CN115075471B

CN115075471B - Wall body of green building

Info

Publication number: CN115075471B
Application number: CN202210533215.4A
Authority: CN
Inventors: 魏艳红; 刘铁; 史飞云; 江朝宏; 王利萍; 戴子恺
Original assignee: Ningbo Mingsen Architectural Design Institute Co ltd
Current assignee: Ningbo Mingsen Architectural Design Institute Co ltd
Priority date: 2022-05-17
Filing date: 2022-05-17
Publication date: 2024-02-27
Anticipated expiration: 2042-05-17
Also published as: CN115075471A

Abstract

The application relates to a wall body of green building relates to building wall body technical field. The heat exchange device comprises a wall body provided with a cavity, wherein the cavity is internally provided with the heat exchange device, the heat exchange device comprises a water inlet mechanism and a water outlet mechanism, the water inlet mechanism and the water outlet mechanism are both arranged in the cavity and are connected through a heat exchange tube, and the heat exchange tube is fixedly connected with the inner wall of the cavity. Compared with the related art, the method has the effects of reducing energy loss, saving energy and protecting environment.

Description

Wall body of green building

Technical Field

The application relates to the field of building walls, in particular to a wall body of a green building.

Background

The wall body mainly comprises a bearing wall and a non-bearing wall, and mainly plays a role in enclosing and separating space. The wall body of the wall bearing structure building integrates bearing and enclosing, and the function of the wall body of the framework structure building is enclosing and separating space. The wall body has enough strength and stability and has the capabilities of heat preservation, heat insulation, sound insulation, fire prevention and water prevention.

The wall body comprises two layers of brick walls and a concrete structure arranged between the two layers of brick walls, wherein one side of each of the two layers of brick walls is an inner wall, and the other side of each of the two layers of brick walls is an outer wall.

The related art in the above has the following drawbacks: the internal structure of the wall body is conventional and single, the heat insulation and heat preservation performance of the wall body is poor, and the indoor temperature is greatly influenced by the external temperature, so that the frequency of using air conditioners and heating by users is increased, and a large amount of energy consumption is caused, so that the wall body needs to be improved.

Disclosure of Invention

In order to solve the problem of high energy consumption, the application provides a wall body of a green building.

The wall body of green building that this application provided adopts following technical scheme:

the utility model provides a wall body of green building, includes the wall body, is equipped with the cavity in the wall body, be provided with heat transfer device in the cavity, heat transfer device includes water inlet mechanism and play water mechanism, in water inlet mechanism and play water mechanism all locates the cavity, and link to each other through the heat exchange tube, heat exchange tube and cavity inner wall fixed connection.

Through adopting above-mentioned technical scheme, when the temperature is higher, the bulk temperature of wall body is higher, flow the lower water of temperature to the heat exchange tube through water inlet mechanism this moment, and flow in the heat exchange tube, make the temperature of heat exchange tube lower, then by the heat exchange tube with low temperature transfer to the wall body on, realize the cooling to the wall body, when the heat exchange tube passes low temperature to the wall body, the wall body also passes high temperature to the heat exchange tube, make the temperature of water in the heat exchange tube rise, can't play the effect of cooling to the wall body, at this moment, discharge the water in the heat exchange tube through water outlet mechanism, and change new low temperature to the heat exchange tube, the people use air conditioning frequency has been reduced, the loss of the energy has been reduced, more energy-conserving.

Optionally, the water inlet mechanism includes open-top's inlet tank and propulsion spring, the inlet tank is located in the cavity, the one end of heat exchange tube is linked together with the inlet tank through the connecting pipe, propulsion spring locates in the cavity for with the inlet tank to keeping away from the direction of cavity inner wall and impel, one side inner wall of cavity runs through and is provided with the inlet opening that supplies the inlet tank to pass, one side of wall body is provided with slide mechanism, slide mechanism and wall body sliding connection are used for sealing or opening the inlet opening.

Through adopting above-mentioned technical scheme, when needing to put into the lower water of temperature in to the heat exchange tube, utilize sliding mechanism for the inlet opening is the open condition, and the inlet tank loses the barrier that blocks the inlet tank and remove to the direction of keeping away from the wall body this moment, under the effect of propulsion spring, impels the inlet tank to the direction of keeping away from cavity inner wall, makes the inlet tank pass the inlet opening, stretches out the cavity, in the rainwater falls into the inlet tank, flows to the connecting pipe, and in entering the heat exchange tube through the connecting pipe, accomplish the supply of heat exchange tube normal water, with rainwater collection and utilization, reduced the waste of water resource, it is more energy-conserving.

