CN115387501B - Energy-saving low-consumption building wall - Google Patents

Abstract

The application relates to an energy-saving low-consumption building wall body, and relates to the technical field of building wall bodies. The heat-insulating wall comprises a wall body, a heat-insulating wall body is arranged on the side wall of the wall body, a heat exchange tube is arranged in the heat-insulating wall body, a water pump is arranged on the heat exchange tube, two ends of the heat exchange tube are connected through a heat exchange water tank, a water inlet and a water outlet are arranged on the heat exchange water tank, the water inlet is connected with one end of the heat exchange tube, the heat exchange water tank is connected with the heat-insulating wall body through a connecting mechanism, the connecting mechanism comprises a driving assembly and a rotating assembly, the driving assembly is connected with the heat-insulating wall body, the rotating assembly is connected with the heat exchange water tank through a connecting rod, the driving assembly rotates to drive the connecting rod to rotate, and the driving rotating assembly drives the heat exchange water tank to rotate so that the water outlet is communicated with the other end of the heat exchange tube. The application has the effects of reducing energy loss and being more energy-saving and environment-friendly.

Description

Energy-saving low-consumption building wall

Technical Field

The application relates to the field of building walls, in particular to an energy-saving and low-consumption building wall.

Background

The wall is a heavy straight space partition structure used for enclosing, dividing or protecting a certain area, and is one of the most important elements in building design. According to whether the wall bears load in the building, the wall is divided into a bearing wall and a non-bearing wall. The load bearing wall is a part of the building structure that bears the weight of the building above and adjacent thereto and is not allowed to be removed for finishing reasons and the like.

In the related art, a floor beam and a door head lintel are prefabricated, steel bars are drilled and implanted on the floor beam and the door head lintel, bricks are built, a steel net is fixed on the built brick wall, concrete is poured on the surface, the flatness of the surface of the wall is inspected, the construction of the wall is completed, and the wall made of concrete absorbs heat, so that the heat insulation performance of the wall is poor.

The related art in the above has the following drawbacks: in hot weather in summer, the heat insulation performance of the wall body is poor, so that the indoor temperature is greatly influenced by the external temperature, and the indoor temperature is high, so that a refrigerating system is frequently used, and a large amount of energy consumption is caused, and the improvement is needed.

Disclosure of Invention

In order to solve the problem of high energy consumption, the application provides an energy-saving low-consumption building wall.

The energy-saving low-consumption building wall provided by the application adopts the following technical scheme:

the utility model provides an energy-conserving low consumption building wall, includes the wall body, be provided with thermal-insulated wall body on the lateral wall of wall body, be provided with the heat exchange tube in the thermal-insulated wall body, be provided with the water pump on the heat exchange tube, the both ends of heat exchange tube link to each other through the heat exchange water tank, be provided with water inlet and delivery port on the heat exchange water tank, the water inlet links to each other with the one end of heat exchange tube, the heat exchange water tank passes through coupling mechanism and links to each other with thermal-insulated wall body, coupling mechanism includes drive assembly and rotating assembly, drive assembly links to each other with thermal-insulated wall body, rotating assembly links to each other with the heat exchange water tank through the connecting rod, drive assembly rotates, drives the connecting rod the rotating assembly drives the heat exchange water tank and rotates for the delivery port communicates with the other end of heat exchange tube.

Through adopting above-mentioned technical scheme, when the temperature is higher, the direct insolation of thermal-insulated wall body is in sunshine, make thermal-insulated wall body's temperature higher, at this moment with the lower cooling water of temperature let in the heat exchange tube, start the water pump, make the cooling water flow in the heat exchange tube, thereby make the temperature of heat exchange tube lower, then the heat exchange tube passes the low temperature on the thermal-insulated wall body, reduce thermal-insulated wall body's temperature, when cooling water flow to the one end of heat exchange tube, and flow to the heat exchange water tank through the one end of heat exchange tube, the heat exchange water tank exposes outside, and the heat exchange water tank is made by transparent material, sunlight shines on the water in the heat exchange water tank through the heat exchange water tank, produce the refraction, and the ripple on the surface of water is linear motion, consequently the light of refraction in crest and trough department is different. Thereby produced the effect of wave light, the aesthetic feeling of thermal-insulated wall body has been increased, possess the sight, and the sunlight shines and can produce scattering phenomenon after the aquatic in the heat exchange water tank, absorb the energy of sunlight, thereby reduce the temperature of thermal-insulated wall body, after the water all flows to the heat exchange water tank from the one end of heat exchange tube in the heat exchange tube, drive assembly rotates, drive the connecting rod rotates, make rotating assembly drive heat exchange water tank rotate, until the delivery port is located the part that the heat exchange water tank is close to ground, and be linked together with the other end of heat exchange tube, drive assembly stops rotating, water in the heat exchange water tank passes through the delivery port and gets into in the heat exchange tube, then utilize the water pump to flow in the heat exchange tube, realize cyclic utilization of water, reduce the waste of water resource, also can make the temperature reduction of thermal-insulated wall body, and then make the wall body receive the influence of external high temperature less, the people use the air conditioner frequency, the loss of energy is reduced, and is more energy-conserving.

Optionally, the drive assembly includes dwang, fixed cover and dead lever, fixed cover and thermal-insulated wall body fixed connection, the dead lever wears to establish the fixed cover, and rotates with the fixed cover to be connected, dwang fixedly connected with installation pole, the installation pole is mutually perpendicular with the dwang, the installation pole links to each other with heat exchange water tank, the dead lever is mutually perpendicular with the fixed cover, the one end and the fixed cover fixed connection of dead lever, the other end rotates with the tip of connecting rod to be connected.

