CN114592617A

CN114592617A - Energy-saving heat-insulating wall

Info

Publication number: CN114592617A
Application number: CN202210379174.8A
Authority: CN
Inventors: 章毅; 卢轶; 包玲娇
Original assignee: Hangzhou Yajing Landscape Design Co ltd
Current assignee: Hangzhou Yajing Landscape Design Co ltd
Priority date: 2022-04-12
Filing date: 2022-04-12
Publication date: 2022-06-07
Anticipated expiration: 2042-04-12
Also published as: CN114592617B

Abstract

The application relates to the technical field of heat-insulating walls, in particular to an energy-saving heat-insulating wall, which comprises a main wall body, a heat-insulating plate and a plurality of water conveying pipes, wherein the water conveying pipes are uniformly arranged along the height direction of the main wall body, the water conveying pipes are provided with water inlet cavities and water drainage cavities wrapped outside the water inlet cavities, the water drainage cavities are provided with holes, the water inlet cavities are provided with water passing grooves used for communicating the water drainage cavities, the water conveying pipes are internally provided with sliding pieces which are arranged in the air inlet cavities in a sliding way and used for blocking the notches of the water passing grooves, the end parts of the water conveying pipes provided with the water passing grooves are connected with first water inlet pipes used for communicating the water inlet cavities, the other ends of the water conveying pipes are connected with second water inlet pipes used for communicating the water inlet cavities, the heat-insulating plate is fixedly arranged on the main wall body and covers the plurality of water conveying pipes, the second water inlet pipes are connected with heaters used for heating water in the water inlet cavities, or the water is discharged from the water discharge cavity to the outside, so that the adjustment of heat preservation and temperature reduction is realized for the wall body.

Description

Energy-saving heat-insulating wall

Technical Field

The application relates to the technical field of heat-insulating wall bodies, in particular to an energy-saving heat-insulating wall body.

Background

At present, the heat insulation performance of a building wall directly influences the energy consumption of the building, and the traditional wall heat insulation system in China is an external wall heat insulation system, namely, a heat insulation layer, a protective layer and fixing materials (such as an adhesive, an anchoring part and the like) are sequentially arranged outside the outer wall of the wall. The heat-insulating layer is made of heat-insulating materials, such as polystyrene foam boards, plays a role in heat insulation in an external heat-insulating system, the protective layer is used for protecting the heat-insulating layer, and the fixing materials are used for fixing the heat-insulating layer and the protective layer on the outer wall of the wall body.

However, after the external wall insulation system is installed, although the insulation effect can be achieved when the temperature is low, when the external temperature rises, the indoor temperature is higher due to the existence of the insulation system, namely, the existing external wall insulation system is difficult to achieve the effect that the indoor temperature is reduced when the external temperature is high.

Disclosure of Invention

In order to adjust the indoor temperature conveniently, this application provides an energy-conserving thermal insulation wall.

The application provides an energy-conserving thermal insulation wall body adopts following technical scheme:

an energy-saving heat-insulating wall comprises a main wall body, a heat-insulating plate and a plurality of water pipes, wherein the water pipes are horizontally arranged and fixed on the main wall body in the axial direction, the water pipes are uniformly arranged along the height direction of the main wall body, the water pipes are provided with water inlet cavities and water discharging cavities wrapped outside the water inlet cavities, the side walls of the water discharging cavities are provided with holes used for communicating with the outside, the circumferential side wall of the water inlet cavity, which is close to the end part, is provided with a water passing groove used for communicating the water discharging cavities, sliding parts are arranged in the water pipes, the sliding parts are arranged in the air inlet cavities in a sliding manner along the axial direction of the water pipes and used for blocking the notches of the water passing grooves, the end parts, provided with the water passing grooves, of the water pipes are connected with first water inlet pipes used for communicating the water inlet cavities, the other ends of the water pipes are connected with second water inlet pipes used for communicating the water inlet cavities, the heat-insulating plate is fixedly arranged on the main wall body and covers the outside the water pipes, the second water inlet pipe is connected with a heater for heating water.

