CN112922186A

CN112922186A - House building wall structure and construction method

Info

Publication number: CN112922186A
Application number: CN202110098780.8A
Authority: CN
Inventors: 邹琼芳; 范义均; 万顺友; 白钟毅; 宁刚强
Original assignee: Sichuan Oupeng Construction Engineering Co ltd
Current assignee: Huzhou Tongmu Intellectual Property Co ltd
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2021-06-08
Anticipated expiration: 2041-01-25
Also published as: CN112922186B

Abstract

The present application relates to a building wall structure and a construction method, including a wall body, the interior of the wall body is hollow, and a water circulation device and a water heating device are arranged in the wall body, and the water heating device is used to heat the wall. The water in the main body is heated, and the water circulation device is used to circulate the heated water in the wall main body; the side of the wall main body facing the room is horizontally provided with a blowing strip hole, and the wall main body is also installed There is a blower device, and the blower device is used for blowing the heated air in the wall body to the room through the blower bar holes. The present application has the effect of improving the comfort problem in a room during a power outage in winter.

Description

House building wall structure and construction method

Technical Field

The application relates to the field of house building wall body design, in particular to a house building wall body structure and a construction method.

Background

A wall (or called wall, wall) is a space partition structure in a vertical direction in architecture, which is used to enclose, partition or protect a certain area, and is one of the most important elements in building design. The walls are divided into load-bearing walls and non-load-bearing walls according to whether the walls bear load in the building. Load bearing walls are part of a building structure that bears the weight of buildings above and near it and do not allow removal for reasons such as finishing.

In winter, indoor warm keeping is one of important means for people to live through cold winter, floor heating, air conditioners and the like are all one of important means for people in the south and north to live through winter, and the rooms can be warmed through continuous heat supply of the floor heating and the air conditioners, so that the comfort level of people in living is improved.

According to the related technology, the inventor thinks that when power failure is needed in winter, heating household appliances such as floor heating and air conditioning cannot be used, so that heat cannot be provided for a room, and the comfort level of people living in the room is reduced.

Disclosure of Invention

In order to improve the comfort problem in the room when having a power failure in winter, the application provides a housing construction wall structure and construction method.

In a first aspect, the present application provides a housing construction wall structure, which adopts the following technical scheme:

a building wall structure comprises a wall body, wherein the wall body is hollow, a water circulating device and a hydrothermal device are arranged in the wall body, the hydrothermal device is used for heating water in the wall body, and the water circulating device is used for circularly moving the heated water in the wall body; the wall body is provided with a plurality of air blowing strip holes in the horizontal direction on one side opposite to the indoor side, and an air blowing device is further installed in the wall body and used for blowing air heated in the wall body into the indoor side through the air blowing strip holes.

By adopting the technical scheme, when power is off in winter, water in the water circulating device is directly heated by the hydrothermal device, so that the temperature in the wall body is raised, and then the heat in the wall body is blown out by the blowing device, so that hot air is blown into a room through the blowing strip holes; because the hot air is blown out from the air blowing strip holes, people in the room feel the hot air at this time, and therefore the effect of improving the comfort degree problem in the room during power failure in winter can be achieved.

Optionally, the water circulation device comprises a water storage tank, a water transfer tank, a submersible pump, a circulation pipe and a water delivery pipe, the water storage tank and the water transfer tank are respectively arranged in the wall body and close to two sides of the inner end wall of the wall, the circulation pipe is U-shaped, one end of the circulation pipe is communicated with the inside of the water storage tank, the other end of the circulation pipe is communicated with the inside of the water transfer tank, the submersible pump is arranged in the water storage tank, and the outlet end of the submersible pump is communicated with one end of the circulation pipe, which is positioned in the water storage tank; the water delivery pipe is horizontally arranged between the water storage tank and the water rotating tank, one end of the water delivery pipe is communicated with the inside of the water storage tank, the other end of the water delivery pipe is communicated with the inside of the water rotating tank, and the pump inlet end of the submersible pump is communicated with one end, located in the water storage tank, of the water delivery pipe.