Through adopting above-mentioned technical scheme, after the water in the heat exchange tube flows to the heat exchange water tank through the one end of heat exchange tube is whole, rotatory dwang, make the installation pole promote heat exchange water tank and use the dwang to keep away from the direction rotation of thermal-insulated wall body for the axial, the connecting rod drives rotating assembly and keeps away from the one end of fixed cover for the axial simultaneously and keeps away from the direction removal of thermal-insulated wall body for the fixed cover, because of rotating assembly's pivot and heat exchange water tank's pivot exists the distance, and rotating assembly can move along with the removal of heat exchange water tank, the length of connecting rod is certain, thereby make heat exchange water tank in the rotation process, the connecting rod drives rotating assembly and moves to being close to the direction of fixed cover, make rotating assembly rotate for the one end that the connecting rod kept away from the fixed rod is the axle, drive heat exchange water tank and rotate, until delivery port and heat exchange water pipe's tip intercommunication, water in the heat exchange water tank flows to the heat exchange tube along the delivery port, then start the water pump, make water flow in the heat exchange tube, realize cyclic utilization, reduce the waste of water resource.

Optionally, rotating assembly is including rotating bevel gear, drive bevel gear, rotary rod and transfer line, the one end that the dead lever was kept away from to the connecting rod rotates with the tip of transfer line to be connected, the transfer line parallels with the dead lever, the one end that the connecting rod was kept away from to the transfer line rotates with the rotary rod to be connected, rotary rod and rotary rod parallels, the installation pole is worn to establish by the rotary rod, and rotates with the installation pole to be connected, the rotary rod is fixed with rotating bevel gear is coaxial, drive bevel gear meshes with rotating bevel gear, drive bevel gear and heat transfer tank fixed connection.

Through adopting above-mentioned technical scheme, when the dwang rotates, make heat exchange water tank use the dwang as the axle rotation, the rotary rod uses the dwang to move for the axial direction of keeping away from thermal-insulated wall body promptly, drive the connecting rod and keep away from the one end of fixed cover as the axle rotation with the dead lever, and the dead lever, the connecting rod, transfer line and heat exchange water tank form parallelogram, contained angle between dead lever and the heat exchange water tank is fixed, make connecting rod and heat exchange water tank in-process, the connecting rod drives the transfer line and moves to the direction that is close to the dead lever, thereby make the rotary rod use the axis of rotary rod to rotate as the axle, rotate bevel gear promptly, thereby drive bevel gear and rotate, make heat exchange water tank rotate, until the delivery port is located the part that the heat exchange water tank is close to ground, and with the one end opening intercommunication of heat exchange pipe, water in the heat exchange water tank gets into the heat exchange pipe through the delivery port under the effect of gravity afterwards, realize cyclic utilization of water, reduce the waste of water resource.

Optionally, the transmission bevel gear is provided with the locating lever coaxially, transmission bevel gear rotates with the locating lever to be connected, locating lever and rotary rod fixed connection.

Through adopting above-mentioned technical scheme, when the dwang drives heat exchange water tank and rotates, the junction of connecting rod and dead lever is the axle rotation, and drive the transfer line and move to the direction that is close to the dead lever, make the rotary rod use the axis of rotary rod to rotate as the axle, drive and rotate bevel gear, make drive bevel gear rotate, thereby drive heat exchange water tank and use the axis of locating lever as the axle rotation, heat exchange water tank takes place to rotate in the plane parallel with the installation pole promptly, until the delivery port is located the part that the heat exchange water tank is close to ground, and with the one end opening intercommunication of heat exchange tube, and the rotary rod rotates, drive the locating lever and use the axis of rotary rod as the axle rotation, make the locating lever drive heat exchange water tank rotate, thereby make heat exchange water tank by the state that is parallel with the installation pole gradually rotate to mutually perpendicular with the installation pole, heat exchange water tank keeps the state that is parallel with thermal-insulated wall body promptly, the delivery port and one end opening intercommunication of heat exchange tube at this moment, heat exchange water tank occupies the area in the heat exchange wall body the place ahead at the rotation in-process has been reduced.

Optionally, be provided with the deflector on the lateral wall of thermal-insulated wall body, the one end that the deflector is close to the ground is to being close to the direction slope setting of heat exchange water tank, be provided with open-top's flourishing water tank on the thermal-insulated wall body, flourishing water tank's opening is towards the one side of keeping away from the ground, the extension line of the one end that the deflector is close to the ground stretches into flourishing water tank, flourishing water tank is linked together with the tip of heat exchange tube.

Through adopting above-mentioned technical scheme, when the heat exchange water tank drives the delivery port and rotates to the part that the heat exchange water tank is close to ground, and the delivery port communicates with the one end opening of heat exchange tube back, water in the heat exchange water tank flows the heat exchange water tank through the delivery port under the action of gravity, and fall to the deflector, the deflector plays the guide effect, water flows along the deflector to being close to the direction of flourishing water tank, water in the flourishing water tank finally gets into the heat exchange tube, then start the water pump, make water flow in the heat exchange tube, thereby make the temperature of heat exchange tube lower, then the heat exchange tube will low temperature transfer to the thermal-insulated wall body, reduce the temperature of thermal-insulated wall body, and then make the wall body receive external high temperature's influence less, and connect the both ends of heat exchange tube through the heat exchange water tank, reduce the waste of water resource, simultaneously, the heat exchange water tank refracts sunlight, thereby produce the effect of ripples light, the aesthetic feeling of thermal-insulated wall body has been increased, and the sunlight shines on the water in, and can produce the scattering phenomenon after the sunlight, the sunlight shines on the water in the heat exchange water tank, thereby the temperature of thermal-insulated wall body is further reduced.