Optionally, the slide mechanism includes flourishing water tank, drive conveyer belt, slip board and two conveyer belts that slide, the vertical setting of drive conveyer belt, the equal coaxial dwang that is fixed with in both ends of drive conveyer belt, the dwang rotates with the wall body and is connected, flourishing water tank and drive conveyer belt lateral wall fixed connection, two the conveyer belt level that slides sets up, the one end and the dwang coaxial fixed of conveyer belt that slide, the board that slides is located between two conveyer belts that slide, one side that the intake box is close to the drive conveyer belt and one side looks butt that the board is close to the wall body that slides, the conveyer belt that slides rotates for drive the board that slides to be close to or keep away from the direction removal of drive conveyer belt.

Through adopting above-mentioned technical scheme, during raining, the rainwater is stored in flourishing water tank, make the dead weight of flourishing water tank grow, under the action of gravity, move downwards, drive the drive conveyer belt and rotate, make the dwang rotate, thereby drive the slip conveyer belt and rotate, and then make the slip board remove to the direction of keeping away from the drive conveyer belt, until the slip board is close to one side of wall body and completely separate with the intake box, at this moment, the intake box loses to being close to cavity inner wall extruded power, the propulsion spring resumes deformation, advance the intake box to being close to the direction of slip board, until the intake box passes the inlet opening, stretch out the cavity, make the lateral wall of intake box and wall body not in the coplanar, thereby make the rainwater whereabouts in the intake box, flow to in the connecting pipe, and get into the heat exchange tube through the connecting pipe, accomplish the supply of heat exchange tube reclaimed water, waste of water resource has been reduced, more energy-conserving.

Optionally, one side that the intake box was kept away from ground is provided with the guide surface, the one end that the guide surface is close to the drive conveyer belt sets up to the direction slope that is close to ground, when the intake box passes the inlet opening, one side inner wall that the intake box kept away from the drive conveyer belt and one side inner wall butt that the cavity is close to the drive conveyer belt.

Through adopting above-mentioned technical scheme, when the board that slides separates with the water inlet tank lateral wall mutually, advance the spring and resume deformation, advance the water inlet tank to the direction that is close to the board that slides, until the cavity be close to one side inner wall that the board that slides and the water inlet tank keep away from one side inner wall looks butt of the board that slides for the water inlet tank can not stretch out the cavity completely, has increased the steadiness that water inlet tank and wall body are connected.

Optionally, a filter plate is arranged at the opening of the water inlet tank, and a slot for inserting the filter plate is arranged on the inner wall of the water inlet tank.

Through adopting above-mentioned technical scheme, insert the filter from the one end of slot to slide in the slot, until the filter covers the opening at inlet tank top, the filter plays the filtration effect, when making the rainwater fall under, plays the baffle effect to the debris that mixes in the rainwater, makes debris be difficult for falling into the inlet tank, thereby makes the connecting pipe be difficult for blockking up, has reduced the change frequency of connecting pipe, has increased the life of connecting pipe.

Optionally, the water outlet mechanism includes the water outlet tank, the water outlet tank is located in the cavity, the water outlet tank is linked together through the conveyer pipe, the cavity is kept away from the one side inner wall of drive conveyer belt and is run through and be provided with the apopore that supplies the water outlet tank to pass, the water outlet tank passes through conveying mechanism and links to each other with the slip board, conveying mechanism rotates with the wall body to be connected, conveying mechanism rotates for the drive water outlet tank passes the apopore.

Through adopting above-mentioned technical scheme, when raining, the rainwater is stored in flourishing water tank, make the dead weight of flourishing water tank increase, under the action of gravity, flourishing water tank downwardly moving, drive the drive conveyer belt and rotate, make the conveyer belt that slides rotate, thereby drive the board that slides and remove to the direction of keeping away from the drive conveyer belt, when the board that slides and intake box lateral wall phase separation, the propulsion spring impels the intake box to the direction that is close to the board that slides, make the intake box stretch out the cavity, the rainwater whereabouts is in the intake box, flow to the connecting pipe, and flow to the heat transfer intraductal through the connecting pipe, original water flows to the apopore through the conveyer pipe in the heat transfer pipe, when the board that slides removes, make conveying mechanism rotate, drive the apopore, move to the direction of keeping away from the conveyer belt, until stretching out the cavity, the people is discharged the water in the water tank of being convenient for, realize the change of water in the heat transfer pipe, the simple operation.