By adopting the technical scheme, after water is filled into the water storage tank and the water transfer tank, the submersible pump is started, at the moment, the water in the water storage tank is pumped into the water transfer tank through the circulating pipe, and the water in the water transfer tank is pumped into the water storage tank through the water conveying pipe, so that the effect of more convenient circulating water is achieved; under the heating condition of the hydrothermal device, the water temperatures in the water storage tank and the water transfer tank are gradually increased.

Optionally, the hydrothermal device includes a storage battery and a first heating wire, the first heating wire is disposed on an inner wall of the water tank, the storage battery is mounted in the wall body and located on one side of the water tank, and the first heating wire is electrically connected to the storage battery.

By adopting the technical scheme, after the storage battery is electrically connected with the first heating wire, the first heating wire can gradually emit heat so as to heat water in the water rotating tank, and the water can be heated under the circulating action because the water always circularly flows between the water rotating tank and the water storage tank, so that the water in the circulation can be heated, the water temperature of the water in the circulation can be improved, and the effect of more convenient heating of the water in the circulation can be achieved; and first heating wire is in changeing the water tank in, and the immersible pump is in the water storage box to reach and let first heating wire and immersible pump can not contact, avoid the normal operating that influences the immersible pump after the two contact to a certain extent.

Optionally, the heat storage tank of the air blowing device, the air blower and the blast pipe are mounted on the inner wall of the wall body and are opposite to the air blowing strip holes, two ends of the heat storage tank are provided with through outlets, a horizontal pipe section of the circulating pipe extends into the water storage tank from the through outlet at one end of the water storage tank and then extends out from the through outlet at the other end of the water storage tank, the air blower is mounted on the top wall of the heat storage tank and is electrically connected with the storage battery, an air blowing end of the air blower is communicated with the inside of the heat storage tank, the blast pipe is arranged on the wall of the heat storage tank opposite to the air blowing strip holes, the blast pipe is communicated with the inside of the heat storage tank, and a plurality of blast pipes are arranged, and pipe mouth ends of the blast pipes are; the heat storage tank is characterized in that a hot gas transmission pipe is vertically arranged on the rotating water tank, the lowest end of the hot gas transmission pipe is communicated with the inside of the rotating water tank, and the highest end of the hot gas transmission pipe is communicated with the inside of the heat storage tank.

By adopting the technical scheme, after the circulating water is heated by the first heating wire, the water in the circulating pipe can be changed into hot water, so that hot air is generated, and after the hot air enters the heat storage box along the hot air conveying pipe, the air blower is started to blow out the hot air from the air blowing pipe; because the blast pipe is just opposite to the air blowing strip holes, the hot air can be directly blown into the room through the air blowing strip holes, and therefore the effect that hot air is blown into the room conveniently is achieved.

Optionally, a second heating wire is further disposed on the inner wall of the heat storage box, and the second heating wire is electrically connected to the storage battery.

Through adopting above-mentioned technical scheme, the second heating wire can generate heat for the temperature in the heat accumulation case improves, thereby lets the steam that the steam conveyer pipe was carried and is come enter into the heat accumulation incasement and can not set up the horse and reduce the temperature.

Optionally, a shielding plate is rotatably arranged on the wall body and in the air blowing bar hole, and the shielding plate is used for covering the air blowing bar hole; and a driving device is also arranged in the wall body and is used for driving the baffle plate to do up-and-down swinging motion in the air blowing strip hole.

By adopting the technical scheme, after a call is made, when heat is not required to be supplied to the indoor through hot air in the wall body, the air blowing strip holes can be directly covered through the shielding plate, so that the effect of conveniently hiding parts in the wall body is achieved; and when having a power failure, through starting drive arrangement, can let the shielding plate do the luffing motion in the air-blast strip hole, because the blast pipe just is to air-blast strip hole, consequently the hot-blast wind that blows out can adjust the wind direction according to the state of shielding plate to the hot-blast wind that makes to blow out from this internal wall can adjust the wind direction.