Optionally, the thermal-insulated wall body is connected with the rotation driving piece, the output shaft and the dwang coaxial fixed of rotation driving piece for the drive dwang rotates, be provided with the corotation button that control rotated the driving piece corotation and the reversal button that control rotated the driving piece reversal on the thermal-insulated wall body, be connected with on the thermal-insulated wall body and be used for pressing the extrusion subassembly of corotation button and be used for pressing the subassembly of accepting of reversal button.

Through adopting above-mentioned technical scheme, after the cooling water in the heat exchange tube is under the drive of water pump, after whole entering heat exchange water tank, promote extrusion subassembly, make extrusion subassembly move to the direction that is close to the corotation button, until pressing the corotation button, make the rotation driving piece start, drive the dwang corotation, thereby make the heat exchange water tank remove to the direction that keeps away from thermal-insulated wall body, the rotary rod is under the pivoted influence of dwang, drive the locating lever and regard the axis of rotary rod as the axis rotation, make the heat exchange water tank use the axis of locating lever to rotate as the axis at the same time, thereby make the outlet be located the part that the heat exchange water tank is close to ground, and the opening of delivery port is towards the deflector, at this moment, heat exchange water tank is parallel with thermal-insulated wall body, then water in the heat exchange water tank falls to the deflector through the delivery port, and flow to in the holding tank along the deflector, flow to the heat exchange tube from the holding tank again, deposit in the heat exchange tube, increase the weight of heat exchange tube, under the effect of gravity, the heat exchange tube moves down and extrudes the accepting assembly, until pressing the reversal button, it drives the dwang to rotate the contra, thereby realize the heat exchange water tank to reset operation of heat exchange water tank.

Optionally, the extrusion subassembly includes extrusion pole and extrusion spring, one side of heat transfer water tank is provided with the infiltration hole, be connected with the rubber film on the inner wall in infiltration hole, be provided with the extrusion hole on the thermal-insulated wall body, extrusion hole and infiltration hole intercommunication, the extrusion pole is inserted and is established in the extrusion hole, extrusion spring locates in the extrusion hole, extrusion spring is used for advancing the extrusion pole to being close to the direction of heat transfer water tank, forward rotation button locates on the one side inner wall that the extrusion hole kept away from the rubber film, forward rotation button is located one side that extrusion spring kept away from ground.

Through adopting above-mentioned technical scheme, after the cooling water in the heat exchange tube is under the drive of water pump, after all getting into heat exchange water tank, water reaches infiltration hole department, water has mobility, flows to the direction of keeping away from heat exchange water tank from the infiltration hole to promote the rubber film to the direction that is close to the extrusion pole and remove, until the rubber film stretches into in the extrusion hole, and compress extrusion spring, make the extrusion pole remove to the direction of keeping away from heat exchange water tank, until extrusion pole and corotation button looks butt, and press corotation button, thereby make the rotation actuating lever drive dwang take place corotation, the simple operation.

Optionally, accept the subassembly and include the board and accept the spring, thermal-insulated wall body is through accept spring and accept board sliding connection, it is used for with accepting the board to keep away from the direction propelling movement of ground to accept the spring, the heat exchange tube is located and accepts the board and keep away from one side on ground, the reversing button is located and accepts the board and be close to one side on ground.

Through adopting above-mentioned technical scheme, after the heat exchange water tank rotates, make the opening of outlet towards the deflector, water flows heat exchange water tank through the delivery port, and in flowing to flourishing water tank through the deflector, finally in getting into the heat exchange tube through the one end opening of heat exchange tube, after the water in the heat exchange water tank all gets into the heat exchange tube, increase the whole weight of heat exchange tube, under the action of gravity, the heat exchange tube with accept the board looks butt, and extrude and accept the spring, make accept the board and remove to the direction that is close to ground, until accept the board presses the reversal button, make the rotation driving piece drive dwang take place the reversal, then start the water pump, accept the board and lose the extrusion force, make water continue flowing in the heat exchange tube, operate the editor.

Optionally, be provided with the waste water tank on the thermal-insulated wall body, the deflector butt has the conversion board, the conversion board passes through conversion subassembly and links to each other with the thermal-insulated wall body, conversion subassembly rotates for the extension line that the conversion board is close to ground one end stretches into in the waste water tank.

Through adopting above-mentioned technical scheme, when water is in high temperature environment for a long time, the temperature risees, can't play the effect of reducing heat exchange tube temperature, and chlorine in the high temperature water also can volatilize, the heat exchange water tank is pouring water, microorganism and alga also can get into in the water, make water can give off bad smell, cause environmental pollution, at this moment, rotate conversion subassembly, make the conversion board rotate, there is the contained angle between conversion board and the deflector promptly, and the extension line of the one end that the conversion board is close to ground stretches into the waste water tank, thereby make water flow to the direction of conversion board along the deflector after flowing out to the deflector, and finally flow to the waste water tank along the conversion board, realize the rejection of dirty water, pour clean cooling water into the water tank afterwards, clean cooling water flows to the heat exchange tube in, realize the change of malodorous water in the heat exchange tube, more environmental protection.

Optionally, the conversion subassembly includes transfer pole and fixation nut, the transfer board is worn to establish by the transfer pole, and with transfer board fixed connection, the transfer pole passes through torsional spring rotation with thermal-insulated wall body and is connected, fixation nut thread bush is established on the transfer pole, fixation nut is located the one end that the transfer board kept away from thermal-insulated wall body.

Through adopting above-mentioned technical scheme, adjust fixation nut to the direction of keeping away from thermal-insulated wall body for one side phase separation of thermal-insulated wall body is kept away from to fixation nut and conversion board, rotates the transfer lever, and the torsional spring takes place to deform, makes the conversion board use the axis of transfer lever to rotate as the axle, until conversion board length direction's extension line stretches into the waste water tank, at this moment, adjust fixation nut to the direction that is close to thermal-insulated wall body, until one side that fixation nut is close to thermal-insulated wall body and conversion board keep away from thermal-insulated wall body one side looks butt, fixation nut produces relative effort with thermal-insulated wall body, make the torsional spring be in deformation state, the conversion board is fixed on thermal-insulated wall body promptly, make water can get into in the waste water tank smoothly.