Through adopting above-mentioned technical scheme, during the use, the heat insulating board can improve wall body thickness as covering the plate outside the main wall body, and utilize the performance reinforcing of heat insulating board to main wall body's heat preservation, when ambient temperature is lower, the staff can fill water in to the second inlet tube, rivers flow into in the water delivery pipe by the second inlet tube, and promote the removal of the sliding part in the water delivery pipe, the sliding part can be under the promotion of rivers to the direction motion of crossing the water tank, when moving to the water delivery pipe and keep away from behind the one end of second inlet tube and block up in the intercommunication point of crossing water tank and first inlet tube and raceway, heat the water in second inlet tube and the water delivery pipe this moment, thereby improve further heat preservation effect to the wall body.

When ambient temperature is higher, fill water in to first inlet tube, rivers flow into in the water delivery pipe by first inlet tube, and promote the removal of the sliding part in the water delivery pipe, the direction motion of the basin is kept away from to the sliding part can be under the promotion of rivers, block up the tie-in point of second inlet tube and raceway after moving to the one end that the raceway kept away from first inlet tube, after rivers flow into the intake antrum from first inlet tube, flow into the drainage intracavity by crossing the basin, then spray on the heat insulating board from eyelet discharge, thereby cool down the heat insulating board and handle, and the rivers that spray out can absorb heat insulating board and main wall body heat, and then cool down the main wall body.

Preferably: the water inlet pipe comprises a water conveying pipe body, and is characterized in that water inlet grooves are formed in two ends of the water conveying pipe body respectively, each sliding part comprises a plugging block and two inserting blocks, the two inserting blocks are fixedly connected to two sides of the plugging block and correspond to the two water inlet grooves respectively, the inserting blocks are embedded in the water inlet grooves, and the first water inlet pipe and the second water inlet pipe are communicated with a water inlet cavity through the corresponding water inlet grooves respectively.

Through adopting above-mentioned technical scheme, during the use, when first inlet tube fills water, rivers get into the intake antrum by the intake antrum that is close to first inlet tube, then promote the direction that blocks up fast case second inlet tube and slide, and make the inserted block inlay locate near in the intake antrum of second inlet tube, when the second inlet tube fills water, rivers get into the intake antrum by the intake antrum that is close to the second inlet tube, then promote the direction that blocks up the first inlet tube of fast case and slide, and make the inserted block inlay locate near in the intake antrum of first inlet tube, accomplish the injecing to the sliding member with this.

Preferably: the water pipe is provided with limiting parts for limiting the insertion blocks to be embedded in the water inlet grooves, and the side walls of the two water inlet grooves are provided with limiting parts.

Through adopting above-mentioned technical scheme, during the use, when the inserted block inserts the position of locating the back spacing piece restriction jam piece of intake chamber, make it can not take place to remove, and then the guarantee blocks up the piece and can not take place to float under rivers sustained action, and then influences its jam effect.

Preferably, the following components: the limiting part comprises a blocking block arranged on the side wall in a sliding mode along the radial direction of the water pipe, the lower end, facing the middle of the water pipe, of the blocking block is provided with a fillet, a reset assembly used for removing the blocking block to limit the blocking block to move is arranged inside the water pipe, and reset assemblies are arranged at two ends of the water pipe.

Through adopting above-mentioned technical scheme, during the use, when blockking up the piece and slide to the intake chamber department along the intake antrum, stifled piece can touch and block that the piece slides to the lateral wall, blocks the one end of piece butt in blockking that the piece is carried away from the intake chamber behind the piece when blockking up, and then blocks up the jam that the piece breaks away from under rivers buoyancy to the intake chamber to when need not restricting, block the restriction of piece through the contact of reset assembly.

Preferably: the axial directions of the first water inlet pipe and the second water inlet pipe are both vertically arranged and are communicated with the corresponding water conveying pipes in a one-to-one correspondence mode.

By adopting the technical scheme, when the water pipe is used, the first water inlet pipe and the second water inlet pipe are respectively communicated with the corresponding water conveying pipes, so that one pipe is multipurpose.

Preferably: reset assembly includes sliding block, the lantern ring and first spring, the ring groove of intercommunication orientation in first inlet tube/second inlet tube is all seted up at the both ends of raceway, the lantern ring slides and sets up in the ring groove, it pierces through the intake antrum in the ring groove to block a one end, and blocks that the piece is towards the tip of ring and has the fillet, the lantern ring is offered the holding tank that is used for blockking taking in when the piece resets towards the lateral wall that blocks the piece, first spring one end fixed connection is in ring groove lateral wall, first spring other end fixed connection is in the ring lateral wall, the sliding block is provided with two and sets up respectively in first inlet tube and second inlet tube.