Optionally, the driving device includes a rotating rod, a rotating blade, a cam, a guide tube and a vertical pulling rod, the rotating rod is rotatably inserted into the water pipe, the rotating rod horizontally extends to a side away from the room, the rotating blade is arranged at one end of the rotating rod in the water pipe, and a plurality of rotating blades are arranged in the circumferential direction of the rotating rod; the cam setting is located the one end outside the water delivery pipe at the dwang, the stand pipe is connected with the inner wall of wall body through the connecting rod, the vertical setting of stand pipe is in the top of cam, the rotation annular has been seted up on the surface of cam, the shape that rotates the annular with the profile of cam is the same, vertical pull the vertical inserting of pole and establish in the stand pipe, the vertical lower extreme welding that pulls the pole has the roller bearing, the roller bearing through rotate the annular with the cam roll cooperation, vertical pull the upper end of pole with the face that the shielding plate is located the wall body is connected.

By adopting the technical scheme, when water flows in the water delivery pipe, the rotating blade can be directly stirred to rotate on the rotating rod, so that the rotating blade drives the rotating rod to rotate; the cam on the dwang also can begin to rotate this moment for the rotation annular synchronous rotation on the cam, because the vertical roller bearing that drags the pole tip and rotate annular rolling fit, consequently the vertical pole of dragging can be in the stand pipe and do the ascending reciprocating motion of vertical side under the rotation of cam, and then the vertical pole of dragging can be dragging the shielding plate and be luffing motion, reach the drive shielding plate and be the comparatively convenient effect of swing motion.

Optionally, be provided with the drainage chamber on the raceway, the drainage chamber is located the below of dwang, the drainage chamber with the inside of raceway is linked together, the semicircle under the dwang the turning vane is located half a circle on drainage intracavity, the dwang the turning vane is located in the raceway.

Through adopting above-mentioned technical scheme, when water flowed in the water delivery pipe, rivers can be direct and the last semicircular rotating blade contact of dwang to promote the first semicircular rotating blade of dwang and remove, and the rotating blade of the semicircular under the dwang does not receive the influence of rivers, and then can let the rotating blade on the dwang take place to rotate along with the motion of rivers, and then reach and normally let the rotating blade pivoted effect on the dwang.

Optionally, the water delivery pipe with the rotation junction of dwang is provided with waterproof sealing circle, this internal and the position that is located the water delivery pipe of wall is provided with water receiving strip groove under, the length direction in water receiving strip groove is unanimous with the length direction of water delivery pipe.

Through adopting above-mentioned technical scheme, the setting of waterproof sealing washer can improve the leakproofness of raceway, and water receiving strip groove can store water when the raceway produces leaking, reaches the effect of catchmenting to a certain extent.

In a second aspect, the present application provides a method for constructing a wall structure of a building, which adopts the following technical scheme:

a construction method of a house building wall structure comprises the following steps:

burying step: detaching the outer plate surface on one side of the wall body to expose the inner cavity of the wall body, and installing the water circulation device, the air blowing device and the hydrothermal device in the wall body;

a pretreatment step: filling cold water into the water storage tank and the water transfer tank, starting the storage battery, and touching the inner wall of the water transfer tank to see whether the water temperature is gradually warmed;

reloading: according to the position of the air blowing device, air blowing strip holes are formed in the detached outer plate surface of the wall body, so that after the outer plate surface of the wall body is installed back on the wall body, the air blowing strip holes are opposite to the air blowing device in the horizontal direction.

