CN211854306U - Integrated wall - Google Patents

Abstract

The application belongs to the technical field of the building, discloses an integrated wall body, include: walls and air conditioning systems; wherein, air conditioning system includes: the system comprises an outdoor coil pipe, an indoor coil pipe, a compressor, a four-way valve, a refrigerant pipeline and a controller; the outdoor coil pipe is arranged on the outer side of the wall body, the indoor coil pipe is arranged on the inner side of the wall body, the compressor is arranged on the outer side of the wall body or in the wall body, the four-way valve is arranged on the outer side of the wall body or in the wall body, the controller is arranged on the outer side of the wall body or in the wall body, the refrigerant pipeline and the electric circuit are arranged in the wall body, the compressor is connected with the indoor coil pipe and the outdoor coil pipe through the refrigerant pipeline and the four-way valve, and. By adopting the technical scheme, the air conditioning system is installed in advance, construction according to a unified standard can be guaranteed, and the safety requirement is met.

Description

Integrated wall

Technical Field

The application relates to the technical field of buildings, in particular to an integrated wall.

Background

The outer vertical surface of the existing building is a glass curtain wall or a traditional wall, when a central air-conditioning system is installed, pipelines and lines need to be arranged in a room, the hidden design of an indoor unit needs to be made, and the outdoor unit needs to be specially installed in a position and a space. For the situation that a single air conditioner needs to be installed, an indoor unit needs to be installed indoors, and an outdoor unit is hung outside an outdoor wall body, so that on one hand, the construction difficulty of a high-rise building is high, the danger coefficient is large, and on the other hand, if the high-rise external unit is not constructed according to the standard, the high-rise external unit has very large potential safety hazards, and falling objects are easy to happen.

How to provide a building structure for integrating an air conditioning system into a wall is a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an integrated wall body to solve the problem that a traditional air conditioning system needs to be provided with pipeline circuits and indoor units and outdoor units. The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview and is intended to neither identify key/critical elements nor delineate the scope of such embodiments. Its sole purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides an integrated wall.

In some embodiments, the integrated wall comprises: walls and air conditioning systems;

wherein, air conditioning system includes: the system comprises an outdoor coil, an indoor coil, a compressor, a four-way valve, a refrigerant pipeline, an electric circuit and a controller; the outdoor coil pipe is arranged on the outer side of the wall body, the indoor coil pipe is arranged on the inner side of the wall body, the compressor is arranged on the outer side of the wall body or in the wall body, the four-way valve is arranged on the outer side of the wall body or in the wall body, the controller is arranged on the outer side of the wall body or in the wall body, the refrigerant pipeline and the electric circuit are arranged in the wall body, the compressor is connected with the indoor coil pipe and the outdoor coil pipe through the refrigerant pipeline and the four-way valve, and.

Optionally, the wall comprises an outer wall layer, an inner wall layer, and an interlayer between the outer wall layer and the inner wall layer.

Optionally, a wire casing of the refrigerant pipeline or the electric circuit is arranged on the inner side of the inner wall layer, and an indoor coil pipe is arranged on the outer side of the inner wall layer.

Optionally, a wire casing of the refrigerant pipeline or the electric circuit is arranged on the inner side of the outer wall layer, and an outdoor coil pipe is arranged on the outer side of the outer wall layer.

Optionally, the interlayer is filled with a thermal insulation material.

Optionally, the compressor, four-way valve and controller are disposed within one housing.

Optionally, the integrated wall further comprises a condensate collection system configured to collect condensate generated on the coil.

Optionally, the condensate collecting system comprises a water containing device disposed between the tube gaps of the coil and configured to collect condensate dripping on the coil.

Optionally, the condensed water collecting system further comprises a water collecting device connected with one or more water containing devices and configured to collect the condensed water collected by the water containing devices to a preset position.

Optionally, integrated wall body still includes purifier, purifier is connected with the water storage box, outputs the pure water.