Optionally, conveying mechanism includes rack, the gear that slides, slide bar, locating piece and dead lever that slides, one side fixed connection of rack and slide board that slides, the gear that slides rotates with one side of wall body and is connected, the rack that slides meshes with the gear that slides, the pole that slides is coaxial fixed with the gear that slides, the wall body is worn to establish by the slide bar, and rotates with the wall body to be connected, the dead lever parallels with the slide bar, and both ends all with cavity inner wall fixed connection, the locating piece is all worn to set for by slide bar and dead lever, locating piece and slide bar threaded connection, locating piece and dead lever sliding connection, the play water tank links to each other with the locating piece.

Through adopting above-mentioned technical scheme, when the board that slides moves to the direction of keeping away from the drive conveyer belt, make the rack that slides remove to the direction of keeping away from the drive conveyer belt, thereby drive the gear that slides and rotate, slide the pole and take place to rotate promptly, because of slide pole and locating piece screw-thread fit, the dead lever plays the limiting effect, make the locating piece be difficult for taking the slide pole to rotate as the axle, thereby make the locating piece follow the length of slide pole and move to the direction of keeping away from the gear that slides, until the play water tank stretches out the cavity, in the water in the heat exchange tube passes through the conveyer pipe and discharges to the play water tank, people of being convenient for directly take the water in the play water tank, the simple operation.

Optionally, the locating piece rotates and is connected with tilting mechanism, the play water tank rotates with tilting mechanism to be connected, tilting mechanism rotates for the upset of drive play water tank.

Through adopting above-mentioned technical scheme, in the water in the heat exchange tube passes through the conveyer pipe and arranges the outlet pipe, when the water weight in the outlet pipe reaches a definite time for go out the water tank and overturn, the opening slope of water tank is down promptly, and the water that will go out the water tank and store up is poured out, has increased the efficiency that goes out the water tank and hold water.

Optionally, tilting mechanism includes upset board, balancing weight, spacer sleeve, gag lever post, stopper and connecting rod, upset board middle part is connected with the locating piece rotation, the one end fixed connection that the drive conveyer belt is close to with the upset board to the balancing weight, the one end fixed connection that the balancing weight was kept away from to spacer sleeve and upset board, gag lever post and connecting rod rotate to be connected, just gag lever post and connecting rod all insert and establish in the spacer sleeve, the one end fixed connection that the stopper is close to the balancing weight with the gag lever post, the stopper is used for restricting the spacer sleeve of one end roll-off locating sleeve that the balancing weight was kept away from the spacer sleeve, the one end and the play water tank fixed connection that the stopper was kept away from to the connecting rod.

By adopting the technical scheme, when raining, rainwater is accumulated in the water containing tank, the driving conveyor belt is driven to rotate, so that the sliding conveyor belt rotates, namely the sliding plate moves in the direction away from the driving conveyor belt, the water inlet tank stretches out of the water inlet hole under the action of the pushing spring, the rainwater falls into the water inlet tank, when the rainwater enters the heat exchange tube through the connecting tube, the original water in the heat exchange tube is discharged into the water outlet tank through the conveying tube, the sliding plate drives the sliding gear to rotate in the process of moving in the direction away from the driving conveyor belt, the positioning block moves in the direction away from the sliding plate along the length of the sliding rod, so that the water outlet tank stretches out of the cavity, the water in the heat exchange tube is discharged into the water outlet tank, the dead weight of the water outlet tank is increased, when the weight of the water outlet tank is larger than that of the balancing weight, the water outlet tank moves in the direction close to the sliding rod under the action of gravity, the turnover plate rotates by taking the joint of the turnover plate and the positioning block as an axis, the water outlet tank is positioned at one side of the balancing weight close to the sliding rod, one end of the turnover plate away from the sliding rod is inclined downwards, under the action of gravity, the water outlet tank drives the connecting rod to move towards the direction close to the sliding rod, the limiting rod moves towards the direction away from the balancing weight until one side of the limiting block away from the balancing weight is abutted with one side of the positioning sleeve close to the balancing weight, at the moment, the joint of the limiting rod and the connecting rod extends out of the positioning sleeve completely, the side wall of the connecting rod is separated from the inner wall of the positioning sleeve, the supporting force at the bottom is lost by the connecting rod, the water outlet tank moves downwards under the action of gravity, one end of the connecting rod away from the balancing weight is driven to move downwards, the connecting rod rotates by taking the joint of the connecting rod and the limiting rod as an axis, so that the water in the water outlet tank can be poured out of the water outlet tank is realized, the water in the water outlet tank is cleaned, and the operation is convenient.

Optionally, the wall body lateral wall is provided with the deflector, one side that the deflector is close to the board that slides is provided with the spout, the board that slides inserts and establishes into the spout to slide in the spout.

