CN112695915A - Energy-saving wall body suitable for heating-free indoor bathroom - Google Patents

Abstract

The invention provides an energy-saving wall body suitable for a heating-free indoor bathroom, and belongs to the technical field of main wall body energy conservation. The energy-saving wall body suitable for the heating-free indoor bathroom comprises a base wall and a gas heat-insulating assembly. Basic unit's wall includes the main wall body, the inside cavity that is provided with of main wall body, gaseous heat preservation subassembly includes air inlet pipe way, exhaust pipe way, electric heating pipe and energy supply spare, the air inlet pipe way with exhaust pipe way set up in inside the cavity, energy supply spare includes solar cell panel and storage battery, and solar cell panel and the battery pack that set up through the main wall body outside supply power heating to the electric heating pipe of the inside setting of exhaust pipe way, have improved energy-conserving effect for outside no heating bathroom is flowed into after the outside air that flows in the exhaust pipe way is heated, improves the inside temperature in bathroom, has improved the result of use in no heating bathroom, and is energy-concerving and environment-protective.

Description

Energy-saving wall body suitable for heating-free indoor bathroom

Technical Field

The invention relates to the technical field of wall body energy conservation, in particular to an energy-saving wall body suitable for a heating-free indoor bathroom.

Background

Energy is saved, namely, the energy consumption is reduced as much as possible, and products with the same quantity and the same quality as the original products are produced; or the energy consumption of the same quantity is used for producing products with higher quantity or equal quantity and better quality than the original quantity.

At present, the energy-saving wall body adopted in the market is lack of heat preservation to gas and circulation to internal gas when being used in a non-heating bathroom, so that the non-heating bathroom has poor use effect and poor energy-saving and environment-friendly effects.

Disclosure of Invention

In order to make up for the defects, the invention provides an energy-saving wall body suitable for a heating-free indoor bathroom, and aims to solve the problems that the existing energy-saving wall body is lack of heat preservation on air and circulation on internal air, so that the heating-free bathroom is poor in using effect and poor in energy-saving and environment-friendly effects.

The invention is realized by the following steps:

the invention provides an energy-saving wall body suitable for a heating-free indoor bathroom, which comprises a base wall and a gas heat-insulating assembly.

The basic wall comprises a main wall body, a cavity is arranged in the main wall body, the gas heat-insulation component comprises a gas inlet pipeline, a gas outlet pipeline, an electric heating pipe and a power supply component, the gas inlet pipeline and the gas outlet pipeline are arranged in the cavity, a gas inlet branch pipe is arranged on one side of the gas inlet pipeline and fixedly penetrates one side of the main wall body, the gas inlet branch pipe is communicated with the gas inlet pipeline, a gas outlet branch pipe is arranged on one side of the gas outlet pipeline and fixedly penetrates one side of the main wall body, the gas inlet branch pipe and the gas outlet branch pipe are arranged on the same side, the gas inlet branch pipe and the gas outlet branch pipe are respectively arranged into a plurality of parts, the electric heating pipe is arranged on one side of the inner wall of the gas outlet pipeline, the electric heating pipe is arranged into a plurality of parts, the gas inlet pipeline and the gas outlet pipeline are communicated with, first exhaust fan air-out end orientation inside the exhaust pipe, energy supply spare includes solar cell panel and storage battery, solar cell panel set up in main wall body keeps away from cavity one side, storage battery set up in cavity inner wall one side, solar cell panel with storage battery electric connection, storage battery with electric heating pipe electric connection.

In one embodiment of the invention, air inlet holes are uniformly formed at the connecting part of the main wall body and the air inlet branch pipe, the air inlet holes are arranged corresponding to the air inlet branch pipe, the air inlet branch pipe can conveniently penetrate through the air inlet holes to be communicated with the air outside the main wall body, and air can be conveniently extracted.

In one embodiment of the invention, the main wall body and the exhaust branch pipe are uniformly provided with exhaust holes at the connection part, the exhaust holes and the exhaust branch pipe are correspondingly arranged, so that the exhaust branch pipe passes through the exhaust holes to be communicated with the air outside the main wall body conveniently, and the heat-preserved gas is conveniently discharged.