The technical scheme provided by the embodiment of the application can have the following beneficial effects:

(1) the integrated wall can realize temperature adjustment, and because the indoor coil and the outdoor coil are of a flat structure, an internal fan and an external fan can be omitted, and the heating or refrigerating effect is better;

(2) the air conditioning system is installed in advance, so that construction according to a unified standard can be guaranteed, and safety requirements are met.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

FIG. 1 is a schematic diagram illustrating the construction of an integrated wall according to an exemplary embodiment;

FIG. 2 is a schematic diagram of an indoor coil or outdoor coil construction according to an exemplary embodiment;

FIG. 3 is a schematic diagram of another indoor coil or outdoor coil configuration shown in accordance with an exemplary embodiment;

FIG. 4a is a schematic diagram illustrating the construction of a water containing device and a water catchment device according to an exemplary embodiment;

FIG. 4b is a side view of a water containing device shown in accordance with an exemplary embodiment;

FIG. 5 is a schematic structural view of a housing according to an exemplary embodiment;

FIG. 6 is a schematic top view of a housing shown in accordance with an exemplary embodiment.

FIG. 7 is a schematic structural view of a filter assembly of a water containing device according to an exemplary embodiment;

FIG. 8 is a schematic diagram illustrating the configuration of a control device for a water catchment apparatus according to an exemplary embodiment;

fig. 9 is a schematic structural view of another control device of a water catchment device according to an exemplary embodiment;

reference numerals:

10. an outdoor coil pipe; 20. an indoor coil pipe; 30. a compressor; 40. a four-way valve; 50. a controller; 60. a refrigerant pipeline; 100. a wall body; 11. a coil module; 111. a refrigerant inlet; 112. a refrigerant outlet; 113. a connecting member; 701. a water tank; 702. an upper cover; 702-1, an upper cover opening; 703. a lower cover; 703-1, a lower cover opening; 704. filtering rings; 705. a support cylinder; 80. a water catchment device; 801. an outer cylinder; 802. an inner cylinder; 802-1, upper cavity; 802-2, lower cavity; 803. a seal ring; 804. a first spring; 805. a partition plate; 805-1, grooves; 805-2, a limber hole; 806. a connecting rod; 807. a second spring; 808. a baffle plate; 90. a housing; 90-1, U-shaped groove; 91. a flat plate; 92. and (4) enclosing plates.

Detailed Description

The following description and the drawings sufficiently illustrate specific embodiments herein to enable those skilled in the art to practice them. Portions and features of some embodiments may be included in or substituted for those of others. The scope of the embodiments herein includes the full ambit of the claims, as well as all available equivalents of the claims. The terms "first," "second," and the like, herein are used solely to distinguish one element from another without requiring or implying any actual such relationship or order between such elements. In practice, a first element can also be referred to as a second element, and vice versa. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a structure, apparatus, or device that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such structure, apparatus, or device. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a structure, device or apparatus that comprises the element. The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like herein, as used herein, are defined as orientations or positional relationships based on the orientation or positional relationship shown in the drawings, and are used for convenience in describing and simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the application. In the description herein, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may include, for example, mechanical or electrical connections, communications between two elements, direct connections, and indirect connections via intermediary media, where the specific meaning of the terms is understood by those skilled in the art as appropriate.

Herein, the term "plurality" means two or more, unless otherwise specified.

Herein, the character "/" indicates that the preceding and following objects are in an "or" relationship. For example, A/B represents: a or B.

Herein, the term "and/or" is an associative relationship describing objects, meaning that three relationships may exist. For example, a and/or B, represents: three relationships of A or B, or A and B

As shown in fig. 1, an embodiment of the present disclosure provides an integrated wall, including: wall 100 and air conditioning system; wherein, air conditioning system includes: an outdoor coil pipe 10, an indoor coil pipe 20, a compressor 30, a four-way valve 40, a refrigerant pipeline 60, an electric circuit and a controller 50; the outdoor coil 10 is arranged on the outer side of a wall body in a tiled mode, the indoor coil 20 is arranged on the inner side of the wall body in a tiled mode, the compressor 30 is arranged on the outer side of the wall body or in the wall body, the four-way valve 40 is arranged on the outer side of the wall body or in the wall body, the controller 50 is arranged on the outer side of the wall body or in the wall body, a refrigerant pipeline and an electric circuit are arranged in the wall body, the compressor 30 is connected with the outdoor coil 10 and the indoor coil 20 through the refrigerant pipeline 60 and the four-way valve 40, and the controller 50 controls the working frequency. Optionally, an access hole is formed in the inner side of the wall body or the outer side of the wall body and used for accessing the compressor, the four-way valve, the refrigerant pipeline and the controller.