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

1. when power is cut off in winter, water in the water circulating device is directly heated through the hydrothermal device, so that the temperature in the wall body is raised, then the heat in the wall body is blown out through the blowing device, and hot air is blown into a room through the blowing strip holes; because the hot air is blown out from the air blowing strip holes, people in the room feel the hot air at this time, and the effect of improving the comfort degree problem in the room during power failure in winter can be achieved;

2. when water flows in the water delivery pipe, the rotating blade is directly stirred on the rotating rod, so that the rotating blade drives the rotating rod to rotate; at the moment, the cam on the rotating rod also starts to rotate, so that the rotating ring groove on the cam synchronously rotates, and the vertical pulling rod can do reciprocating motion in the vertical direction in the guide pipe under the rotation of the cam due to the rolling fit of the rolling shaft at the end part of the vertical pulling rod and the rotating ring groove, so that the vertical pulling rod can pull the shielding plate to do up-and-down swinging motion, and the effect of driving the shielding plate to do swinging motion is more convenient;

3. the setting of waterproof sealing washer can improve the leakproofness of raceway, and water receiving strip groove can store water when the raceway produces leaking, reaches the effect of catchmenting to a certain extent.

Drawings

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

FIG. 2 is a partial cross-sectional view of an embodiment of the present application showing the interior of a wall body.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 2.

Fig. 5 is an enlarged view of a portion C in fig. 2.

Fig. 6 is a partial sectional view for showing the inside of a water transport pipe according to an embodiment of the present application.

Description of reference numerals: 1. a wall body; 11. blast bar holes; 2. a water circulation device; 21. a water storage tank; 22. rotating the water tank; 221. a hot gas delivery pipe; 23. a submersible pump; 24. a circulation pipe; 25. a water delivery pipe; 3. a hydrothermal device; 31. a storage battery; 32. a first heating wire; 4. a blower device; 41. a heat storage tank; 411. an outlet; 412. a second heating wire; 42. a blower; 43. a blast pipe; 5. a shielding plate; 51. hanging a ring; 6. a drive device; 61. rotating the rod; 62. a rotor blade; 63. a cam; 631. rotating the ring groove; 64. a guide tube; 65. a vertical pulling rod; 651. a roller; 652. hooking; 7. a drainage lumen; 8. a waterproof sealing ring; 9. a water receiving strip groove; 91. a water pump.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses housing construction wall structure. Referring to fig. 1 and 2, the building wall structure includes a wall body 1, the wall body 1 is rectangular, and the interior of the wall body 1 is hollow. A water circulating device 2 and a hydrothermal device 3 are arranged in the wall body 1, the hydrothermal device 3 is used for heating water in the wall body 1, and the water circulating device 2 is used for circularly moving the heated water in the wall body 1; the side of the wall body 1 facing the indoor is horizontally provided with air blowing strip holes 11, and the air blowing strip holes 11 are in a long strip shape. The wall body 1 is also internally provided with an air blowing device 4, and the air blowing device 4 is used for blowing air heated in the wall body 1 to the indoor through the air blowing strip holes 11.

As shown in fig. 2, the water circulation device 2 includes a water storage tank 21, a water transfer tank 22, a submersible pump 23, a circulation pipe 24 and a water pipe 25, the water storage tank 21 and the water transfer tank 22 are respectively disposed in the wall body 1 and close to two sides of the inner wall of the wall, that is, the water transfer tank 22 is disposed at the lower left corner of the wall body 1 and the water storage tank 21 is disposed at the lower right corner of the wall body 1 when looking toward the wall body 1 from the indoor front view direction. The circulation pipe 24 is U-shaped, and one end of the circulation pipe 24 is connected to the inside of the water storage tank 21 and the other end is connected to the inside of the water transfer tank 22, that is, one end of the circulation pipe 24 extends to the inside of the water storage tank 21 after penetrating through the top wall of the water storage tank 21 and the other end extends to the inside of the water storage tank 21 after penetrating through the top wall of the water transfer tank 22. The submersible pump 23 is arranged inside the water storage tank 21, and the pump outlet end of the submersible pump 23 is communicated with one end of the circulating pipe 24, which is positioned inside the water storage tank 21; the water pipe 25 is horizontally arranged between the water storage tank 21 and the water rotating tank 22, one end of the water pipe 25 is communicated with the inside of the water storage tank 21, the other end of the water pipe 25 is communicated with the inside of the water rotating tank 22, namely, one end of the water pipe 25 penetrates through the side wall of the water storage tank 21 and then extends to the inside of the water storage tank 21, the other end of the water pipe penetrates through the side wall of the water rotating tank 22 and then extends to the inside of the water rotating tank 22, and the pump inlet end of the submersible pump 23 is communicated with one end of the water pipe 25, which.