Through adopting above-mentioned technical scheme, when the board that slides at wall body lateral wall slip, the board that slides in the spout, along the length direction removal of deflector, the inner wall of spout and the lateral wall looks butt of board that slides play spacing effect to the board that slides for the board that slides in-process, be difficult for taking place the skew, increased the board that slides and removed in-process stability.

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

1. when the temperature is higher, the whole temperature of the wall body is higher, water with lower temperature flows into the heat exchange tube through the water inlet mechanism and flows in the heat exchange tube, so that the temperature of the heat exchange tube is lower, then the heat exchange tube transmits low temperature to the wall body, the temperature of the wall body is reduced, the wall body also transmits high temperature to the heat exchange tube when the heat exchange tube transmits low temperature to the wall body, the temperature of the water in the heat exchange tube is increased, the effect of reducing the temperature of the wall body cannot be achieved, at the moment, the water in the heat exchange tube is discharged through the water outlet mechanism and new low-temperature water is replaced to the heat exchange tube, the frequency of air conditioning used by people is reduced, the loss of energy sources is reduced, and the energy is saved;

2. when needs put into the lower water of temperature in the heat exchange tube, utilize slide mechanism for the inlet opening is the open state, and the inlet tank loses the barrier that blocks the inlet tank and remove to the direction of keeping away from the wall body this moment, under the effect of propulsion spring, impels the inlet tank to the direction of keeping away from the cavity inner wall for the inlet tank passes the inlet opening, stretches out the cavity, in the rainwater falls into the inlet tank, flows to the connecting pipe in, and in entering the heat exchange tube through the connecting pipe, accomplish the supply of heat exchange tube water, with rainwater collection and utilization, reduced the waste of water resource, it is more energy-conserving.

Drawings

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

FIG. 2 is a schematic structural diagram for showing the connection relationship between a heat exchange tube and a wall body in an embodiment of the present application;

FIG. 3 is a schematic structural diagram showing the connection relationship between the water inlet tank and the heat exchange tube in the embodiment of the present application;

FIG. 4 is a schematic structural diagram showing the connection relationship between the water inlet tank and the wall body in the embodiment of the present application;

FIG. 5 is a schematic diagram of a structure for showing a connection relationship between a water tank and a wall body according to an embodiment of the present application;

FIG. 6 is a schematic diagram of a structure for showing a connection relationship between a water tank and a roll-over plate in an embodiment of the present application;

fig. 7 is a schematic structural diagram for showing the overturning of the overturning plate in the embodiment of the application.

In the figure: 1. a wall body; 10. a cavity; 101. a water inlet hole; 102. a water outlet hole; 2. a heat exchange device; 21. a water inlet mechanism; 211. a propulsion spring; 212. a water inlet tank; 2120. a guide surface; 2121. a slot; 22. a water outlet mechanism; 221. discharging the water tank; 23. a heat exchange tube; 3. a connecting pipe; 4. a sliding mechanism; 41. a water container; 42. driving the conveyor belt; 43. a slip plate; 44. a slip conveyor belt; 5. a rotating lever; 6. a filter plate; 7. a conveying mechanism; 71. a sliding rack; 72. a slipping gear; 73. a sliding rod; 74. a positioning block; 75. a fixed rod; 8. a turnover mechanism; 81. a turnover plate; 82. balancing weight; 83. a positioning sleeve; 84. a limit rod; 85. a limiting block; 86. a connecting rod; 9. a guide plate; 90. a chute; 11. a receiving plate; 12. a water pump; 13. a conveying pipe.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-7.

The embodiment of the application discloses a wall body of green building. Referring to fig. 1 and 2, the wall of the green building comprises a wall body 1, a cavity 10 is formed in the wall body 1, a heat exchange device 2 is arranged in the cavity 10, the heat exchange device 2 comprises a water inlet mechanism 21 and a water outlet mechanism 22, the water inlet mechanism 21 and the water outlet mechanism 22 are arranged in the cavity 10 and are connected through a heat exchange tube 23, and the heat exchange tube 23 is fixedly connected with the inner wall of the cavity 10. When the temperature is higher, the whole temperature of the wall body 1 is higher, at this moment, water with lower temperature flows into the heat exchange tube 23 through the water inlet mechanism 21 and flows in the heat exchange tube 23, so that the temperature of the heat exchange tube 23 is lower, then the heat exchange tube 23 transfers low temperature to the wall body 1, the temperature of the wall body 1 is reduced, the wall body 1 also transfers high temperature to the heat exchange tube 23 while the heat exchange tube 23 transfers low temperature to the wall body 1, so that the temperature of the water in the heat exchange tube 23 is increased, the effect of reducing the temperature of the wall body 1 cannot be achieved, at this moment, the water in the heat exchange tube 23 is discharged through the water outlet mechanism 22, new low temperature water is replaced to the heat exchange tube 23, the frequency of air conditioning used by people is reduced, the loss of energy sources is reduced, and the energy is more saved.