By adopting the embodiment, each component of the air conditioning system is preset outside or inside the wall body in a discrete form, so that the integration of the air conditioning system and the wall body is realized, the hidden design of pipelines and lines of the air conditioning system is realized, the installation of an indoor unit and an outdoor unit of the air conditioning system is not needed after a building is built, the outdoor coil pipe is installed outside the wall body in a flat and flat mode, the installation is firm, the service life is long, the operation step of high-altitude operation required for the installation of the existing outdoor unit of the air conditioner is omitted, the labor is saved on one hand, and the safety is improved on the other hand.

The working principle (heating or cooling) of the air conditioning system is the same as that of the existing air conditioner. Because the air conditioning system adopts the tiled indoor coil and outdoor coil as the indoor radiator and outdoor radiator, the indoor fan and outdoor fan in the traditional air conditioner can be omitted, the structure is simpler and more compact, and the installation space of the air conditioning system is greatly saved.

The electrical lines include power supply lines and signal control lines.

In some embodiments, the wall 100 includes an outer wall layer, an inner wall layer, and an interlayer between the outer wall layer and the inner wall layer; the refrigerant pipeline and the electric circuit are arranged in the interlayer; the compressor can be arranged outside the outer wall layer or in the interlayer; the four-way valve can be arranged at the outer side of the outer wall layer and can also be arranged in the interlayer; the controller can be arranged outside the outer wall layer or in the interlayer. Optionally, a housing is further disposed outside the compressor. Optionally, a housing is disposed outside the four-way valve. Optionally, a housing is disposed outside the controller. Optionally, the compressor, the four-way valve and the controller are arranged outside the outer wall layer. Optionally, the compressor, the four-way valve and the controller are disposed in the interlayer. Alternatively, the compressor, the four-way valve and the controller are disposed in one housing. Optionally, a wire casing of the refrigerant pipeline or the electric circuit is arranged on the inner side of the inner wall layer, and an indoor coil pipe is arranged on the outer side of the inner wall layer. Optionally, a wire casing of the refrigerant pipeline or the electric circuit is arranged on the inner side of the outer wall layer, and an outdoor coil pipe is arranged on the outer side of the outer wall layer. Optionally, the interlayer is filled with a thermal insulation material. Optionally, the heat insulating material is a polyurethane foam material. Optionally, the heat insulation material is heat insulation cotton.

In some embodiments, the outdoor coil 10 is disposed outside the wall 100 in a flat manner. Optionally, the outdoor coil pipe is of an integrated structure, the outdoor coil pipe is a metal pipe, and the metal pipe is distributed and coiled in a preset area outside the wall. Optionally, the outdoor coil is a segmented in-line configuration. Optionally, the outdoor coil comprises two or more coil modules, each coil module connected in series. Optionally, the coil pipe modules include a refrigerant inlet and a refrigerant outlet, and the coil pipe modules are connected with each other through the refrigerant inlet and the refrigerant outlet. Optionally, the coil module is square, or rectangular, or circular. Optionally, the coil module is a special-shaped structure, a plurality of special-shaped structures can be combined into a conventional shape, for example, the coil module is one or more of an L-shaped structure or a T-shaped structure, and a plurality of coil modules can be combined into a square or a rectangle. Optionally, the coil modules are of various sizes and are configured according to the area and shape of the preset area. By adopting the embodiment, the corresponding number of the coil pipe modules are arranged according to the area of the preset area outside the wall body, and the arrangement and combination mode of the coil pipe modules is set according to the shape of the preset area, so that the modular assembly of the outdoor coil pipe is realized. Optionally, the preset area is a non-window area outside the wall. For example, for a design with a smaller window area, the window is relatively small and the outdoor coil is placed in the non-windowed area outside the wall. Optionally, the preset area is a window frame. For example, for glass curtain wall designs, the window is relatively large and the outdoor coil is placed on the window frame.