As shown in fig. 2, the hydrothermal device 3 includes a storage battery 31 and a first heating wire 32, the first heating wire 32 is welded to the inner wall of the water-turning tank 22, the storage battery 31 is installed in the wall body 1 and located at one side of the water-turning tank 22, and the first heating wire 32 is electrically connected to the storage battery 31. In the present embodiment, the battery 31 is a large-capacity battery 31, so that the power supply period of the battery 31 can be increased; in winter, if a power failure occurs, in order to not affect the normal life of residents, constructors generally carry out emergency repair, so that the power failure time is not too long, and the power supply through the large-capacity storage battery 31 is enough to provide electric energy in the power failure time period.

As shown in fig. 2, the blower 4 includes a heat storage tank 41, a blower 42, and a blower pipe 43, the heat storage tank 41 is rectangular, the heat storage tank 41 is bolted to the inner wall of the wall body 1 and faces the air-blowing slot 11, that is, the heat storage tank 41 is positioned above the water storage tank 21 and the water diversion tank 22. Both ends of the heat storage tank 41 are provided with through outlets 411, and the cross-sectional shapes of the through outlets 411 are matched with the pipe diameter shape of the circulating pipe 24. The horizontal pipe section of the circulation pipe 24 extends into the water storage tank 21 from the through outlet 411 at one end of the water storage tank 21 and then extends from the through outlet 411 at the other end. The blower 42 is bolted on the top wall of the heat storage box 41 and is electrically connected with the storage battery 31, the blowing end of the blower 42 is communicated with the interior of the heat storage box 41, the blower pipe 43 is welded on the wall of the heat storage box 41, which is opposite to the blowing strip holes 11, the blower pipe 43 is communicated with the interior of the heat storage box 41, the blower pipe 43 is provided with a plurality of blower pipes 43, the pipe orifice ends of the blower pipes 43 are opposite to the blowing strip holes 11, namely, a row of blower pipes 43 are horizontally arranged along the length direction of the heat storage box 41; the hot gas transmission pipe 221 is vertically welded on the rotary water tank 22, the lowest end of the hot gas transmission pipe 221 is communicated with the inside of the rotary water tank 22, namely, the lowest end of the hot gas transmission pipe 221 penetrates through the top wall of the rotary water tank 22 and then extends to the inside of the rotary water tank 22, and the highest end of the hot gas transmission pipe 221 is communicated with the inside of the heat storage tank 41.

As shown in fig. 2, the second heating wire 412 is further welded to the inner wall of the heat storage tank 41, the second heating wire 412 is spirally and wavedly disposed, and the second heating wire 412 is electrically connected to the battery 31.

As shown in the figure, the wall body 1 is rotatably connected with a shielding plate 5 in the air blowing bar hole 11, and the shielding plate 5 is used for covering the air blowing bar hole 11. That is, the shape of the shielding plate 5 is matched with the shape of the air blowing strip hole 11, and the center of the end part of the shielding plate 5 is hinged with the center of the end part of the air blowing strip hole 11, so that when the shielding plate 5 is pulled, one side of the shielding plate 5 is positioned outside the wall body 1, and the other side of the shielding plate 5 is positioned inside the wall body 1. The wall body 1 is also internally provided with a driving device 6, and the driving device 6 is used for driving the shielding plate 5 to do up-and-down swinging motion in the air blowing strip hole 11.