Referring to fig. 2 and 3, the water inlet mechanism 21 includes a water inlet tank 212 with an open top and a pushing spring 211, the water inlet tank 212 is located in the cavity 10, one end of the heat exchange tube 23 is communicated with the water inlet tank 212 through a connecting tube 3, in this embodiment, the connecting tube 3 is a rubber hose, one end of the pushing spring 211 is fixedly cast with the inner wall of the cavity 10, the other end is fixedly welded with the side wall of the water inlet tank 212, the pushing spring 211 is used for pushing the water inlet tank 212 in a direction away from the inner wall of the cavity 10, a water inlet hole 101 is formed in a penetrating manner in the inner wall of one side, close to the outside, of the cavity 10, and the water inlet tank 212 can penetrate through the water inlet hole 101. The side of the water inlet tank 212 far away from the ground is cut with a guide surface 2120, one end of the guide surface 2120 far away from the propulsion spring 211 is obliquely arranged in a direction close to the ground, and when the water inlet tank 212 passes through the water inlet hole 101, the inner wall of the side of the water inlet tank 212 near the propulsion spring 211 is abutted with the inner wall of the side of the cavity 10 far away from the propulsion spring 211. The opening of the water inlet tank 212 is provided with a filter plate 6, the inner wall of the water inlet tank 212 is provided with a slot 2121, and the filter screen is inserted into the slot 2121.

When water with lower temperature needs to be put into the heat exchange tube 23, under the action of the pushing spring 211, the water inlet tank 212 is pushed towards the direction away from the inner wall of the cavity 10, so that the water inlet tank 212 passes through the water inlet hole 101 until one end of the water inlet tank 212, which is close to the pushing spring 211, is abutted against one side of the cavity 10, which is away from the pushing spring 211, of the cavity 10, so that the water inlet tank 212 cannot completely extend out of the cavity 10, the stability of connection between the water inlet tank 212 and the wall body 1 is improved, and then when low-temperature water is added into the water inlet tank 212, impurities mixed in the water are isolated on one side, which is away from the water inlet tank 212, of the filter plate 6, so that impurities are not easy to fall into the water inlet tank 212, so that the connecting pipe 3 is not easy to be blocked, the replacement frequency of the connecting pipe 3 is reduced, and the service life of the connecting pipe 3 is prolonged.

Referring to fig. 2 and 3, the water outlet mechanism 22 includes a water outlet tank 221, the water outlet tank 221 is located in the cavity 10, the water outlet tank 221 is communicated through a conveying pipe 13, in this embodiment, the conveying pipe 13 adopts a rubber hose, a water pump 12 is connected to the conveying pipe 13, the water pump 12 is fixedly connected with the side wall of the water outlet tank 221 through a bolt, a water outlet hole 102 is formed in the inner wall of one side, close to the room, of the cavity 10, and the water outlet tank 221 can pass through the water outlet hole 102.

Referring to fig. 1 and 4, one side of the wall body 1 is provided with a sliding mechanism 4, and the sliding mechanism 4 includes a water container 41, a driving conveyor 42, a sliding plate 43, and two sliding conveyors 44. The driving conveyor belt 42 is vertically arranged, the rotating rods 5 are coaxially fixed at two ends of the driving conveyor belt 42, the rotating rods 5 are rotationally connected with the wall body 1, the water containing tank 41 is fixedly welded with the side wall of the driving conveyor belt 42, the side wall of the wall body 1 is fixedly provided with the bearing plate 11, the central shaft of the bearing plate 11 and the central shaft of the water containing tank 41 are arranged on the same vertical line, the two sliding conveyor belts 44 are horizontally arranged, the central shafts of the two sliding conveyor belts 44 are arranged on the same vertical line, one end of the sliding conveyor belt 44 is coaxially fixed with the rotating rods 5, the sliding plate 43 is arranged between the two sliding conveyor belts, one end of the sliding plate 43, which is far away from the ground, is fixedly welded with one side, close to the ground, of one sliding conveyor belt 44, of the sliding plate 43 is fixedly welded with one side, close to the ground, of the other sliding conveyor belt 44, of the water inlet tank 212 is in butt joint with one side, close to the wall body 1, of the sliding plate 43, and the sliding conveyor belt 44 rotates for driving the sliding plate 43 to move in the direction, close to or far away from the driving conveyor belt 42. Two guide plates 9 are fixedly welded on one side of the wall body 1, which is close to the driving conveyor belt 42, the two guide plates 9 are respectively positioned on two sides of the sliding plate 43 in the vertical direction, a sliding groove 90 is formed in one side, which is close to the sliding plate 43, of the guide plate 9, and the sliding plate 43 is inserted into the sliding groove 90 and slides in the sliding groove 90.