In some embodiments, the indoor coil is disposed outside the wall in a flat manner. Optionally, the indoor coil pipe is of an integrated structure, the indoor coil pipe is a metal pipe, and the metal pipe is distributed and coiled in a preset area on the inner side of the wall body. Optionally, the indoor coil is a segmented in-line configuration. Optionally, the indoor coil comprises two or more coil modules, each coil module connected in series. Optionally, the coil pipe modules include a refrigerant inlet and a refrigerant outlet, and the coil pipe modules are connected with each other through the refrigerant inlet and the refrigerant outlet. Optionally, the coil module is square, or rectangular, or circular. Optionally, the coil module is a special-shaped structure, a plurality of special-shaped structures can be combined into a conventional shape, for example, the coil module is one or more of an L-shaped structure or a T-shaped structure, and a plurality of coil modules can be combined into a square or a rectangle. Optionally, the coil modules are of various sizes and are configured according to the area and shape of the preset area. By adopting the embodiment, the coil pipe modules with the corresponding number are arranged according to the area of the preset area on the inner side of the wall body, and the arrangement and combination mode of the coil pipe modules is set according to the shape of the preset area, so that the modular assembly of the indoor coil pipe is realized. Optionally, the preset area is a non-window area inside the wall. For example, for a design with a smaller window area, the window is relatively small and the indoor coil is placed in the non-windowed area inside the wall. Optionally, the preset area is a window frame. For example, for glass curtain wall designs, the window is relatively large and the indoor coil is placed on the window frame.

As shown in fig. 2, in this embodiment, the coil module 11 is square and includes a refrigerant inlet 111 and a refrigerant outlet 112, and the refrigerant inlet of the next coil module is connected to the refrigerant outlet of the previous coil module by a connecting member 113.

As shown in fig. 3, in this embodiment, the coil modules are circular in shape.

In some embodiments, the air conditioning system further comprises an indoor fan configured to circulate heat or cold to the indoor coil. Optionally, the indoor fan is disposed at the top, or left side, or right side, or bottom of the indoor coil, and the indoor fan blows air towards the indoor coil. By adopting the embodiment, the circulation of the heat or the cold of the indoor coil pipe can be better realized through the indoor fan.

In some embodiments, the air conditioning system further comprises an outdoor fan configured to circulate heat or cold to the outdoor coil. Optionally, the outdoor fan is disposed at the top, or left side, or right side, or bottom of the outdoor coil, and the outdoor fan blows air towards the outdoor coil. By adopting the embodiment, the circulation of the heat or the cold of the outdoor coil pipe can be better realized through the outdoor fan.

In some embodiments, the integrated wall further comprises: a condensate collection system configured to collect condensate generated on the indoor coil or the outdoor coil. Optionally, the condensed water collecting system includes a water containing device disposed between the gaps of the coils and configured to collect condensed water dripping from the coils, and a water collecting device connected to one or more water containing devices and configured to collect the condensed water collected by the water containing device to a predetermined position. Optionally, the condensate collecting system further comprises a water reservoir connected to the water outlet end of the water catchment device and configured to accumulate the condensate.

As shown in fig. 4a and 4b, in some embodiments, the water container includes one or more arc-shaped water grooves 701 disposed below the coil, and the water grooves 701 are configured to contain condensed water dropping from the coil. Optionally, the water tank 701 is recessed from two ends to the middle, and a water outlet is formed in the middle of the water tank and connected to the water collecting device 80.

In some embodiments, the water container includes an arc-shaped water trough disposed below the coil pipe and extending along a length direction of the coil pipe, and configured to contain condensed water dropping from the coil pipe, a width of the water trough is slightly larger than a diameter of the indoor coil pipe or the outdoor coil pipe, the water trough is inclined from one end to the other end, and the lower end of the water trough is connected to the water collection device.