Through adopting above-mentioned technical scheme, during the use, when blockking up the piece and blockking up the intake antrum, the inserted block is inserted and is located in the intake antrum, first inlet tube/second inlet tube of this side is when filling water, rivers promote the sliding block rebound, when the sliding block touches the lantern ring, the lantern ring compresses first spring and makes the holding tank aim at and block the piece, meanwhile, rivers impact the inserted block, the inserted block moves to the direction of second inlet tube/first inlet tube under hydraulic effect, and promote again that to block in the piece gets into the holding tank, along with the continuation motion of sliding block, not squeezing the lantern ring, consequently, the lantern ring is not squeezing first spring, consequently, the lantern ring promotes its reseing under the effect of first spring, and promote the piece that blocks in the holding tank and reset.

Preferably: and a cement layer is sprayed on the side surface of the heat insulation plate facing the main wall body.

Through adopting above-mentioned technical scheme, during the use, when the outside water spray of punchhole on the drainage chamber lateral wall, can spray on the cement aspect, at the intensity that increases the cement aspect, can also avoid the heat insulating board directly to cause rotten with the water contact, the life of extension heat insulating board.

Preferably: the cement layer is provided with a water storage tank with an opening facing the water delivery pipe, and the extending direction of the water storage tank is parallel to the axial direction of the water delivery pipe.

Through adopting above-mentioned technical scheme, after the cement aspect is sprayed water, rivers can be along direction of height downflow, when the aqua storage tank, can form and persist to when the temperature is higher, rivers in the aqua storage tank can be evaporated by the air and the heat on cement aspect, utilize the detention time of aqua storage tank diversion extension rivers, improve the cooling effect.

Preferably: there is the cavity between cement aspect and the main wall body, the bottom surface of cavity is provided with water drainage tank, water drainage tank's both ends communicate in the outside, and the intercommunication point is provided with detachable shutoff piece.

Through adopting above-mentioned technical scheme, when carrying out the water spray cooling, for the rivers that ensure not evaporating can be discharged, avoid rivers too much to remain and soak main wall body root.

Preferably: the heat insulating board is provided with a plurality of, a plurality of the heat insulating board is the mutual concatenation setting of matrix form, the side spraying of heat insulating board dorsad main wall body has the protection aspect, the half slot has been seted up to the vertical lateral wall of heat insulating board, and the cylinder groove is constituteed to two adjacent heat insulating boards, the cylinder groove is by last intercommunication in proper order down, the inside spread groove of seting up useful intercommunication half slot of heat insulating board

Through adopting above-mentioned technical scheme, after arranging the baffle board, the case cylinder inslot injects the grout, and the grout fills up the cylinder groove and fills up the spread groove to form grout and form two arborescent heat insulating boards of connection after solidifying between two adjacent heat insulating boards, and then strengthen the connectivity between the heat insulating board.

In summary, the present application has the following beneficial effects:

1. through heating the water of intaking intracavity, perhaps outwards arrange water through water drainage chamber to realize the regulation of heat preservation and cooling to the wall body.

2. By injecting cement slurry into the cylindrical groove, the cylindrical groove is filled with the cement slurry and the connecting groove is filled with the cement slurry, so that the cement slurry is formed between two adjacent heat insulation plates and forms two tree-shaped heat insulation plates after solidification, and the connectivity between the heat insulation plates is enhanced.

Drawings

Fig. 1 is a schematic overall structure diagram in the embodiment of the present application.

Fig. 2 is an exploded view in the embodiment of the present application.

Fig. 3 is a schematic structural view of the heat-insulating board in the embodiment of the present application.

Fig. 4 is a schematic view of the internal structure of the heat-insulating board in the embodiment of the present application.

Fig. 5 is a schematic view of the internal structure of the main wall in the embodiment of the present application.

Fig. 6 is an enlarged view at Q in fig. 5.

Fig. 7 is an enlarged view at W in fig. 6.