During raining, rainwater is accumulated in the water containing tank 41, so that the dead weight of the water containing tank 41 becomes large, the water containing tank 41 moves downwards under the action of gravity, the driving conveyor belt 42 is driven to rotate, the rotating rod 5 is driven to rotate, the sliding conveyor belt is driven to rotate, the sliding plate 43 is further driven to move away from the driving conveyor belt 42 until one side of the sliding plate 43, which is close to the wall body 1, is completely separated from the water inlet tank 212, at the moment, the water inlet tank 212 loses the force of pressing the water inlet tank 212 towards the inner wall of the cavity 10, the pushing spring 211 is deformed, the water inlet tank 212 is pushed towards the direction, which is close to the sliding plate 43, until the water inlet tank 212 penetrates through the water inlet hole 101 and stretches out of the cavity 10, so that the water inlet tank 212 and the side wall body 1 are not in the same plane, and therefore rainwater falls into the water inlet tank 212 and flows into the connecting pipe 3, water supply of the heat exchange pipe 23 is completed through the connecting pipe 3, water resource waste is reduced, and energy is saved.

Referring to fig. 1 and 5, the outlet tank 221 is connected to the sliding plate 43 through a conveying mechanism 7, and the conveying mechanism 7 includes a sliding rack 71, a sliding gear 72, a sliding lever 73, a positioning block 74, and a fixing lever 75. The sliding rack 71 is arranged along the length direction of the sliding plate 43 and is integrally formed with one side of the sliding plate 43, the sliding gear 72 is rotationally connected with one side, close to the sliding plate 43, of the wall body 1, the sliding rack 71 is meshed with the sliding gear 72, the sliding rod 73 is coaxially fixed with the sliding gear 72, the sliding rod 73 penetrates through the wall body 1 and is rotationally connected with the wall body 1, the fixing rod 75 is parallel to the sliding rod 73, two ends of the fixing rod 75 are fixedly poured with the inner wall of the cavity 10, the sliding rod 73 and the fixing rod 75 penetrate through a setting block 74, the setting block 74 is in threaded connection with the sliding rod 73, the setting block 74 is in sliding connection with the fixing rod 75, and the water outlet tank 221 is connected with the setting block 74 through the turnover mechanism 8.

When the sliding plate 43 moves in the direction away from the driving conveyor belt 42, the sliding rack 71 moves in the direction away from the driving conveyor belt 42, so that the sliding gear 72 is driven to rotate, namely, the sliding rod 73 rotates, the sliding rod 73 is in threaded fit with the positioning block 74, the fixing rod 75 plays a limiting role, the positioning block 74 is not easy to rotate by taking the sliding rod 73 as an axis, the positioning block 74 moves in the direction away from the sliding gear 72 along the length of the sliding rod 73 until the water outlet tank 221 extends out of the cavity 10, when water in the heat exchange tube 23 is discharged into the water outlet tank 221 through the conveying pipe 13, people can take the water in the water outlet tank 221 directly conveniently, and the operation is convenient.

Referring to fig. 1 and 6, tilting mechanism 8 includes turnover plate 81, balancing weight 82, spacer 83, gag lever post 84, stopper 85 and connecting rod 86, the middle part of turnover plate 81 rotates with locating piece 74 to be connected, balancing weight 82 is close to the one end welded fastening of drive conveyer 42 with turnover plate 81, spacer 83 is kept away from the one end welded fastening of balancing weight 82 with turnover plate 81, gag lever post 84 and connecting rod 86 rotate to be connected, and gag lever post 84 and connecting rod 86 all insert into spacer 83, gag lever post 84 is located the one side that connecting rod 86 is close to balancing weight 82 in spacer 83, stopper 85 and one end integrated into one piece that gag lever post 84 is close to balancing weight 82, stopper 85 is used for restricting gag lever post 84 to keep away from one end roll-off spacer 83 of balancing weight 82 from spacer 83, one end that stopper 85 was kept away from to connecting rod 86 and outlet box 221 welded fastening.