In some embodiments, as shown in fig. 5 and 6, the integrated wall further includes a housing 90, the indoor coil or the outdoor coil is enclosed in the housing 90, and the housing 90 is detachably connected to the wall; the bottom of the casing 90 is provided with a U-shaped groove 90-1, and the U-shaped groove 90-1 is configured to collect condensed water dropped from the indoor coil or the outdoor coil. The bottom of the housing 90 is formed with a drain opening communicating with an external pipe. Optionally, a drain port in the bottom of the housing 90 is connected to the reservoir. Optionally, a flat plate 91 is further disposed on the top of the casing 90, and the flat plate 91 is configured to shield an opening area on the top of the casing 90. Optionally, dull and stereotyped 91's one end and housing are kept away from the lateral wall top of wall body one side and are rotated and be connected, when the installation housing, with dull and stereotyped 91 outside upset, the housing suit of being convenient for is in indoor coil pipe or outdoor coil pipe, the installation is accomplished the back, with dull and stereotyped 91 inside side upset, make the top of housing be the encapsulated situation through the flat board, prevent that the foreign matter from dropping, not only can protect indoor coil pipe or outdoor coil pipe, guarantee the purity of comdenstion water, secondly through housing and dull and stereotyped mutually supporting, the pleasing to the eye degree of indoor coil pipe or outdoor coil pipe. Optionally, the height of the outer sidewall of the enclosure 90 on the side away from the wall is greater than the height of the indoor coil or the outdoor coil. Optionally, the height of the inner side wall of the housing close to one side of the wall body is set according to actual conditions, and the inner side wall and the outer side wall can be equal in height or unequal in height. Optionally, the casing 90 further includes two side walls 92, the front and rear side walls are connected by the two side walls 92 to wrap the indoor coil or the outdoor coil, and the side walls 92 may be a flat plate or an arc plate. Optionally, the enclosure 92 may be pivotally attached to the housing 90 to allow a user to open the enclosure to view the collection of the condensate and the use of the indoor coil or outdoor coil.

In some embodiments, the integrated wall further includes a water purifying device connected to the water storage tank and configured to filter the condensed water and output purified water. Optionally, a purified water outlet is further disposed inside the integrated wall, and configured to output purified water. Optionally, the water purifying device further includes a filtering device disposed at the water outlet of the water container or at the water outlet of the bottom of the housing, and configured to primarily filter the collected condensed water to prevent larger impurities from entering the water storage tank.

As shown in fig. 7, in some embodiments, the filtering apparatus includes an upper cover 702, a lower cover 703, a filter ring 704 and a support cylinder 705, wherein the filter ring 704 is formed by surrounding a single-layer or multi-layer filter net, and the top end and the bottom end of the filter ring are connected to the upper cover 702 and the lower cover 703, respectively. The number of the supporting cylinders 705 is one or more, both ends of the supporting cylinders are respectively fixed on the inner side wall of the filtering ring 704, and the filtering ring is supported by the supporting cylinders to prevent the deformation. Optionally, the support cylinder 705 is formed by one or more rings of screen cloth, and the support cylinder also serves as a filter. Optionally, the diameter of the upper cover 702 is the same as that of the lower cover 703, and the diameter of the filter ring 704 formed by surrounding the filter screen is smaller than that of the upper cover, so as to reduce friction between the filter ring and the inner side wall of the outlet of the water containing device and prolong the service life of the filter screen; so designed, the water passing through the outer side wall of the filter ring will eventually be filtered through the filter ring and discharged through the lower cover opening 703-1.