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

1. when the temperature is higher, the heat-insulating wall body is directly insolated in sunlight, so that the temperature of the heat-insulating wall body is higher, cooling water with lower temperature is introduced into the heat exchange tube at the moment, the water pump is started, so that the cooling water flows in the heat exchange tube, the temperature of the heat exchange tube is lower, then the heat exchange tube transfers low temperature to the heat-insulating wall body, and the temperature of the heat-insulating wall body is reduced. When cooling water flows to one end of the heat exchange tube and flows into the heat exchange water tank through one end of the heat exchange tube, the heat exchange water tank is exposed outside and made of transparent materials, sunlight irradiates on water in the heat exchange water tank through the heat exchange water tank to generate refraction, and waves on the water surface move linearly, so that light rays refracted at wave crests and wave troughs are different. Thereby the effect of wave light is generated, the aesthetic feeling of the heat insulation wall body is increased, the heat insulation wall body has ornamental value, and the sunlight can generate scattering phenomenon after being irradiated on the water in the heat exchange water tank, and the energy of the sunlight is absorbed, so that the temperature of the heat insulation wall body is reduced. When water in the heat exchange tube flows from one end of the heat exchange tube to the heat exchange water tank, the driving assembly rotates to drive the connecting rod to rotate, so that the rotating assembly drives the heat exchange water tank to rotate until the water outlet is positioned at a part of the heat exchange water tank close to the ground and is communicated with the other end of the heat exchange tube, the driving assembly stops rotating, water in the heat exchange water tank enters the heat exchange tube through the water outlet, then the water pump flows in the heat exchange tube to realize the recycling of water, the waste of water resources is reduced, the temperature of the heat insulation wall body is reduced, the influence of external high temperature on the wall body is further reduced, the air conditioning frequency used by people is reduced, the loss of energy sources is reduced, and the energy is saved;

2. after the water in the heat exchange tube flows into the heat exchange water tank through one end of the heat exchange tube, the rotating rod is rotated, the mounting rod pushes the heat exchange water tank to rotate in the direction that the rotating rod is axially far away from the heat insulation wall body, meanwhile, the connecting rod drives the rotating assembly to move in the direction that the fixing rod is axially far away from the heat insulation wall body through one end of the fixing rod, and the rotating assembly can move along with the movement of the heat exchange water tank due to the distance between the rotating shaft of the rotating assembly and the rotating shaft of the heat exchange water tank.

Drawings

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

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

FIG. 3 is a schematic diagram of a connection relationship between a heat exchange water tank and a heat insulation wall in an embodiment of the present application;

FIG. 4 is a schematic structural diagram showing a connection relationship between a fixing sleeve and a rotating rod according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a heat exchange water tank for embodying a heat insulation wall according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of the embodiment of the present application after the rotation of the rotating rod;

fig. 7 is a schematic structural diagram for showing a connection relationship between a heat exchange tube and a receiving plate in an embodiment of the present application.

In the figure: 1. a wall body; 2. a heat insulating wall; 21. a cavity; 22. extruding the hole; 23. a receiving hole; 3. a heat exchange tube; 4. a heat exchange water tank; 41. a water inlet; 42. a water outlet; 43. water seepage holes; 430. a rubber film; 5. a water pump; 6. a connecting mechanism; 61. a drive assembly; 611. a rotating lever; 612. a fixed sleeve; 613. a fixed rod; 62. a rotating assembly; 621. rotating the bevel gear; 622. a drive bevel gear; 623. a rotating rod; 624. a transmission rod; 7. a connecting rod; 8. a mounting rod; 9. a positioning rod; 10. a guide plate; 11. a water container; 12. a rotary driving member; 13. a forward rotation button; 14. reversing the button; 15. an extrusion assembly; 151. an extrusion rod; 152. extruding a spring; 16. a receiving assembly; 161. a receiving plate; 162. a receiving spring; 17. a waste water tank; 18. a conversion plate; 181. a conversion assembly; 1811. a switching lever; 1812. a fixing nut; 19. a torsion spring; 20. a water pipe.

Detailed Description

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

The embodiment of the application discloses an energy-saving low-consumption building wall. Referring to fig. 1 and 2, the energy-saving and low-consumption building wall comprises a wall body 1, and a heat insulation wall 2 is attached to the side wall of the wall body 1.

Referring to fig. 2 and 3, a cavity 21 is formed in the heat insulation wall body 2, a heat exchange tube 3 is placed in the cavity 21, the heat exchange tube 3 is formed by splicing a plurality of hoses and a plurality of hard tubes at intervals, a water pump 5 is connected to the heat exchange tube 3, two ends of the heat exchange tube 3 are connected through a heat exchange water tank 4, a water inlet 41 is formed in one side, close to the heat insulation wall body 2, of the heat exchange water tank 4, a water outlet 42 is formed in one side, far away from the ground, of the heat exchange water tank 4, and the water inlet 41 is connected with one end of the heat exchange tube 3.