In one embodiment of the invention, an air inlet is arranged on one side of the main wall body, which is far away from the air inlet branch pipe, so that internal air circulation is prevented, the oxygen content is reduced, and fresh air continuously enters the space through the air inlet to maintain the oxygen concentration in the space.

In an embodiment of the invention, a supporting beam is arranged inside the main wall body, through grooves are arranged inside the supporting beam and respectively correspond to the air inlet pipeline and the air outlet pipeline, the supporting beam is arranged for assisting in supporting the main wall body, and the through grooves respectively correspond to the air inlet pipeline and the air outlet pipeline so as to conveniently fix and support the air inlet pipeline and the air outlet pipeline.

In an embodiment of the invention, a connecting sleeve is arranged at the joint of the air inlet pipeline and the exhaust pipeline, the first exhaust fans are fixedly connected to the inner wall of the connecting sleeve, the number of the first exhaust fans is several, the connecting sleeve is arranged to facilitate the connection of the connecting positions at two sides of the air inlet pipeline and the exhaust pipeline, and the air inside the air inlet pipeline and the air inside the exhaust pipeline are blown into the air inlet pipeline by the arranged first exhaust fans, so that the air inside the air inlet pipeline and the air inside the exhaust pipeline flow.

In an embodiment of the invention, the energy supply part further comprises a solar controller and a heating switch, the solar controller is fixedly connected to one side of the inner wall of the cavity, the heating switch is fixedly connected to one side of the exhaust pipeline, the heating switch is respectively electrically connected with the electric heating pipe and the storage battery pack, the solar controller is electrically connected with the solar panel, the solar panel can be conveniently controlled from the outside through the arranged solar controller, and the storage battery can be conveniently controlled to switch on or off the power supply of the electric heating pipe.

In one embodiment of the invention, a fixing plate is arranged on one side of the main wall body close to the air inlet, the fixing plates are arranged on two sides of the outer portion of the main wall body, the fixing plates are arranged corresponding to the main wall body, and the heat insulation assembly arranged on the outer side can be conveniently clamped and fixed through the arranged fixing plates.

In an embodiment of the invention, the heat-insulating plate is clamped between the fixing plates and is arranged corresponding to the main wall, one side of the heat-insulating plate is attached to one side of the main wall, a first cushion is arranged on one side of the outside of the heat-insulating plate, a glass grid fiber layer is arranged on the outside of the first cushion and is fixedly clamped with the fixing plates, a second cushion is arranged on the outside of the glass grid fiber layer, the solar panel is clamped and fixed on the fixing plates, the solar panel is attached to the second cushion and is arranged corresponding to the heat-insulating plate and the glass grid fiber layer, the heat-insulating plate and the glass grid fiber layer are arranged to insulate the air inside the main wall and insulate the external heat, and the heat-insulating plate, the heat-insulating plate and the heat-insulating plate are prevented by the first cushion and the second cushion, The glass grid fiber layer and the solar cell panel are damaged due to mutual collision of expansion with heat and contraction with cold.

In an embodiment of the invention, a connecting pipe is arranged on one side of the air inlet pipeline, which is close to the air inlet, and is communicated with the air inlet pipeline, and the connecting pipe fixedly penetrates through the solar cell panel, the heat insulation board and the glass grid fiber layer, so that the connecting pipe is conveniently communicated with external fresh air, and oxygen-containing air is provided for the inside of the air inlet pipeline.

The invention has the beneficial effects that: 1. the energy-saving wall body suitable for the heating-free indoor bathroom is obtained through the design, when the energy-saving wall body is used, the air inlet pipeline and the air exhaust pipeline are fixed through the cavity arranged in the main wall body, air circulation of the air inlet pipeline and the air exhaust pipeline is facilitated through the first exhaust fan arranged at the joint of the air inlet pipeline and the air exhaust pipeline, the solar panel and the storage battery pack arranged outside the main wall body are used for supplying power and heating the electric heating pipe arranged inside the air exhaust pipeline, the energy-saving effect is improved, external air flowing into the air exhaust pipeline flows into the external heating-free bathroom after being heated, the temperature inside the bathroom is improved, the using effect of the heating-free bathroom is improved, and the energy-saving and environment-.