In the figure, 100, a main wall; 110. a water delivery pipe; 111. a water inlet cavity; 1111. a limiting groove; 112. a drainage cavity; 113. passing through a water tank; 114. a circular groove; 115. a collar; 1151. accommodating grooves; 116. a sliding member; 117. a spring slot; 118. a first spring; 119. a blocking block; 1191. a second spring; 120. a second water inlet pipe; 121. a slider; 140. a first water inlet pipe; 200. closing the plate; 210. a water discharge tank; 300. a cement layer; 310. a water storage tank; 400. a heat insulation plate; 410. positioning the bolt; 420. a cylindrical groove; 430. a semicircular groove; 440. inserting a block; 450. a slot; 460. connecting grooves; 500. and (6) a protective layer.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

In the description of the present application, it is to be understood that the terms "upper", "lower", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The present application is described in further detail below with reference to figures 1-7. The application discloses energy-conserving thermal insulation wall.

Referring to fig. 1 and 2, an energy saving and thermal insulation wall includes a main wall 100, a thermal insulation board 400, a sealing plate 200, a cement layer 300, and a protective layer 500. The plurality of heat insulation boards 400 are arranged on one side of the main wall body 100 in a matrix shape, a cavity is reserved between the plurality of heat insulation boards 400 and the main wall body 100, and the sealing plate 200 is arranged along the circumferential direction of the main wall body 100 and fixedly connected to the circumferential side walls of the heat insulation boards 400 and the main wall body 100 respectively so as to seal the side surfaces of the cavity between the heat insulation boards 400 and the main wall body 100.

The cement layer 300 covers one side of the heat insulation board 400 facing the main wall 100, and the cement layer 300 is opened with a plurality of water storage tanks 310 facing the water pipe 110 facing the side wall of the heat insulation board 400, and the length direction of the water storage tanks 310 is horizontally arranged, and the plurality of water storage tanks 310 are uniformly arranged along the vertical direction. The protective layer 500 covers the side of the insulation board 400 opposite to the main wall 100. An adjusting mechanism for temperature adjustment is provided at a side of the main wall 100 facing the insulation board 400.

Referring to fig. 2 and 3, the heat insulation board 400 includes a slot 450 with an opening facing to the opening and an insertion block 440 fixedly connected to opposite sidewalls of the slot 450, and when the heat insulation boards 400 are arranged in a matrix form, the insertion block 440 at the upper end is inserted into the slot 450 of the heat insulation board 400 at the lower end, so as to enhance the stability between the heat insulation boards 400. And the insulation board 400 is provided with a positioning bolt 410, and the positioning bolt 410 is connected to the cement deck 300 through a thread from one side of the insulation board 400, which is opposite to the main wall 100. The bottom surface of cavity is provided with water drainage tank 210, and water drainage tank 210's both ends are communicate in the outside by shrouding 200, and the intercommunication point is provided with detachable shutoff piece.

Referring to fig. 3 and 4, the vertical side surfaces of two adjacent heat insulation plates 400 are provided with semi-circular grooves 430, and the two semi-circular grooves 430 are communicated with each other to form a cylindrical groove 420, and the cylindrical grooves 420 are sequentially communicated from top to bottom. The inside of baffle still is seted up and is used for communicateing the spread groove 460 of semicircular groove 430 on two vertical lateral walls, and two spread grooves 460 slope settings, and keep away from and communicate each other with semicircular groove 430 tie point, and two spread groove 460 communicating point are less than the communicating point of spread groove 460 and semicircular groove 430.

Referring to fig. 5 and 6, the adjusting mechanism includes a first water inlet pipe 140, a second water inlet pipe 120, and a plurality of water conveying pipes 110. The inlet pipes are horizontally disposed and fixed to one side of the main wall 100 facing the cement layer 300, and the plurality of inlet pipes are uniformly arranged in a vertical direction. One end of the first water inlet pipe 140 is fixedly disposed on the main wall 100 along a vertical direction and is fixedly connected to one end of the water pipe 110, and the other end of the first water inlet pipe 140 horizontally penetrates through the main wall 100 and is provided with a throttle valve. One end of the second water inlet pipe 120 is fixedly arranged on the main wall 100 along the vertical direction and is fixedly connected to the other end of the water pipe 110, the other end of the second water inlet pipe 120 horizontally penetrates through the main wall 100 and is also provided with a throttle valve, and the second water inlet pipe 120 is connected with a heater for heating water

Referring to fig. 6 and 7, the water pipe 110 is provided with a water inlet chamber 111 and a water discharge chamber 112 wrapping the water inlet chamber 111. The water passing groove 113 is formed in one end, close to the water inlet groove, of the side wall of the water inlet cavity 111, and the water passing groove 113 is communicated with the water inlet cavity 111 and the water discharging cavity 112. The circumferential side wall of the drainage chamber 112 is perforated with holes opening towards the cement level 300. The water pipe 110 has two ends respectively opened with water inlet grooves for communicating with the water inlet cavity 111, and the water inlet grooves are respectively communicated with the corresponding first inlet pipe 140/second inlet pipe 120. And a sliding piece 116 for blocking the water passing groove 113 and the water inlet groove is also slidably arranged in the water inlet cavity 111, and a limiting piece for limiting the movement of the sliding piece 116 and a resetting component for contact limiting are also arranged on the water pipe 110.