As shown in fig. 2 and 3, the driving device 6 includes a rotating rod 61, a rotating blade 62, a cam 63, a guide tube 64, and a vertical pulling rod 65, the rotating rod 61 is rotatably inserted into the water pipe 25, that is, a small hole is formed in the wall of the water pipe 25, a small rolling bearing is welded in the hole, and the rotating rod 61 penetrates through the inner ring of the rolling bearing and is in interference fit with the rolling bearing. Referring to fig. 6, the rotating rod 61 extends horizontally to a side away from the chamber, the rotating blade 62 is welded to one end of the rotating rod 61 located in the water pipe 25, and a plurality of rotating blades 62 are arranged in the circumferential direction of the rotating rod 61; referring to fig. 3, the cam 63 is welded to the end of the rotating rod 61 outside the water pipe 25; referring to fig. 4, the wall body 1 is horizontally welded to a connecting rod near the inner wall of an indoor side wall, the length direction of the connecting rod is consistent with that of the rotating rod 61, and the guide pipe 64 is connected with the inner wall of the wall body 1 through the connecting rod. The guide pipe 64 is vertically welded on the connecting rod and is located above the cam 63, a rotating ring groove 631 is formed in the surface of the cam 63, the shape of the rotating ring groove 631 is the same as the contour of the cam 63, the vertical pulling rod 65 is vertically inserted into the guide pipe 64, a roller 651 is welded at the lower end of the vertical pulling rod 65, and the roller 651 is in rolling fit with the cam 63 through the rotating ring groove 631, namely the roller 651 rolls in the rotating ring groove 631. The upper end of the vertical pulling rod 65 is connected with the plate surface of the shielding plate 5 in the wall body 1, in this embodiment, a hook 652 is welded at one end of the vertical pulling rod 65 away from the roller 651, a hanging ring 51 is welded at one end of the shielding plate 5 in the wall body 1, and the hook 652 is fastened with the hanging ring 51; when power is off, the shielding plate 5 is unscrewed, and then the hook 652 is manually and directly buckled with the hanging ring 51; after the call, the hook 652 is directly and manually removed from the hook 51, and then the shielding plate 5 is rotated so that the shielding plate 5 completely shields the air blast bar hole 11.

As shown in fig. 2 and 3, the water pipe 25 is provided with a drainage cavity 7, the drainage cavity 7 is located below the rotating rod 61, and the drainage cavity 7 is communicated with the inside of the water pipe 25; in essence, the drainage cavity 7 also belongs to a part of the water pipe 25, and the water pipe 25 is located at the drainage cavity 7 and protrudes outwards from the appearance; referring to fig. 6, the rotating blade 62 of the lower half of the rotating rod 61 is located in the drainage chamber 7, and the rotating blade 62 of the upper half of the rotating rod 61 is located in the water pipe 25.

As shown in fig. 3 and 6, a waterproof sealing ring 8 is disposed at a rotational connection portion of the water pipe 25 and the rotating rod 61, the waterproof sealing ring 8 is used for sealing a rolling bearing on the water pipe 25, and the water pipe 25 can also keep a good waterproof sealing performance under the condition that the rotating rod 61 rotates on the water pipe 25. A water receiving strip groove 9 is arranged in the wall body 1 and is positioned right below the water delivery pipe 25, and the length direction of the water receiving strip groove 9 is consistent with the length direction of the water delivery pipe 25; the water receiving strip groove 9 can collect water for the second time when the water delivery pipe 25 leaks water, and can prevent the water from diffusing in the wall body 1 to a certain extent; and, a suction pump 91 is also placed in the wall body 1 and on one side of the water delivery pipe 25, the pump inlet end of the suction pump 91 is communicated with the water receiving strip groove 9 through a pipeline, and the pump outlet end of the suction pump 91 is communicated with the water transfer tank 22 through a pipeline, so that the part of water in the water receiving strip groove 9 is stored in the rotary water tank 22 through the re-pumping.