2. The inside supporting beam that is provided with of main wall body, the inside logical groove that is provided with of supporting beam, logical groove correspond the setting with air inlet pipe way and exhaust pipe respectively, set up supporting beam and be used for the auxiliary stay main wall body, lead to the groove and correspond the convenience with air inlet pipe way and exhaust pipe respectively and fix and support air inlet pipe way and exhaust pipe.

3. Energy supply spare still includes solar control ware and heating switch, solar control ware fixed connection is in cavity inner wall one side, heating switch fixed connection is in exhaust pipe one side, heating switch respectively with electric heating pipe and storage battery electric connection, solar control ware and solar cell panel electric connection, through the solar control ware that sets up, convenient outside is controlled solar cell panel, through the heating switch that sets up, the make-and-break of convenient control battery to the electric heating pipe power supply.

4. The joint is provided with the heated board between the fixed plate, the heated board corresponds the setting with the main wall body, heated board one side laminating is in main wall body one side, heated board outside one side is provided with first cushion, first cushion outside is provided with glass net fibrous layer, glass net fibrous layer is fixed with the fixed plate joint, glass net fibrous layer outside is provided with the second cushion, the solar cell panel joint is fixed in the fixed plate, solar cell panel laminates in the second cushion, solar cell panel corresponds the setting with heated board and glass net fibrous layer respectively, heated board and glass net fibrous layer through the setting are thermal-insulated and are isolated to the external heat to the inside gas of main wall body, prevent the heated board through first cushion and the second cushion that sets up, because the mutual impact of expend with heat and contract with cold leads to the damage between glass net fibrous layer and the solar cell panel.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural view of an energy-saving wall body suitable for a non-heating indoor bathroom according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a foundation wall according to an embodiment of the present invention;

FIG. 3 is a schematic view of a main wall structure according to an embodiment of the present invention;

FIG. 4 is a schematic view of a support beam structure provided by an embodiment of the present invention;

FIG. 5 is a schematic structural view of a gas insulation assembly according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of an air intake circuit according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an exhaust pipeline according to an embodiment of the present invention.

In the figure: 100-base course wall; 110-a main wall; 111-inlet holes; 112-vent hole; 113-a cavity; 114-air inlet; 120-a support beam; 121-through groove; 200-a gas insulation component; 210-an air intake line; 211-an intake manifold; 212-a connecting sleeve; 220-an exhaust line; 221-an exhaust branch pipe; 230-an electric heating tube; 240-connecting pipe; 250-a first exhaust fan; 260-a heat insulation plate; 261-a first cushion; 270-glass mesh fiber layer; 271-a second cushion; 280-fixing plate; 290-a power supply; 291-solar panel; 292-a battery pack; 293-solar controller; 294-heating switch.

Detailed Description

Example 1

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides an energy-conserving wall body in no heating indoor bathroom includes basic unit's wall 100 and gaseous heat preservation subassembly 200, and basic unit's wall 100 is used for supporting and fixing gaseous heat preservation subassembly 200, conveniently heats the circulation to basic unit's wall 100 outside air, and gaseous heat preservation subassembly 200 is used for heating and carrying fresh air to the outside air of basic unit's wall 100, conveniently keeps warm energy-conservingly to the outside gas of basic unit's wall 100.

Referring to fig. 1-4, a base wall 100 includes a main wall 110, a cavity 113 is disposed inside the main wall 110, air inlets 111 are uniformly disposed at the connection between the main wall 110 and an air inlet branch pipe 211 to facilitate the extraction of external air, the air inlets 111 are disposed corresponding to the air inlet branch pipe 211 to facilitate the fixing of the air inlet branch pipe 211 inside the main wall 110 through the air inlets 111, exhaust holes 112 are uniformly disposed at the connection between the main wall 110 and an exhaust branch pipe 221 to facilitate the discharge of heated air and the increase of the temperature inside the bathroom, the exhaust holes 112 are disposed corresponding to the exhaust branch pipe 221 to facilitate the fixing of the exhaust branch pipe 221 inside the main wall 110 through the exhaust holes 112, an air inlet 114 is disposed at a side of the main wall 110 away from the air inlet branch pipe 211 to facilitate the entry of fresh air, a support beam 120 is disposed inside the main wall 110, and the connection between the main wall, the inside logical groove 121 that is provided with of supporting beam 120, logical groove 121 correspond the setting with air inlet pipeline 210 and exhaust pipe 220 respectively, make things convenient for air inlet pipeline 210 and exhaust pipe 220 joint to be fixed in logical groove 121 inner wall.