When the temperature is higher, the heat-insulating wall body 2 is directly insolated in sunlight, so that the temperature of the heat-insulating wall body 2 is higher, cooling water with lower temperature is introduced into the heat exchange tube 3 at the moment, the water pump 5 is started, so that the cooling water flows in the heat exchange tube 3, the temperature of the heat exchange tube 3 is lower, and then the heat exchange tube 3 transfers low temperature to the heat-insulating wall body 2. When cooling water flows to one end of the heat exchange tube 3 and flows into the heat exchange water tank 4 through one end of the heat exchange tube 3, the heat exchange water tank 4 is exposed outside, the heat exchange water tank 4 is made of transparent materials, sunlight irradiates on water in the heat exchange water tank 4 through the heat exchange water tank 4 to generate refraction, and waves on the water surface move in a linear shape, so that light refracted at wave crests and wave troughs are different. Thereby produced the effect of wave light, the aesthetic feeling that has increased thermal-insulated wall body 2, possess the sight, and the sunlight shines on the water in heat exchange water tank 4 back and can produce the scattering phenomenon, absorb the energy of sunlight, thereby reduce thermal-insulated wall body 2's temperature, after heat exchange water tank 4 is all flowed to heat exchange water tank 3 from the one end of heat exchange tube 3 in heat exchange tube 3, the water in heat exchange water tank 4 is got into in the heat exchange tube 3 through the one section opening that dries in the air of heat exchange tube 3 by the delivery port 42 of heat exchange water tank 4, then utilize water pump 5 to flow in heat exchange tube 3, realize cyclic utilization of water, reduce the waste of water resource, also can reduce thermal-insulated wall body 2's temperature, and then make wall body 1 receive external high temperature's influence less, the people use the air conditioner frequency has been reduced, the loss of energy, more energy-conservation.

Referring to fig. 4 and 5, the heat exchange water tank 4 is connected with the heat insulation wall 2 through the connection mechanism 6, the connection mechanism 6 comprises a driving assembly 61, the driving assembly 61 comprises a rotating rod 611, a fixing sleeve 612 and a fixing rod 613, the fixing sleeve 612 is vertically arranged and is welded and fixed with the heat insulation wall 2, the rotating rod 611 penetrates through the fixing sleeve 612 and is rotationally connected with the fixing sleeve 612, an installation rod 8 is welded and fixed on the side wall of the rotating rod 611, the installation rod 8 is perpendicular to the rotating rod 611, the fixing rod 613 is perpendicular to the fixing sleeve 612, one end of the fixing rod 613 is welded and fixed on the side wall of the fixing sleeve 612, the other end of the fixing rod 613 is rotationally connected with a connecting rod 7, and the connecting rod 7 is parallel to the installation rod 8.

Referring to fig. 5 and 6, the connection mechanism 6 further includes a rotation assembly 62, the rotation assembly 62 includes a rotation bevel gear 621, a transmission bevel gear 622, a rotation rod 623 and a transmission rod 624, one end of the connection rod 7 away from the fixing rod 613 is rotationally connected with an end of the transmission rod 624, the transmission rod 624 is parallel to the fixing rod 613, one end of the transmission rod 624 away from the connection rod 7 is rotationally connected with the rotation rod 623, the rotation rod 623 is vertically arranged and parallel to the rotation rod 611, the rotation rod 623 passes through the installation rod 8 and is rotationally connected with the installation rod 8, the rotation rod 623 is coaxially fixed with the rotation bevel gear 621, the transmission bevel gear 622 is meshed with the rotation bevel gear 621, the transmission bevel gear 622 is welded and fixed with the heat exchange water tank 4, a positioning rod 9 is coaxially arranged with the transmission bevel gear 622, the transmission bevel gear 622 is rotationally connected with the positioning rod 9, and the rotation rod 623 passes through the positioning rod 9 and is welded and fixed with the positioning rod 9.

When water in the heat exchange tube 3 flows into the heat exchange water tank 4 through one end of the heat exchange tube 3, the rotating rod 611 is rotated, so that the installation rod 8 pushes the heat exchange water tank 4 to rotate in the direction that the rotating rod 611 is axially far away from the heat insulation wall 2, meanwhile, the connecting rod 7 drives the rotating rod 623 to move in the direction that the rotating rod 611 is axially far away from the heat insulation wall 2, and because the fixed rod 613, the connecting rod 7, the transmission rod 624 and the heat exchange water tank 4 form a parallelogram, the included angle between the fixed rod 613 and the heat exchange water tank 4 is fixed, so that in the process of the connecting rod 7 and the heat exchange water tank 4, the connecting rod 7 drives the transmission rod 624 to move in the direction that the transmission rod 624 is close to the fixed rod 613, so that the rotating rod 623 rotates by taking the central axis of the rotating rod 623 as an axis, and drives the rotating bevel gear 621 to rotate, the transmission bevel gear 622 is made to rotate, thereby drive the heat exchange water tank 4 to rotate with the axis of the positioning rod 9 as the axis, namely, the heat exchange water tank 4 rotates in the plane parallel to the installation rod 8 until the water outlet 42 is communicated with one end opening of the heat exchange tube 3, and the rotating rod 623 rotates, simultaneously, drive the positioning rod 9 to rotate with the axis of the rotating rod 623 as the axis, so that the positioning rod 9 drives the heat exchange water tank 4 to rotate, thereby the heat exchange water tank 4 gradually rotates from the state parallel to the installation rod 8 to the state perpendicular to the installation rod 8, namely, the heat exchange water tank 4 keeps the state parallel to the heat insulation wall 2, at the moment, the water outlet 42 is communicated with one end opening of the heat exchange tube 3, and the area of the heat exchange water tank 4 in front of the heat insulation wall 2 is reduced in the rotating process. The water in the heat exchange water tank 4 enters the heat exchange pipe 3 through the water outlet 42 under the action of gravity, so that the water is recycled, and the waste of water resources is reduced.