The embodiment of the application also discloses a construction method of the wall structure of the house building. The construction method of the house building wall structure comprises the following steps:

burying step: the outer plate surface on one side of the wall body 1 is detached, the inner cavity of the wall body 1 is exposed, and the water circulating device 2, the air blowing device 4 and the hydrothermal device 3 are all arranged in the wall body 1;

a pretreatment step: filling clear water into the water storage tank 21 and the water transfer tank 22, starting the storage battery 31, and touching the inner wall of the water transfer tank 22 to see whether the water temperature is gradually heated;

reloading: according to the position of the air blowing device 4, air blowing strip holes 11 are formed in the detached outer plate surface of the wall body 1, so that after the outer plate surface of the wall body 1 is installed back on the wall body 1, the air blowing strip holes 11 are opposite to the air blowing device 4 in the horizontal direction.

The implementation principle of the house building wall structure in the embodiment of the application is as follows: when power is cut off in winter, the first heating wire 32 is firstly used for heating water in the water rotating tank 22, then the second heating wire 412 is used for heating air in the heat storage tank 41, the temperature in the wall body 1 and the temperature of the water are both increased, and then the air blowing device 4 is used for blowing out heat in the wall body 1, so that hot air is blown into a room through the air blowing strip holes 11; since the hot air is blown out from the air blowing strip holes 11, people in a room feel the hot air at this time, and the cover plate 5 swings up and down under the condition that water flows, so that the coverage range of the blown hot air is enlarged.

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

Claims

1. A building wall structure, characterized in that it comprises a wall body (1), the interior of the wall body (1) is hollow, and the wall body (1) is provided with a water circulation device (2) and a water circulation device (2). A heating device (3), the water heating device (3) is used for heating the water in the wall body (1), and the water circulation device (2) is used for circulating the heated water in the wall body (1) moving; the side of the wall body (1) facing the room is provided with a blowing strip hole (11) horizontally, and a blowing device (4) is also installed in the wall body (1), and the blowing device ( 4) It is used to blow the heated air in the wall body (1) into the room through the blower strip hole (11).

2. The building wall structure according to claim 1, wherein the water circulation device (2) comprises a water storage tank (21), a water transfer tank (22), a submersible pump (23), a circulation pipe (24) ) and a water delivery pipe (25), the water storage tank (21) and the water transfer tank (22) are respectively arranged in the wall body (1) and close to both sides of the inner end wall of the wall. The shape of the circulation pipe (24) It is U-shaped, one end of the circulation pipe (24) is communicated with the interior of the water storage tank (21), and the other end is communicated with the interior of the water transfer tank (22). Inside the water tank (21), the pump outlet end of the submersible pump (23) is communicated with the end of the circulation pipe (24) located in the water storage tank (21); the water delivery pipe (25) is horizontally arranged at the Between the water storage tank (21) and the water transfer tank (22), one end of the water delivery pipe (25) is communicated with the interior of the water storage tank (21), and the other end is communicated with the interior of the water transfer tank (22), so The pump inlet end of the submersible pump (23) is communicated with the end of the water delivery pipe (25) located in the water storage tank (21).

3. The building wall structure according to claim 2, wherein the water heating device (3) comprises a battery (31) and a first heating wire (32), the first heating wire (32) The battery (31) is arranged on the inner box wall of the water transfer tank (22), the battery (31) is installed in the wall body (1) and is located on one side of the water transfer tank (22), and the first heating wire (32) is connected to the The battery (31) is electrically connected.

4. The building wall structure according to claim 3, characterized in that: the blower (4) heat storage box (41), blower (42) and blower pipe (43), the heat storage The box (41) is installed on the inner wall of the wall body (1) and is opposite to the air blowing strip hole (11). The horizontal pipe section of the circulation pipe (24) extends into the water storage tank (21) from the outlet (411) at one end of the water storage tank (21), and then extends from the outlet (411) at the other end. The blower (42) is installed on the top wall of the heat storage box (41) and is electrically connected to the battery (31), the blowing end of the blower (42) is communicated with the interior of the heat storage box (41), the blower A pipe (43) is arranged on the box wall of the heat storage box (41) facing the blowing strip hole (11), and the blowing pipe (43) is communicated with the interior of the heat storage box (41), A plurality of the blowing pipes (43) are provided, and the pipe mouth ends of the blowing pipes (43) are all facing the blowing strip holes (11); the water transfer tank (22) is vertically provided with a hot air transmission A pipe (221), the lowest end of the hot gas transmission pipe (221) is communicated with the inside of the water transfer tank (22), and the highest end of the hot gas transmission pipe (221) is connected with the heat storage tank (41) Connected internally.