Referring to fig. 1, 5, 6 and 7, the gas thermal insulation assembly 200 includes an air inlet pipe 210, an air outlet pipe 220, an electric heating pipe 230 and an energy supply member 290, the air inlet pipe 210 and the air outlet pipe 220 are disposed inside the cavity 113 to facilitate air intake and air exhaust, an air inlet branch pipe 211 is disposed at one side of the air inlet pipe 210, the air inlet branch pipe 211 is fixedly connected to one side of the air inlet pipe 210 by welding, the air inlet branch pipe 211 is fixedly penetrated at one side of the main wall 110 to facilitate external air extraction, the air inlet branch pipe 211 is communicated with the air inlet pipe 210 to facilitate air delivery from the air inlet branch pipe 211 to the air inlet pipe 210, an air outlet branch pipe 221 is disposed at one side of the air outlet pipe 220, the air outlet branch pipe 221 is fixedly connected to one side of the air outlet pipe 220 by welding, the air outlet branch pipe 221 is fixedly penetrated at one side of the main wall 110 to facilitate air exhaust, the air, the air inlet branch pipe 211 and the air outlet branch pipe 221 are respectively provided with a plurality of air inlet branch pipes 211 and a plurality of air outlet branch pipes 221, which are convenient for extracting, insulating and discharging air at various heights, the electric heating pipe 230 is arranged on one side of the inner wall of the air outlet pipeline 220, the electric heating pipe 230 is fixedly connected to the inner wall of the air outlet pipeline 220 through bolts, the electric heating pipe 230 is provided with a plurality of air inlet branch pipes 230, which is convenient for heating the circulating air on the inner wall of the air outlet pipeline 220, the air inlet pipeline 210 is communicated with the inside of the air outlet pipeline 220, which is convenient for air circulation, a first air outlet fan 250 is arranged on the inner wall of the joint of the air inlet pipeline 210 and the air outlet pipeline 220, which is convenient for guiding the air in the air inlet pipeline 210 and the air outlet pipeline 220 by the first air outlet fan 250, the air outlet end of the first air outlet fan 250 faces the, the solar panel 291 is convenient to contact with the outside to charge the storage battery group 292, the storage battery group 292 is arranged on one side of the inner wall of the cavity 113, a fixing frame is arranged at the bottom of the storage battery group 292 and fixedly connected to the inner wall of the cavity 113 through bolts, the solar panel 291 is electrically connected with the storage battery group 292, the storage battery group 292 is convenient to be electrically connected with the electric heating pipe 230 and conveniently supplies power to the electric heating pipe 230 through the storage battery group 292, a connecting sleeve 212 is arranged at the joint of the air inlet pipeline 210 and the exhaust pipeline 220, two ends of the connecting sleeve 212 are respectively fixed at two ends of the air inlet pipeline 210 and the exhaust pipeline 220 through clamping, sealing rings are arranged at the joints at two sides of the connecting sleeve 212 to ensure the sealing performance of the joint, the first exhaust fan 250 is fixedly connected to, the number of the first exhaust fans 250 is increased, the air circulation rate is increased, one side of the main wall 110, which is close to the air inlet 114, is provided with a fixing plate 280, one side of the fixing plate 280 is fixedly connected to two sides of the main wall 110 through expansion bolts, the fixing plate 280 is arranged on two sides of the outside of the main wall 110 to facilitate clamping and fixing of an externally arranged heat insulation component, the fixing plate 280 is arranged corresponding to the main wall 110 to facilitate fixing of the fixing plate 280, the heat insulation plate 260 is clamped between the fixing plates 280 to facilitate heat insulation and external heat insulation of the air inside the main wall 110, the heat insulation plate 260 is arranged corresponding to the main wall 110 to facilitate fixing of the heat insulation plate 260, one side of the heat insulation plate 260 is attached to one side of the main wall 110, a cavity is reserved on one attaching side to prevent the heat insulation plate 260 from being deformed due to thermal, the glass grid fiber layer 270 is arranged outside the first cushion 261, the glass grid fiber layer 270 is separated from the interior of the heat insulation board 260 through the first cushion 261, the plates are prevented from mutually colliding due to thermal expansion and cold contraction to cause damage, the glass grid fiber layer 270 is fixedly connected with the fixing plate 280 in a clamping mode, the second cushion 271 is arranged outside the glass grid fiber layer 270, the second cushion 271 is fixedly arranged on the outer side of the glass grid fiber layer 270 in a bonding mode, the solar panel 291 is fixedly connected with the fixing plate 280 in a clamping mode, the solar panel 291 is separated from the glass grid fiber layer 270 through the second cushion 271 to prevent the plates from mutually colliding due to thermal expansion and cold contraction to cause damage, the solar panel 291 is attached to the second cushion 271, the solar panel 291 is respectively arranged corresponding to the heat insulation board 260 and the glass grid fiber layer 270, and is convenient to install the solar panel 291, the heat insulation board 260, air inlet pipeline 210 is provided with connecting pipe 240 near air inlet 114 one side, and connecting pipe 240 passes through welded fastening and connects in air inlet pipeline 210, conveniently inputs air inlet pipeline 210 with outside fresh oxygen-containing air, and connecting pipe 240 communicates with air inlet pipeline 210, and connecting pipe 240 is fixed to run through in solar cell panel 291, heated board 260 and glass net fibrous layer 270, makes things convenient for connecting pipe 240 and outside air contact.