Referring to fig. 1 and 3, the heat insulation wall body 2 is connected with a rotation driving piece 12, in this embodiment, the rotation driving piece 12 adopts the motor, the rotation driving piece 12 passes through the bolt fastening on the heat insulation wall body 2, the output shaft and the dwang 611 of rotation driving piece 12 are coaxial fixed, be used for driving the dwang 611 rotation, be provided with the forward rotation button 13 that control rotated the driving piece 12 forward rotation on the heat insulation wall body 2, be connected with the extrusion subassembly 15 that is used for pressing forward rotation button 13 on the heat insulation wall body 2, the extrusion subassembly 15 includes extrusion pole 151 and extrusion spring 152, the infiltration hole 43 has been seted up in one side of heat transfer water tank 4 runs through, glue is fixed with rubber film 430 on the inner wall of infiltration hole 43, the extrusion hole 22 has been seted up on the heat insulation wall body 2, extrusion hole 22 communicates with infiltration hole 43, the extrusion pole 151 is inserted in extrusion hole 22, the one end and the extrusion hole 22 of heat transfer water tank 4 are kept away from in one side inner wall welded fastening, the other end and extrusion pole 151 are kept away from the heat transfer water tank 4, the one side inner wall of extrusion hole 22 is kept away from rubber film 430 in the front rotation button 13 is located, and lie in the extrusion spring 152 one side of keeping away from ground.

Referring to fig. 5 and 7, the heat insulation wall 2 is provided with a reversing button 14 for controlling the reversing of the rotation driving member 12, and the heat insulation wall 2 is further connected with a receiving assembly 16 for pressing the reversing button 14. The bearing assembly 16 comprises a bearing plate 161 and a bearing spring 162, the heat insulation wall body 2 is provided with a bearing hole 23, the bearing hole 23 is communicated with the cavity 21, the bearing plate 161 is inserted in the bearing hole 23, one end of the bearing spring 162 is welded and fixed with the inner wall of one side of the bearing hole 23, which is close to the ground, the other end of the bearing spring 162 is welded and fixed with one side of the bearing plate 161, which is close to the ground, the heat exchange tube 3 is positioned on one side of the bearing plate 161, which is far away from the ground, the reversing button 14 is arranged on the inner wall of the bearing hole 23, and is positioned on one side of the bearing plate 161, which is close to the ground.

When the cooling water in the heat exchange tube 3 is driven by the water pump 5, the water reaches the water seepage hole 43 after all the cooling water enters the heat exchange water tank 4, the water flows from the water seepage hole 43 to the direction far away from the heat exchange water tank 4, so that the rubber film 430 is pushed to move to the direction close to the extrusion rod 151 until the rubber film 430 stretches into the extrusion hole 22, the extrusion spring 152 is compressed, the extrusion rod 151 moves to the direction far away from the heat exchange water tank 4 until the extrusion rod 151 abuts against the forward rotation button 13 and presses the forward rotation button 13, so that the rotation driving rod drives the rotation rod 611 to rotate positively, after the heat exchange water tank 4 rotates, the opening of the water outlet 42 faces the guide plate 10, the water flows out of the heat exchange water tank 4 through the water outlet 42 and flows into the water containing tank 11 through the guide plate 10, finally, the whole weight of the heat exchange tube 3 is increased after the water in the heat exchange water tank 4 enters the heat exchange tube 3, the whole weight of the heat exchange tube 3 is increased, the heat exchange tube 3 abuts against the receiving plate 161 under the action of gravity, the extrusion spring 162 is pressed until the extrusion plate 151 abuts against the forward rotation button 13 and presses the forward rotation button 13, the forward rotation driving rod 161 is driven by the water receiving plate 161 to rotate, and then the water receiving plate 161 is driven to rotate continuously, and the water receiving plate 12 is driven to rotate, and the water receiving plate 161 is driven to rotate continuously, and accordingly, and the water receiving plate is driven to rotate and directly and rotates.

Referring to fig. 5, a guide plate 10 is welded and fixed to a side wall of the heat insulation wall 2, one end of the guide plate 10 close to the ground is obliquely arranged in a direction close to the heat exchange water tank 4, a water containing tank 11 with an open top is welded and fixed to the heat insulation wall 2, the opening of the water containing tank 11 faces to one side far away from the ground, an extension line of one end of the guide plate 10 close to the ground extends into the water containing tank 11, and the water containing tank 11 is communicated with an opening of one end of the heat exchange tube 3.

When the heat exchange water tank 4 drives the opening of the water outlet 42 to rotate towards the guide plate 10, namely, after the water outlet 42 is communicated with one end opening of the heat exchange tube 3, water in the heat exchange water tank 4 flows out of the heat exchange water tank 4 through the water outlet 42 under the action of gravity and falls onto the guide plate 10, the guide plate 10 plays a role in guiding, the water flows along the guide plate 10 towards the direction close to the water containing tank 11, the water flowing into the water containing tank 11 finally enters the heat exchange tube 3, then the water pump 5 is started, so that the water flows in the heat exchange tube 3, the guide plate 10 plays a role in guiding, and the water is not easy to splash around, so that environmental pollution is caused.

Referring to fig. 1 and 2, a waste water tank 17 is fixedly welded on a heat insulation wall body 2, the waste water tank 17 is communicated with a water pipe 20, a guide plate 10 is abutted against a conversion plate 18, the conversion plate 18 is connected with the heat insulation wall body 2 through a conversion assembly 181, the conversion assembly 181 comprises a conversion rod 1811 and a fixing nut 1812, the conversion rod 1811 penetrates through the conversion plate 18 and is fixedly welded with the conversion plate 18, the conversion rod 1811 is rotatably connected with the heat insulation wall body 2 through a torsion spring 19, the fixing nut 1812 is sleeved on the conversion rod 1811 in a threaded manner, and the fixing nut 1812 is located at one end of the conversion plate 18 far away from the heat insulation wall body 2.