Referring to fig. 6 and 7, the sliding member 116 includes a blocking block and two insertion blocks 440, the two insertion blocks 440 are fixedly connected to two sides of the blocking block, and the circumferential side wall is just embedded in the water inlet groove. The circumferential side wall of the blocking block is contacted with the circumferential inner wall of the water inlet cavity 111, and the axial length of the blocking block is larger than the diameter of the water passing groove 113. When the insert block 440 facing the first water inlet pipe 140 is embedded in the water inlet groove close to the first water inlet pipe 140, the circumferential side wall of the plug block is just plugged in the notch of the water passing groove 113.

Referring to fig. 6 and 7, two limiting members are provided, and the two limiting members are respectively provided at two ends of the water pipe 110. The limiting part comprises a blocking block 119 and a second spring 1191, and when the water pipe 110 is horizontally arranged, a limiting groove 1111 is radially formed below the water pipe 110. The stop block 119 is slidably disposed in the limit groove 1111 along the radial direction of the water pipe 110, the second spring 1191 is sleeved in the stop block 119, one end of the second spring 1191 is fixedly connected to the bottom surface of the limit groove 1111, and the other end of the second spring 1191 is fixedly connected to the side wall of the stop block 119. The upper end of the blocking block 119 protrudes and is positioned in the water inlet chamber 111, and one end of the blocking block facing away from the first water inlet pipe 140/the second water inlet pipe 120 is rounded, and the opposite side of the lower end of the blocking block 119 is rounded.

Referring to fig. 6 and 7, the reset assembly includes a sliding block 121, a collar 115 and a first spring 118, two ends of the water pipe 110 are both provided with a circular groove 114 having a port communicated with the first inlet pipe 140/the second inlet pipe 120, and the circular groove 114 is farther away from the limit groove 1111 and communicated with the limit groove 1111 in diameter relative to the limit groove 1111. The collar 115 is slidably disposed in the annular groove 114, and one end of the collar 115 facing the first inlet pipe 140/the second inlet pipe 120 protrudes out of the annular groove 114 and is located in the first inlet pipe 140/the second inlet pipe 120. The inner side wall of the collar 115 corresponding to the position of the stop block 119 is provided with a receiving groove 1151, the receiving groove 1151 is located right below the stop block 119, and the receiving groove 1151 is obliquely arranged along two side walls of the axial direction of the circular ring.

The outer side wall of the lantern ring 115 and the side wall of the circular groove 114 are provided with a spring groove 117, the first spring 118 is embedded in the spring groove 117, one end of the first spring 118 abuts against the lantern ring 115, and the other end of the first spring 118 abuts against the water pipe 110. The slide blocks 121 are disposed in the first inlet pipe 140 and the second inlet pipe 120, respectively, and slide along the extending direction of the first inlet pipe 140/the second inlet pipe 120, respectively.

The embodiments of the present invention are all preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, 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. An energy-saving heat-insulating wall body is characterized in that: comprises a main wall body (100), a heat insulation plate (400) and a plurality of water pipes (110), wherein the water pipes (110) are horizontally arranged and fixed on the main wall body (100) along the height direction of the main wall body (100), the water pipes (110) are uniformly arranged along the height direction of the main wall body (100), a water inlet cavity (111) and a water drainage cavity (112) wrapped outside the water inlet cavity (111) are arranged on the water drainage cavity (112), holes used for communicating with the outside are formed in the side wall of the water drainage cavity (112), a water passing groove (113) used for communicating with the water drainage cavity (112) is formed in the circumferential side wall of the end part of the water inlet cavity (111), a sliding part (116) is arranged in the water pipe (110), the sliding part (116) is arranged in the air inlet cavity in a sliding mode along the axial direction of the water pipes (110) and is used for blocking the notch of the water passing groove (113), the end part of the water passing groove (113) arranged on the water pipe (110) is connected with a first water inlet pipe (140) used for communicating with the water inlet cavity (111), the other end of the water conveying pipe (110) is connected with a second water inlet pipe (120) used for being communicated with the water inlet cavity (111), the heat insulation plate (400) is fixedly arranged on the main wall body (100) and covers the outside of the water conveying pipes (110), and the second water inlet pipe (120) is connected with a heater used for supplying water and heating.