Example 2

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides an energy-conserving wall body in no heating indoor bathroom includes basic unit's wall 100 and gaseous heat preservation subassembly 200, and basic unit's wall 100 is used for supporting and fixing gaseous heat preservation subassembly 200, conveniently heats the circulation to basic unit's wall 100 outside air, and gaseous heat preservation subassembly 200 is used for heating and carrying fresh air to the outside air of basic unit's wall 100, conveniently keeps warm energy-conservingly to the outside gas of basic unit's wall 100.

Referring to fig. 1-4, a base wall 100 includes a main wall 110, a cavity 113 is disposed inside the main wall 110, air inlets 111 are uniformly disposed at the connection between the main wall 110 and an air inlet branch pipe 211 to facilitate the extraction of external air, the air inlets 111 are disposed corresponding to the air inlet branch pipe 211 to facilitate the fixing of the air inlet branch pipe 211 inside the main wall 110 through the air inlets 111, exhaust holes 112 are uniformly disposed at the connection between the main wall 110 and an exhaust branch pipe 221 to facilitate the discharge of heated air and the increase of the temperature inside the bathroom, the exhaust holes 112 are disposed corresponding to the exhaust branch pipe 221 to facilitate the fixing of the exhaust branch pipe 221 inside the main wall 110 through the exhaust holes 112, an air inlet 114 is disposed at a side of the main wall 110 away from the air inlet branch pipe 211 to facilitate the entry of fresh air, a support beam 120 is disposed inside the main wall 110, and the connection between the main wall, the inside logical groove 121 that is provided with of supporting beam 120, logical groove 121 correspond the setting with air inlet pipeline 210 and exhaust pipe 220 respectively, make things convenient for air inlet pipeline 210 and exhaust pipe 220 joint to be fixed in logical groove 121 inner wall.