The fixing nut 1812 is adjusted in a direction away from the heat insulation wall body 2, so that the fixing nut 1812 is separated from one side of the conversion plate 18 away from the heat insulation wall body 2, the conversion rod 1811 is rotated, the torsion spring 19 is deformed, the conversion plate 18 rotates by taking the central axis of the conversion rod 1811 as an axis until an extension line of the length direction of the conversion plate 18 extends into the waste water tank 17, at the moment, the fixing nut 1812 is adjusted in a direction close to the heat insulation wall body 2 until one side of the fixing nut 1812 close to the heat insulation wall body 2 is abutted against one side of the conversion plate 18 away from the heat insulation wall body 2, and the fixing nut 1812 and the heat insulation wall body 2 generate relative acting force, so that the torsion spring 19 is in a deformed state, namely the conversion plate 18 is fixed on the heat insulation wall body 2, and water can smoothly enter the waste water tank 17.

The implementation principle of the energy-saving low-consumption building wall body provided by the embodiment of the application is as follows: when the temperature is higher, the heat-insulating wall body 2 is directly insolated in sunlight, so that the temperature of the heat-insulating wall body 2 is higher, at the moment, cooling water with lower temperature is introduced into the heat exchange tube 3, the water pump 5 is started, so that the cooling water flows in the heat exchange tube 3, the temperature of the heat exchange tube 3 is lower, then the heat exchange tube 3 transfers low temperature to the heat-insulating wall body 2, when the cooling water flows to one end of the heat exchange tube 3 and flows into the heat exchange water tank 4 through one end of the heat exchange tube 3, the heat exchange water tank 4 is exposed, the heat exchange water tank 4 is made of transparent materials, sunlight irradiates the water in the heat exchange water tank 4 through the heat exchange water tank 4, refraction is generated, and waves on the water surface move linearly, so that the light refracted at the wave crest and the wave trough are different. Thereby generating the effect of wave light, increasing the aesthetic feeling of the heat insulation wall body 2, having ornamental value, generating scattering phenomenon after the sunlight irradiates on the water in the heat exchange water tank 4, absorbing the energy of the sunlight, thereby reducing the temperature of the heat insulation wall body 2, when the water in the heat exchange pipe 3 flows from one end of the heat exchange pipe 3 to the heat exchange water tank 4, the water reaches the water seepage hole 43 and flows from the water seepage hole 43 to the direction far away from the heat exchange water tank 4, pushing the rubber film 430 to move to the direction close to the extrusion rod 151 until the rubber film 430 stretches into the extrusion hole 22, compressing the extrusion spring 152, enabling the extrusion rod 151 to move to the direction far away from the heat exchange water tank 4 until the extrusion rod 151 is abutted against the forward rotation button 13, pressing the forward rotation button 13, thereby enabling the rotation driving rod to drive the rotation rod 611 to rotate forward, the installation rod 8 pushes the heat exchange water tank 4 to rotate in the direction that the rotating rod 611 is axially far away from the heat insulation wall body 2, meanwhile, the connecting rod 7 drives the rotating rod 623 to move in the direction that the rotating rod 611 is axially far away from the heat insulation wall body 2, because the fixing rod 613, the connecting rod 7, the transmission rod 624 and the heat exchange water tank 4 form a parallelogram, the included angle between the fixing rod 613 and the heat exchange water tank 4 is fixed, so that in the process of the connecting rod 7 and the heat exchange water tank 4, the connecting rod 7 drives the transmission rod 624 to move towards the direction close to the fixing rod 613, thereby the rotating rod 623 rotates by taking the central axis of the rotating rod 623 as an axis, the rotating bevel gear 621 is driven to rotate, the transmission bevel gear 622 drives the heat exchange water tank 4 to rotate by taking the central axis of the positioning rod 9 as an axis, namely, the heat exchange water tank 4 rotates in a plane parallel to the installation rod 8 until the water outlet 42 is communicated with one end opening of the heat exchange pipe 3, and the rotating rod 623 rotates, the positioning rod 9 is driven to rotate by taking the central axis of the rotating rod 623 as an axis, so that the positioning rod 9 drives the heat exchange water tank 4 to rotate, the heat exchange water tank 4 gradually rotates to be perpendicular to the mounting rod 8 from a state parallel to the mounting rod 8, namely, the heat exchange water tank 4 keeps parallel to the heat insulation wall body 2, at the moment, the water outlet 42 is communicated with one end opening of the heat exchange tube 3, water in the heat exchange water tank 4 enters the heat exchange tube 3 through the water outlet 42 under the action of gravity, after the water in the heat exchange water tank 4 enters the heat exchange tube 3, the integral weight of the heat exchange tube 3 is increased, under the action of gravity, the heat exchange tube 3 is abutted against the bearing plate 161, the bearing plate 161 is pressed to move towards the direction close to the ground, until the bearing plate 161 presses the reversing button 14, so that the rotating driving piece 12 drives the rotating rod 611 to reverse, then the water pump 5 is started, the extrusion force of the bearing plate 161 is lost, the water continues to flow in the heat exchange tube 3, the cyclic utilization of the water is realized, the waste of water resources is reduced, the temperature of the heat insulation wall body 2 is also reduced, the influence of the outside high temperature of the heat exchange tube body 1 is small, the energy consumption of an air conditioner is reduced, the energy is reduced, and the energy consumption of an air conditioner 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 (8)

1. The utility model provides an energy-conserving low consumption building wall, includes wall body (1), its characterized in that: the heat-insulating wall body (2) is arranged on the side wall of the wall body (1), the heat-insulating wall body (2) is internally provided with a heat exchange tube (3), the heat exchange tube (3) is provided with a water pump (5), two ends of the heat exchange tube (3) are connected with each other through a heat exchange water tank (4), a water inlet (41) and a water outlet (42) are arranged on the heat exchange water tank (4), the water inlet (41) is connected with one end of the heat exchange tube (3), the heat exchange water tank (4) is connected with the heat-insulating wall body (2) through a connecting mechanism (6), the connecting mechanism (6) comprises a driving component (61) and a rotating component (62), the driving component (61) is connected with the heat exchange water tank (4), the driving component (61) is connected with the rotating component (62) through a connecting rod (7), the driving component (61) is driven to rotate, and the rotating component (62) is driven to rotate, so that the water outlet (42) is communicated with the other end of the heat exchange tube (3).