2. The energy-saving heat-insulating wall body as claimed in claim 1, wherein: the water inlet grooves are formed in two ends of the water conveying pipe (110) respectively, the sliding piece (116) comprises a plugging block and two inserting blocks (440), the two inserting blocks (440) are fixedly connected to two sides of the plugging block, the two inserting blocks (440) correspond to the two water inlet grooves respectively, the inserting blocks (440) are embedded in the water inlet grooves, and the first water inlet pipe (140) and the second water inlet pipe (120) are communicated with the water inlet cavity (111) through the corresponding water inlet grooves respectively.

3. The energy-saving thermal insulation wall body as claimed in claim 2, wherein: the water pipe (110) is provided with limiting parts for limiting the insertion blocks (440) to be embedded in the water inlet grooves, and the side walls of the two water inlet grooves are provided with the limiting parts.

4. The energy-saving thermal insulation wall body as claimed in claim 3, wherein: the limiting part comprises a blocking block (119) which is arranged on the side wall in a sliding mode along the radial direction of the water pipe (110), the blocking block (119) is provided with a round corner towards the lower end of the middle of the water pipe (110), a reset component used for removing the blocking block (119) to limit the blocking block to move is arranged inside the water pipe (110), and reset components are arranged at two ends of the water pipe (110).

5. The energy-saving heat-insulating wall body as claimed in claim 4, wherein: the first water inlet pipe (140) and the second water inlet pipe (120) are both vertically arranged in the axial direction and are communicated with the corresponding water conveying pipes (110) in a one-to-one correspondence manner.

6. The energy-saving heat-insulating wall body as claimed in claim 5, wherein: the reset component comprises a sliding block (121), a collar (115) and a first spring (118), both ends of the water delivery pipe (110) are provided with circular grooves (114) which are communicated and face the first water inlet pipe (140)/the second water inlet pipe (120), the lantern ring (115) is arranged in the circular groove (114) in a sliding mode, one end of the stop block (119) penetrates through the water inlet cavity (111) and is arranged in the circular groove (114), the end part of the stop block (119) facing the circular ring is chamfered, the side wall of the lantern ring (115) facing the stop block (119) is provided with a receiving groove (1151) for receiving the stop block (119) when the stop block (119) is reset, one end of the first spring (118) is fixedly connected with the side wall of the circular groove (114), the other end of the first spring (118) is fixedly connected to the side wall of the circular ring, and the sliding block (121) is provided with two sliding blocks which are respectively arranged in the first water inlet pipe (140) and the second water inlet pipe (120).

7. The energy-saving heat-insulating wall body as claimed in claim 1, wherein: and a cement layer (300) is sprayed on the side surface of the heat insulation plate (400) facing the main wall body (100).

8. The energy-saving thermal insulation wall body as claimed in claim 7, wherein: the cement layer (300) is provided with a water storage tank (310) with an opening facing the water conveying pipe (110), and the extending direction of the water storage tank (310) is parallel to the axial direction of the water conveying pipe (110).

9. The energy-saving thermal insulation wall body as claimed in claim 8, wherein: there is the cavity between cement aspect (300) and main wall body (100), the bottom surface of cavity is provided with water drainage tank (210), the both ends of water drainage tank (210) communicate in the outside, and the intercommunication point is provided with detachable shutoff piece.

10. The energy-saving heat-insulating wall body as claimed in claim 1, wherein: heat insulating board (400) are provided with a plurality ofly, and are a plurality of heat insulating board (400) are the mutual concatenation setting of matrix form, heat insulating board (400) side spraying of main wall body (100) dorsad has protection aspect (500), half slot (430) have been seted up to the vertical lateral wall of heat insulating board (400), and cylinder groove (420) are constituteed to two adjacent heat insulating boards (400), cylinder groove (420) communicate by last to lower in proper order, spread groove (460) of useful intercommunication half slot (430) are seted up to heat insulating board (400) inside.