Referring to fig. 1, 5, 6 and 7, the gas thermal insulation assembly 200 includes an air inlet pipe 210, an air outlet pipe 220, an electric heating pipe 230 and an energy supply member 290, the air inlet pipe 210 and the air outlet pipe 220 are disposed inside the cavity 113 to facilitate air intake and air exhaust, an air inlet branch pipe 211 is disposed at one side of the air inlet pipe 210, the air inlet branch pipe 211 is fixedly connected to one side of the air inlet pipe 210 by welding, the air inlet branch pipe 211 is fixedly penetrated at one side of the main wall 110 to facilitate external air extraction, the air inlet branch pipe 211 is communicated with the air inlet pipe 210 to facilitate air delivery from the air inlet branch pipe 211 to the air inlet pipe 210, an air outlet branch pipe 221 is disposed at one side of the air outlet pipe 220, the air outlet branch pipe 221 is fixedly connected to one side of the air outlet pipe 220 by welding, the air outlet branch pipe 221 is fixedly penetrated at one side of the main wall 110 to facilitate air exhaust, the air, the air inlet branch pipe 211 and the air outlet branch pipe 221 are respectively provided with a plurality of air inlet branch pipes 211 and a plurality of air outlet branch pipes 221, which are convenient for extracting, insulating and discharging air at various heights, the electric heating pipe 230 is arranged on one side of the inner wall of the air outlet pipeline 220, the electric heating pipe 230 is fixedly connected to the inner wall of the air outlet pipeline 220 through bolts, the electric heating pipe 230 is provided with a plurality of air inlet branch pipes 230, which is convenient for heating the circulating air on the inner wall of the air outlet pipeline 220, the air inlet pipeline 210 is communicated with the inside of the air outlet pipeline 220, which is convenient for air circulation, a first air outlet fan 250 is arranged on the inner wall of the joint of the air inlet pipeline 210 and the air outlet pipeline 220, which is convenient for guiding the air in the air inlet pipeline 210 and the air outlet pipeline 220 by the first air outlet fan 250, the air outlet end of the first air outlet fan 250 faces the, the solar panel 291 is convenient to contact with the outside to charge the storage battery group 292, the storage battery group 292 is arranged on one side of the inner wall of the cavity 113, a fixing frame is arranged at the bottom of the storage battery group 292 and fixedly connected to the inner wall of the cavity 113 through bolts, the solar panel 291 is electrically connected with the storage battery group 292, the storage battery group 292 is convenient to be electrically connected with the electric heating pipe 230 and conveniently supplies power to the electric heating pipe 230 through the storage battery group 292, a connecting sleeve 212 is arranged at the joint of the air inlet pipeline 210 and the exhaust pipeline 220, two ends of the connecting sleeve 212 are respectively fixed at two ends of the air inlet pipeline 210 and the exhaust pipeline 220 through clamping, sealing rings are arranged at the joints at two sides of the connecting sleeve 212 to ensure the sealing performance of the joint, the first exhaust fan 250 is fixedly connected to, the number of the first exhaust fans 250 is multiple, the air circulation rate is increased, the energy supply unit 290 further comprises a solar controller 293 and a heating switch 294, the solar controller 293 is fixedly connected to one side of the inner wall of the cavity 113 through bolts, the heating switch 294 is fixedly connected to one side of the exhaust pipeline 220, the heating switch 294 is clamped to one side of the outer portion of the exhaust pipeline 220 through a clamping sleeve, the heating switch 294 is respectively electrically connected with the electric heating pipe 230 and the storage battery group 292, the storage battery group 292 is conveniently controlled to supply power to the electric heating pipe 230, the solar controller 293 is electrically connected with the solar cell panel 291, the solar cell panel 291 is conveniently controlled by the solar controller 293 from the outside, the fixing plate 280 is arranged on one side of the main wall 110 close to the air inlet 114, and one side of, the fixing plates 280 are arranged on two sides of the outer portion of the main wall body 110, the fixing plates 280 are convenient to clamp and fix an externally arranged heat insulation assembly, the fixing plates 280 are arranged corresponding to the main wall body 110, the fixing plates 280 are convenient to fix, the heat insulation plates 260 are clamped between the fixing plates 280, the heat insulation and the external heat insulation of the gas in the main wall body 110 are convenient, the heat insulation plates 260 are arranged corresponding to the main wall body 110, the heat insulation plates 260 are convenient to fix, one sides of the heat insulation plates 260 are attached to one side of the main wall body 110, cavities are reserved on one sides of the attachment, the heat insulation plates 260 are prevented from being deformed due to expansion caused by heat and contraction caused by cold, one sides of the heat insulation plates 260 are provided with the first cushions 261, the first cushions 261 are fixed on one sides of the heat insulation plates 260 through adhesion, the glass, the glass grid fiber layer 270 is fixed to the fixing plate 280 in a clamping manner, a second cushion 271 is arranged outside the glass grid fiber layer 270, the second cushion 271 is fixed to the outer side of the glass grid fiber layer 270 in a bonding manner, the solar panel 291 is fixed to the fixing plate 280 in a clamping manner, the solar panel 291 and the glass grid fiber layer 270 are separated by the second cushion 271, so that the plates are prevented from mutually colliding due to expansion caused by heat and contraction caused by cold and being damaged, the solar panel 291 is attached to the second cushion 271, the solar panel 291 is respectively arranged corresponding to the heat-insulating plate 260 and the glass grid fiber layer 270, the solar panel 291, the heat-insulating plate 260 and the glass grid fiber layer 270 are conveniently installed, a connecting pipe 240 is arranged on one side, close to the air inlet 114, of the air inlet pipeline 210, the connecting pipe 240 is fixedly connected to the air inlet pipeline 210 through welding, so that external fresh oxygen, the connecting pipe 240 is fixedly penetrated through the solar cell panel 291, the heat insulation board 260 and the glass grid fiber layer 270, so that the connecting pipe 240 is conveniently contacted with the external air.