The driving assembly (61) comprises a rotating rod (611), a fixed sleeve (612) and a fixed rod (613), wherein the fixed sleeve (612) is fixedly connected with the heat insulation wall body (2), the rotating rod (611) penetrates through the fixed sleeve (612) and is rotationally connected with the fixed sleeve (612), the rotating rod (611) is fixedly connected with a mounting rod (8), the mounting rod (8) is perpendicular to the rotating rod (611), the mounting rod (8) is connected with the heat exchange water tank (4), the fixed rod (613) is perpendicular to the fixed sleeve (612), one end of the fixed rod (613) is fixedly connected with the fixed sleeve (612), and the other end of the fixed rod (613) is rotationally connected with the end of the connecting rod (7).

The rotary component (62) comprises a rotary bevel gear (621), a transmission bevel gear (622), a rotary rod (623) and a transmission rod (624), wherein one end of the connection rod (7) away from the fixed rod (613) is rotationally connected with the end of the transmission rod (624), the transmission rod (624) is parallel to the fixed rod (613), one end of the transmission rod (624) away from the connection rod (7) is rotationally connected with the rotary rod (623), the rotary rod (623) is parallel to the rotary rod (611), the rotary rod (623) is penetrated by a mounting rod (8) and is rotationally connected with the mounting rod (8), the rotary rod (623) is coaxially fixed with the rotary bevel gear (621), the transmission bevel gear (622) is meshed with the rotary bevel gear (621), and the transmission bevel gear (622) is fixedly connected with the heat exchange water tank (4).

2. The energy-efficient and low-cost building wall according to claim 1, wherein: the transmission bevel gear (622) is coaxially provided with a positioning rod (9), the transmission bevel gear (622) is rotationally connected with the positioning rod (9), and the positioning rod (9) is fixedly connected with the rotating rod (623).

3. The energy-efficient and low-cost building wall according to claim 1, wherein: be provided with deflector (10) on the lateral wall of thermal-insulated wall body (2), the one end that deflector (10) is close to ground is to the direction slope setting that is close to heat exchange water tank (4), be provided with open-top's flourishing water tank (11) on thermal-insulated wall body (2), flourishing water tank (11) opening orientation is kept away from one side on ground, the extension line of one end that deflector (10) is close to ground stretches into flourishing water tank (11), flourishing water tank (11) are linked together with the tip of heat exchange tube (3).

4. The energy-efficient and low-cost building wall according to claim 1, wherein: the heat-insulating wall body (2) is connected with a rotation driving piece (12), an output shaft of the rotation driving piece (12) is coaxially fixed with a rotation rod (611) and used for driving the rotation rod (611) to rotate, a forward rotation button (13) for controlling the rotation driving piece (12) to rotate forward and a reverse rotation button (14) for controlling the rotation driving piece (12) to rotate reversely are arranged on the heat-insulating wall body (2), and an extrusion assembly (15) for pressing the forward rotation button (13) and a receiving assembly (16) for pressing the reverse rotation button (14) are connected on the heat-insulating wall body (2).

5. The energy efficient low cost building wall according to claim 4, wherein: the extrusion assembly (15) comprises an extrusion rod (151) and an extrusion spring (152), one side of the heat exchange water tank (4) is provided with a water seepage hole (43), a rubber film (430) is connected to the inner wall of the water seepage hole (43), an extrusion hole (22) is formed in the heat insulation wall body (2), the extrusion hole (22) is communicated with the water seepage hole (43), the extrusion rod (151) is inserted into the extrusion hole (22), the extrusion spring (152) is arranged in the extrusion hole (22), the extrusion spring (152) is used for pushing the extrusion rod (151) towards a direction close to the heat exchange water tank (4), the forward rotation button (13) is arranged on one side inner wall of the extrusion hole (22) away from the rubber film (430), and the forward rotation button (13) is located on one side of the extrusion spring (152) away from the ground.

6. The energy efficient low cost building wall according to claim 4, wherein: the heat-insulating wall body (2) is connected with the bearing plate (161) in a sliding mode through the bearing spring (162), the bearing spring (162) is used for pushing the bearing plate (161) towards a direction away from the ground, the heat exchange tube (3) is located at one side, away from the ground, of the bearing plate (161), and the reversing button (14) is located at one side, close to the ground, of the bearing plate (161).

7. An energy efficient and low cost building wall according to claim 3, wherein: be provided with waste water tank (17) on thermal-insulated wall body (2), deflector (10) butt has conversion board (18), conversion board (18) link to each other with thermal-insulated wall body (2) through conversion subassembly (181), conversion subassembly (181) rotate for in the extension line that conversion board (18) are close to ground one end stretches to waste water tank (17).

8. The energy efficient low cost building wall according to claim 7, wherein: the conversion assembly (181) comprises a conversion rod (1811) and a fixing nut (1812), wherein the conversion rod (1811) penetrates through the conversion plate (18) and is fixedly connected with the conversion plate (18), the conversion rod (1811) is rotationally connected with the heat insulation wall body (2) through a torsion spring (19), the fixing nut (1812) is sleeved on the conversion rod (1811) in a threaded mode, and the fixing nut (1812) is located at one end, far away from the heat insulation wall body (2), of the conversion plate (18).