By adopting the embodiment, the condensed water enters the filtering device through the upper cover opening, most of the water is filtered by the middle supporting cylinder, and when the water flow reaches a certain flow rate or the middle is blocked, the filtering ring at the edge can play a role in filtering; in addition, the condensed water can splash when flowing through the supporting cylinder, the splashed water flow can fly out of the filter screen when contacting the filter ring, and the filter screen at the edge also has a filtering effect on the splashed water flow; rivers are through the filtration of a support section of thick bamboo with strain the ring, finally discharge through the lower cover mouth, support section of thick bamboo and strain the ring cooperation and use for filter area increases helps preventing that great type foreign matter is direct to block up the filter orifice, thereby leads to the comdenstion water can't flow through filter equipment. Optionally, the plurality of support cylinders are arranged in a staggered manner from top to bottom, that is, the projections of the support cylinders in the top and bottom positions are overlapped. With this embodiment, the arrangement of the plurality of support cartridges in a stacked manner increases the number of times of filtration of the condensed water. Optionally, the diameter of the upper cover is larger than or equal to that of the pipeline, and the diameter of the lower cover is smaller than or equal to that of the pipeline. By adopting the embodiment, the filter device is convenient to mount, take and place.

In some embodiments, the water inlet of the reservoir is further provided with a control device configured to control the opening and closing of the reservoir.

In some embodiments, as shown in fig. 8, the control device includes an outer cylinder 801, an inner cylinder 802, a seal 803, and a first spring 804. The outer side wall of the outer cylinder 801 is in threaded connection with a water outlet of the water collection device, and the inner side wall of the outer cylinder 801 is in threaded connection with a water delivery pipe. The inner cylinder 802 has a cavity and a partition 805 formed therein, the partition 805 is disposed in a lateral direction, and the cavity is divided into an upper cavity 802-1 and a lower cavity 802-2 by the partition 805. The partition plate 805 is provided with water passage holes 805-2 for communicating the upper cavity with the lower cavity, and optionally, the number of the water passage holes 805-2 is one or more. The first spring 804 is disposed in a groove 805-1 formed downward in the partition plate, and one end of the first spring is connected to the top wall of the groove 805-1, and the other end is connected to the upper end surface of the sealing ring 803. The sealing ring 803 is integrally in a pi-shaped cylindrical structure, under the action of the tensile force of the first spring 804, the upper end face of the sealing ring 803 abuts against the top wall of the lower cavity 802-2 without shielding the water through hole 805-2, and the lower edge of the sealing ring 803 abuts against the bottom of the inner cylinder 802. The tensile force of the first spring 804 is equal to or greater than the gravity of the seal 803 itself. The upper cavity 802-1 is for accumulating condensed water, the condensed water is collected in a space between the sealing ring and the lower cavity 802-2 through the water passage hole, when the sum of the water pressure and the gravity of the sealing ring is greater than the elastic force of the first spring, the sealing ring 803 is separated from the bottom edge of the inner cylinder, and the collected water is discharged to achieve the purpose of releasing, and in addition, when the sealing ring is in a closed state in contact with the inner cylinder, it is helpful to prevent foreign matters, abnormal air flows, dust, and the like from invading the condensed water collecting system. Since the water outlet of the water collection device is connected to the water inlet of the water reservoir, i.e. the control device acts as a switch for the water reservoir, the water pressure control by the collected condensate is switched on and off.

In some embodiments, as shown in fig. 9, the control device includes an outer cylinder 801, an inner cylinder 802, a sealing ring 803, a connecting rod 806, a second spring 807 and a baffle 808, wherein the outer side wall of the outer cylinder 801 is screwed with the water outlet of the water collection device, and the inner side wall of the outer cylinder is screwed with the water delivery pipe. The inner cylinder 802 has a cavity and a partition 805 formed therein, the partition 805 is disposed in a lateral direction, and the cavity is divided into an upper cavity 802-1 and a lower cavity 802-2 by the partition 805. The partition plate 805 is provided with water passage holes 805-2 for communicating the upper cavity with the lower cavity, and optionally, the number of the water passage holes 805-2 is one or more. The connecting rod 806 penetrates the partition 805 through a through hole, and the bottom of the connecting rod is larger than the diameter of the through hole. The whole sealing ring 803 is of a pi-shaped cylindrical structure, the upper end face of the sealing ring 803 is fixedly connected to the upper end face of the bottom of the connecting rod and abuts against the top wall of the lower cavity 802-2 without blocking the water through hole 805-2, and the lower edge of the sealing ring 803 abuts against the bottom of the inner cylinder 802. A second spring 807 is sleeved on the connecting rod and is positioned in the upper cavity; the top of the connecting rod is provided with a baffle, the diameter of the baffle is larger than that of the upper cavity, the baffle is separated from the inner cylinder through the elasticity of the second spring, the upper end face of the sealing ring 803 is abutted against the top wall of the lower cavity 802-2 under the tensile force action of the connecting rod 806, and the lower edge of the sealing ring 803 is abutted against the bottom of the inner cylinder 802. The collected water is collected in the space between the sealing ring and the lower cavity through the limber hole 805-2, when the sum of the water pressure, the gravity of the sealing ring 803, the gravity of the connecting rod 806 and the gravity of the baffle 808 is larger than the elastic force of the second spring 807, the lower edge of the sealing ring leaves the bottom of the inner cylinder, the collected water flows out to achieve the purpose of releasing, and the baffle plays a role in preventing the condensate water flowing upwards from continuously collecting in the upper cavity, thereby ensuring that the condensate water is discharged in batches. In addition, when the sealing ring is in a closed state against the inner cylinder, the sealing ring helps to prevent foreign matters, abnormal air flow, dust and the like from invading the condensed water collecting system.