During raining, rainwater is accumulated in the water containing tank 41, the driving conveyor belt 42 is driven to rotate, the sliding conveyor belt 44 is driven to rotate, namely the sliding plate 43 moves away from the driving conveyor belt 42, the water inlet tank 212 stretches out of the water inlet hole 101 under the action of the pushing spring 211, the rainwater falls into the water inlet tank 212, when the rainwater enters the heat exchange tube 23 through the connecting tube 3, the original water in the heat exchange tube 23 is discharged into the water outlet tank 221 through the conveying tube 13, and in the process that the sliding plate 43 moves away from the driving conveyor belt 42, the sliding gear 72 is driven to rotate, the positioning block 74 moves away from the sliding plate 43 along the length of the sliding rod 73, so that the water outlet tank 221 stretches out of the cavity 10, the water in the heat exchange tube 23 is discharged into the water outlet tank 221, and the self weight of the water outlet tank 221 is increased.

Referring to fig. 7, when the weight of the water outlet tank 221 is greater than the weight of the balancing weight 82, under the action of gravity, the water outlet tank 221 moves towards the direction close to the sliding rod 73, so that the turnover plate 81 rotates with the connection of the turnover plate 81 and the positioning block 74 as an axis, the water outlet tank 221 is located at one side of the balancing weight 82 close to the sliding rod 73, so that one end of the turnover plate 81 far away from the sliding plate 43 is inclined downwards, under the action of gravity, the water outlet tank 221 drives the connecting rod 86 to move towards the direction close to the sliding rod 73, with the limiting rod 84 moving towards the direction far away from the balancing weight 82 until one side of the limiting block 85 far away from the balancing weight 82 is abutted against one side of the positioning sleeve 83 close to the balancing weight 82, at the moment, the connection of the limiting rod 84 and the connecting rod 86 extends out of the positioning sleeve 83 completely, the side wall of the connecting rod 86 is separated from the inner wall of the positioning sleeve 83, the bottom supporting force of the connecting rod 86 is lost, the water outlet tank 221 moves downwards under the action of gravity, one end of the connecting rod 86 far away from the balancing weight 82 is driven to rotate with the connection of the limiting rod 84 as an axis, and the connecting rod 86 is enabled to turn, and the water outlet tank 221 is turned.

The implementation principle of the wall body of the green building is as follows: during raining, rainwater is accumulated in the water containing tank 41, so that the dead weight of the water containing tank 41 becomes large, the rainwater moves downwards under the action of gravity, the driving conveyor belt 42 is driven to rotate, the rotating rod 5 is driven to rotate, the sliding conveyor belt is driven to rotate, the sliding plate 43 is further driven to move away from the driving conveyor belt 42 until one side of the sliding plate 43, which is close to the wall body 1, is completely separated from the water inlet tank 212, at the moment, the water inlet tank 212 loses the force of pressing the water towards the inner wall close to the cavity 10, the pushing spring 211 is deformed, the water inlet tank 212 is pushed towards the direction, which is close to the sliding plate 43, until the water inlet tank 212 passes through the water inlet hole 101 and stretches out of the cavity 10, so that the water inlet tank 212 and the side wall body 1 are not in the same plane, and accordingly rainwater falls into the water inlet tank 212 and flows into the connecting pipe 3, and enters the heat exchange pipe 23 through the connecting pipe 3, at the moment, water with lower temperature flows into the heat exchange pipe 23 through the water inlet mechanism 21, flows in the heat exchange pipe 23 by the water pump 12, at the temperature of the heat exchange pipe 23 is lower, at the moment, the low temperature of the heat exchange pipe 23 is transferred to the body 1 by the heat exchange pipe 23, the low temperature is more energy-saving, the energy is saved for people, the energy is saved, the energy is reduced, and the air conditioner is cooled, and the energy consumption is reduced.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. The utility model provides a wall body of green building, includes wall body (1), be equipped with cavity (10), its characterized in that in wall body (1): the heat exchange device (2) is arranged in the cavity (10), the heat exchange device (2) comprises a water inlet mechanism (21) and a water outlet mechanism (22), the water inlet mechanism (21) and the water outlet mechanism (22) are arranged in the cavity (10) and are connected through a heat exchange tube (23), and the heat exchange tube (23) is fixedly connected with the inner wall of the cavity (10);

the water inlet mechanism (21) comprises a water inlet tank (212) with an opening at the top and a propelling spring (211), the water inlet tank (212) is arranged in the cavity (10), one end of the heat exchange tube (23) is communicated with the water inlet tank (212) through a connecting tube (3), the propelling spring (211) is arranged in the cavity (10) and is used for propelling the water inlet tank (212) in a direction away from the inner wall of the cavity (10), a water inlet hole (101) for the water inlet tank (212) to penetrate through is formed in the inner wall of one side of the cavity (10), a sliding mechanism (4) is arranged on one side of the wall body (1), and the sliding mechanism (4) is in sliding connection with the wall body (1) and is used for sealing or opening the water inlet hole (101);