Specifically, this theory of operation suitable for no heating energy-conserving wall body in indoor bathroom: during the use, it is fixed to air inlet pipeline 210 and exhaust pipe 220 through the inside cavity 113 that sets up of main wall body 110, first exhaust fan 250 through air inlet pipeline 210 and the setting of exhaust pipe 220 junction, make things convenient for air inlet pipeline 210 and exhaust pipe 220 to carry out the circulation of air, solar cell panel 291 and the storage battery 292 through the outside setting of main wall body 110 supply power to the inside electric heating pipe 230 that sets up of exhaust pipe 220 and heat, energy-conserving effect has been improved, make the outside air that flows in exhaust pipe 220 flow into outside no heating bathroom after being heated, improve the inside temperature in bathroom, the result of use in no heating bathroom has been improved, energy saving and environmental protection.

It should be noted that the specific model specifications of the electric heating pipe 230, the first exhaust fan 250, the solar panel 291, the storage battery 292, the solar controller 293, and the heating switch 294 need to be determined by model selection according to the actual specification of the device, and the specific model selection calculation method adopts the prior art in the field, and therefore details are not described again.

The power supply and the principle of the electric heating pipe 230, the first exhaust fan 250, the solar panel 291, the battery pack 292, the solar controller 293, and the heating switch 294 will be apparent to those skilled in the art and will not be described in detail herein.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An energy-saving wall body suitable for a heating-free indoor bathroom is characterized by comprising

The base layer wall (100), the base layer wall (100) comprises a main wall body (110), and a cavity (113) is arranged in the main wall body (110);

gaseous heat preservation subassembly (200), gaseous heat preservation subassembly (200) include air inlet pipeline (210), exhaust pipe (220), electric heating pipe (230) and energy supply spare (290), air inlet pipeline (210) with exhaust pipe (220) set up in inside cavity (113), air inlet pipeline (210) one side is provided with air intake branch pipe (211), air intake branch pipe (211) fixed run through in main wall body (110) one side, air intake branch pipe (211) with air inlet pipeline (210) intercommunication, exhaust pipe (220) one side is provided with exhaust branch pipe (221), exhaust branch pipe (221) fixed run through in main wall body (110) one side, air intake branch pipe (211) with exhaust branch pipe (221) homonymy sets up, air intake branch pipe (211) with exhaust branch pipe (221) sets up respectively to a plurality of, electric heating pipe (230) set up in exhaust pipe (220) inner wall one side, electric heating pipe (230) sets up to a plurality of, air inlet pipeline (210) with exhaust pipe (220) inside intercommunication, air inlet pipeline (210) with exhaust pipe (220) junction inner wall is provided with first exhaust fan (250), first exhaust fan (250) air-out end orientation inside exhaust pipe (220), energy supply spare (290) include solar cell panel (291) and storage battery (292), solar cell panel (291) set up in main wall body (110) is kept away from cavity (113) one side, storage battery (292) set up in cavity (113) inner wall one side, solar cell panel (291) with storage battery (292) electric connection, storage battery (292) with electric heating pipe (230) electric connection.