The integrated wall body can be assembled in a single-layer or multi-layer building body, such as a house or an office building, and can be assembled only on one wall body or on multiple wall bodies.

The integrated wall body of this application also can be applied to interim building, for example building site board house, and on the one hand facilitates the assembly, and on the other hand can wholly dismantle, realizes cyclic utilization. To the application of open-air board house, the integrated wall body of this application can solve the daily drinking water problem of the personnel of stationing on a residence, especially to the water shortage area, for example desert or arid area, the moisture in the air is collected with the comdenstion water form to indoor coil pipe, owing to adopt the coil pipe structure of tiling, has increased the condensate water yield of collection, can supply daily use.

The integrated wall body can be integrally combined to be fixed with upper and lower floor slabs of a building body in an externally hung or embedded mode.

The present application is not limited to the structures that have been described above and shown in the drawings, and various modifications and changes can be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (10)

1. An integrated wall, comprising:

walls and air conditioning systems;

wherein, air conditioning system includes: the system comprises an outdoor coil, an indoor coil, a compressor, a four-way valve, a refrigerant pipeline, an electric circuit and a controller; the outdoor coil pipe is arranged on the outer side of the wall body, the indoor coil pipe is arranged on the inner side of the wall body, the compressor is arranged on the outer side of the wall body or in the wall body, the four-way valve is arranged on the outer side of the wall body or in the wall body, the controller is arranged on the outer side of the wall body or in the wall body, the refrigerant pipeline and the electric circuit are arranged in the wall body, the compressor is connected with the indoor coil pipe and the outdoor coil pipe through the refrigerant pipeline and the four-way valve, and.

2. The integrated wall of claim 1, wherein the wall comprises an outer wall layer, an inner wall layer, and an interlayer between the outer wall layer and the inner wall layer.

3. An integrated wall as claimed in claim 2, wherein the inner wall layer is provided with a plurality of cooling medium or electric line slots at the inner side thereof, and the inner wall layer is provided with an indoor coil at the outer side thereof.

4. An integrated wall as claimed in claim 2, wherein the inner side of the outer wall layer is provided with a line groove for refrigerant or electric lines, and the outer side of the outer wall layer is provided with an outdoor coil.

5. An integrated wall as claimed in claim 2, wherein the sandwich is filled with insulation.

6. An integrated wall as claimed in claim 1, wherein said compressor, four-way valve and controller are disposed in a single housing.

7. The integrated wall of claim 1, further comprising a condensate collection system configured to collect condensate generated on the coil.

8. An integrated wall as claimed in claim 7, wherein the condensate collection system comprises water holding means disposed between the gaps of the coil and configured to collect condensate dripping from the coil.

9. The integrated wall of claim 8, wherein the condensate collection system further comprises a water collection device coupled to the one or more water receptacles and configured to collect condensate collected by the water receptacles at a predetermined location.

10. The integrated wall of claim 9, further comprising a water purifying device connected to the water storage tank at a predetermined position to output purified water.

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