5. The building wall structure according to claim 4, characterized in that: a second heating wire (412) is further provided on the inner wall of the heat storage box (41), and the second heating wire (412) It is electrically connected to the storage battery (31).

6. The building wall structure according to claim 1, characterized in that: a shielding plate (5) is rotatably provided on the wall body (1) and located in the blast strip hole (11), and the shielding plate (5) It is used to cover the air blowing strip hole (11); the wall body (1) is also provided with a driving device (6), and the driving device (6) is used to drive the shutter (5) in the drum The wind strip hole (11) performs up and down swinging motion.

7. The building wall structure according to claim 2, wherein the driving device (6) comprises a rotating rod (61), a rotating blade (62), a cam (63), a guide pipe (64) and Pull the rod (65) vertically, the rotating rod (61) is rotatably inserted on the water delivery pipe (25), the rotating rod (61) extends horizontally to the side away from the room, and the rotating blade (62) is provided with At one end of the rotating rod (61) located in the water delivery pipe (25), and a plurality of the rotating blades (62) are provided in the circumferential direction of the rotating rod (61); the cam (63) is provided on the rotating rod (63) (61) is located at the outer end of the water delivery pipe (25), the guide pipe (64) is connected to the inner wall of the wall body (1) through a connecting rod, and the guide pipe (64) is vertically arranged on the side of the cam (63). Above, the surface of the cam (63) is provided with a rotating ring groove (631), the shape of the rotating ring groove (631) is the same as the contour of the cam (63), the vertical pulling rod (65) is vertical It is directly inserted into the guide tube (64), the lower end of the vertical pulling rod (65) is welded with a roller (651), and the roller (651) is connected to the cam (63) through the rotating ring groove (631). ) rolling fit, the upper end of the vertical pulling rod (65) is connected with the panel surface of the shielding plate (5) located in the wall body (1).

8. The building wall structure according to claim 7, wherein a drainage cavity (7) is provided on the water delivery pipe (25), and the drainage cavity (7) is located below the rotating rod (61). , the drainage cavity (7) is communicated with the inside of the water delivery pipe (25), and the rotating blade (62) of the lower half circle of the rotating rod (61) is located in the drainage cavity (7) and rotates The rotating blade (62) on the upper half of the rod (61) is located in the water delivery pipe (25).

9 . The building wall structure according to claim 7 , wherein a waterproof sealing ring ( 8 ) is provided at the rotational connection between the water delivery pipe ( 25 ) and the rotating rod ( 61 ). 10 . A water receiving groove (9) is arranged in the main body (1) and located directly below the water delivery pipe (25), and the length direction of the water receiving groove (9) is consistent with the length direction of the water delivery pipe (25).

10. A construction method for a house building wall structure, characterized in that: based on the realization of the house building wall structure described in one of claims 1 to 9, comprising the following steps:

Embedding steps: remove one side of the outer panel surface of the wall body (1), expose the inner cavity of the wall body (1), and install the water circulation device (2), blower device (4) and water heating device (3) are installed in the wall body (1);

Pretreatment step: pour clean water into the water storage tank (21) and the transfer water tank (22), start the battery (31), and touch the inner wall of the transfer water tank (22) to see if the water temperature is gradually warming;

Reinstallation step: According to the position of the blowing device (4), open the blowing strip hole (11) on the outer panel surface of the wall body (1), so that the outer panel surface of the wall body (1) is installed back to the wall body After (1) is installed, the air blowing strip hole (11) is opposite to the air blowing device (4) in the horizontal direction.