2. The energy-saving wall body applicable to the heatless indoor bathroom as claimed in claim 1, wherein air inlet holes (111) are uniformly formed at the connection part of the main wall body (110) and the air inlet branch pipe (211), and the air inlet holes (111) are arranged corresponding to the air inlet branch pipe (211).

3. The energy-saving wall body suitable for the heatless indoor bathroom as claimed in claim 2, wherein the main wall body (110) is uniformly provided with exhaust holes (112) at the connection part of the exhaust branch pipes (221), and the exhaust holes (112) are arranged corresponding to the exhaust branch pipes (221).

4. The energy-saving wall body for a heatless indoor bathroom of claim 3, wherein the main wall body (110) is provided with an air inlet (114) at a side far away from the air inlet branch pipe (211).

5. The energy-saving wall body suitable for the heatless indoor bathroom as claimed in claim 4, wherein a supporting beam (120) is arranged inside the main wall body (110), a through groove (121) is arranged inside the supporting beam (120), and the through groove (121) is respectively arranged corresponding to the air inlet pipeline (210) and the exhaust pipeline (220).

6. The energy-saving wall body applicable to the heatless indoor bathroom as claimed in claim 5, wherein a connecting sleeve (212) is arranged at the joint of the air inlet pipeline (210) and the exhaust pipeline (220), the first exhaust fan (250) is fixedly connected to the inner wall of the connecting sleeve (212), and the number of the first exhaust fan (250) is several.

7. The energy-saving wall body suitable for the heatless indoor bathroom as claimed in claim 6, wherein the energy supply member (290) further comprises a solar controller (293) and a heating switch (294), the solar controller (293) is fixedly connected to one side of the inner wall of the cavity (113), the heating switch (294) is fixedly connected to one side of the exhaust pipeline (220), the heating switch (294) is electrically connected to the electric heating pipe (230) and the battery pack (292), respectively, and the solar controller (293) is electrically connected to the solar panel (291).

8. The energy-saving wall body for the heatless indoor bathroom as claimed in claim 7, wherein a fixing plate (280) is disposed on one side of the main wall body (110) near the air inlet (114), the fixing plate (280) is disposed on two outer sides of the main wall body (110), and the fixing plate (280) is disposed corresponding to the main wall body (110).

9. The energy-saving wall body applicable to the heating-free indoor bathroom according to claim 8, wherein an insulation board (260) is arranged between the fixing plates (280) in a clamping manner, the insulation board (260) is arranged corresponding to the main wall body (110), one side of the insulation board (260) is jointed to one side of the main wall body (110), one side of the outer portion of the insulation board (260) is provided with a first cushion (261), a glass grid fiber layer (270) is arranged outside the first cushion (261), the glass grid fiber layer (270) is fixed to the fixing plate (280) in a clamping manner, a second cushion (271) is arranged outside the glass grid fiber layer (270), the solar panel (291) is fixed to the fixing plate (280) in a clamping manner, the solar panel (291) is jointed to the second cushion (271), and the solar panel (291) corresponds to the insulation board (260) and the glass grid fiber layer (270) respectively and is arranged corresponding to the fixing plate (280) And (4) placing.

10. The application of the energy-saving wall body suitable for the non-heated indoor bathroom as claimed in claim 9, wherein, in use, the air inlet pipeline 210 and the air outlet pipeline 220 are fixed through the cavity 113 arranged inside the main wall body 110, the air circulation of the air inlet pipeline 210 and the air outlet pipeline 220 is facilitated through the first air outlet fan 250 arranged at the joint of the air inlet pipeline 210 and the air outlet pipeline 220, the electric heating pipe 230 arranged inside the air outlet pipeline 220 is powered and heated through the solar panel 291 and the storage battery 292 arranged outside the main wall body 110, the energy-saving effect is improved, the external air flowing into the air outlet pipeline 220 flows into the external non-heated bathroom after being heated, the internal temperature of the bathroom is improved, the use effect of the non-heated bathroom is improved, and the energy-saving and environment-friendly effects are achieved.

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