy of claim 1, characterized in that: the hot gas recovery device comprises a room exhaust pipe and a hot gas recovery fan which are connected with each other, the hot gas recovery fan is fixed at the top of the shower room, and the room exhaust pipe is communicated with the wall surface heat exchange coil pipe through the pipeline.

3. The prefabricated fitment water supply and radiant heat supply system for recovering exhaust air energy of claim 1 or 2, characterized in that: building wall body is equipped with side wall electric air outlet in the position of keeping away from the lateral wall exhaust fan, side wall electric air outlet is used for the air current discharge after the wall heat transfer coil pipe heat transfer.

4. The prefabricated fitment water supply and radiant heat supply system for recovering exhaust air energy of claim 1 or 2, characterized in that: the air outlet is in a strip seam shape.

5. The prefabricated fitment water supply and radiant heat supply system for recovering exhaust air energy of claim 1 or 2, characterized in that: the pipeline is externally connected with a hand washing basin faucet.

6. The prefabricated fitment water supply and radiant heat supply system for recovering exhaust air energy of claim 1 or 2, characterized in that: a shower nozzle is arranged in the shower room.

7. The prefabricated fitment water supply and radiant heat supply system for recovering exhaust air energy of claim 1 or 2, characterized in that: the wall heat exchange coil is fixed on the building wall through the wall aluminum alloy heat conduction keel.

8. The prefabricated fitment water and radiant heat supply system for recovering exhaust air energy of claim 7, wherein: and heat-conducting grease is arranged at the joint of the wall heat exchange coil and the wall aluminum alloy heat-conducting keel.

9. The prefabricated fitment water supply and radiant heat supply system for recovering exhaust air energy of claim 1 or 2, characterized in that: the wall surface heat exchange coil is covered with an assembled aluminum alloy decorative wall panel.

10. The prefabricated fitment water and radiant heat supply system for recovering exhaust air energy of claim 9, wherein: and heat exchange reinforcing ribs are arranged on the assembled aluminum alloy decorative wall panel.

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