the sliding mechanism (4) comprises a water containing tank (41), a driving conveying belt (42), a sliding plate (43) and two sliding conveying belts (44), wherein the driving conveying belt (42) is vertically arranged, two ends of the driving conveying belt (42) are coaxially fixed with rotating rods (5), the rotating rods (5) are rotationally connected with a wall body (1), the water containing tank (41) is fixedly connected with the side walls of the driving conveying belt (42), the two sliding conveying belts (44) are horizontally arranged, one end of the sliding conveying belt (44) is coaxially fixed with the rotating rods (5), the sliding plate (43) is arranged between the two sliding conveying belts, one side, close to the driving conveying belt (42), of the water inlet tank (212) is abutted against one side, close to the wall body (1), of the sliding plate (43), and the sliding conveying belts (44) rotate to drive the sliding plate (43) to move towards a direction close to or away from the driving conveying belt (42);

one side of the water inlet tank (212) far away from the ground is provided with a guide surface (2120), one end of the guide surface (2120) close to the driving conveyor belt (42) is obliquely arranged in a direction close to the ground, and when the water inlet tank (212) passes through the water inlet hole (101), one side inner wall of the water inlet tank (212) far away from the driving conveyor belt (42) is abutted against one side inner wall of the cavity (10) close to the driving conveyor belt (42).

2. The wall of a green building according to claim 1, wherein: the filter plate (6) is arranged at the opening of the water inlet tank (212), and a slot (2121) for inserting the filter plate (6) is formed in the inner wall of the water inlet tank (212).

3. The wall of a green building according to claim 1, wherein: the water outlet mechanism (22) comprises a water outlet tank (221), the water outlet tank (221) is arranged in the cavity (10), the water outlet tank (221) is communicated through a conveying pipe (13), the inner wall of one side of the cavity (10) away from the driving conveyor belt (42) is penetrated and provided with a water outlet hole (102) for the water outlet tank (221) to penetrate, the water outlet tank (221) is connected with the sliding plate (43) through a conveying mechanism (7), the conveying mechanism (7) is rotationally connected with the wall body (1), and the conveying mechanism (7) rotates and is used for driving the water outlet tank (221) to penetrate through the water outlet hole (102).

4. A wall for a green building according to claim 3, wherein: conveying mechanism (7) are including sliding rack (71), sliding gear (72), sliding rod (73), locating piece (74) and dead lever (75), one side fixed connection of sliding rack (71) and sliding plate (43), sliding gear (72) rotate with one side of wall body (1) and are connected, sliding rack (71) meshes with sliding gear (72), sliding rod (73) are fixed with sliding gear (72) coaxial, sliding rod (73) wears to establish wall body (1), and rotates with wall body (1) to be connected, dead lever (75) are parallel with sliding rod (73), and both ends all wear to set for locating piece (74) with cavity (10) inner wall fixed connection, locating piece (74) and sliding rod (73) threaded connection, locating piece (74) and dead lever (75) sliding connection, play water tank (221) link to each other with locating piece (74).

5. The wall of a green building according to claim 4, wherein: the positioning block (74) is rotationally connected with the turnover mechanism (8), the water outlet tank (221) is rotationally connected with the turnover mechanism (8), and the turnover mechanism (8) rotates and is used for driving the water outlet tank (221) to turn over.

6. The wall of a green building according to claim 5, wherein: the utility model provides a tilting mechanism (8) is including upset board (81), balancing weight (82), spacer sleeve (83), gag lever post (84), stopper (85) and connecting rod (86), upset board (81) middle part and locating piece (74) rotate and are connected, balancing weight (82) are close to the one end fixed connection of drive conveyer belt (42) with upset board (81), one end fixed connection that balancing weight (82) was kept away from with upset board (81) spacer sleeve (83), gag lever post (84) and connecting rod (86) rotate and are connected, just in spacer rod (84) and connecting rod (86) all insert and establish into spacer sleeve (83), one end fixed connection that stopper (85) are close to balancing weight (82) with spacer rod (84), one end roll-off spacer sleeve (83) are kept away from spacer sleeve (83) to stopper (84), one end and play water tank (221) fixed connection that stopper (85) were kept away from to connecting rod (86).

7. The wall of a green building according to claim 1, wherein: the wall body (1) lateral wall is provided with deflector (9), one side that deflector (9) are close to sliding plate (43) is provided with spout (90), sliding plate (43) inserts and establishes into spout (90) to slide in spout (90).