CN219199342U - Air conditioner end device and air conditioner wall of natural convection - Google Patents

Abstract

The utility model discloses a natural convection air conditioner tail end device and an air conditioner wall, which belong to the technical field of air conditioners and comprise a keel frame, a heat exchange pipeline assembly and a water receiving piece correspondingly arranged below the heat exchange pipeline assembly, wherein the heat exchange pipeline assembly and the water receiving piece are both arranged in the keel frame; one side surface of the keel frame is a fixed surface, and the other opposite side surface is fixed with a cover plate for covering the heat exchange pipeline component; the inside of the keel frame is communicated with indoor air. The heat exchange pipeline assembly is arranged between the surface of the installation position and the cover plate and is communicated with the indoor space, the heat exchange pipeline assembly is utilized to exchange heat with indoor air, the stable and enough space inside the heat exchange pipeline assembly is ensured, the air flow is facilitated, and the overall consistency is good and the stability is good after the heat exchange pipeline assembly is installed.

Description

Air conditioner end device and air conditioner wall of natural convection

Technical Field

The utility model belongs to the technical field of air conditioners, and particularly relates to a natural convection air conditioner tail end device and an air conditioner wall.

Background

At present, most of air conditioners used by people utilize refrigerant to evaporate or condense under the action of a compressor to absorb heat and release heat, and cool air or hot air is blown out through a fan of an indoor unit, so that indoor cooling or heating is realized. However, the mode of forced convection of indoor air can cause great discomfort to human body, especially when cold air is blown, the air-receiving feeling is strong, and headache, catching cold and the like are easy.

Some of the methods adopt a radial type temperature regulation mode, water is used as a cold and heat source, a capillary network is paved in a wall or under a floor, indoor temperature regulation is realized by means of heat radiation of the wall surface and the floor, and no air is blown outwards, but most of the current methods are used for heating, condensate water is generated due to refrigeration, the condensate water is buried in the wall and under the floor, the condensate water is difficult to treat, the engineering amount of the method is large, and the method needs to be installed in a building facility in the initial stage of building. Therefore, an air conditioner with no wind sense and convenient installation is developed, and an air conditioner terminal device with relatively large installation surface, such as a wall surface, is required to be designed and applied in the research and development process.

Disclosure of Invention

The utility model aims to provide a natural convection air conditioner end device and an air conditioner wall so as to solve the problems.

The technical scheme adopted by the utility model is as follows: the natural convection air conditioner tail end device comprises a keel frame, a heat exchange pipeline assembly and a water receiving piece correspondingly arranged below the heat exchange pipeline assembly, wherein the heat exchange pipeline assembly and the water receiving piece are both arranged in the keel frame; one side surface of the keel frame is a fixed surface, and the other opposite side surface is fixed with a cover plate for covering the heat exchange pipeline component; the cover plate is provided with a heat exchange air flow port, or a heat exchange air flow port is formed between the cover plate and the fixing surface of the keel frame; the inside of the keel frame is communicated with indoor air through a heat exchange air flow port.

As a further alternative, the surface of the cover plate facing the heat exchange tube assembly is fixed with a heat insulation plate.

As a further alternative, the overlay sheet is a wood, tile, aluminum or stone.

As a further alternative, the heat exchange line assembly comprises at least one main pipe and a plurality of branch pipes communicating with the main pipe, the surfaces of the branch pipes being provided with fins.

As a further alternative, the heat exchange pipeline assembly and the water receiving parts are multiple, and two adjacent water receiving parts are communicated; the lower end of each heat exchange pipeline component is a water inlet, and the upper end is a water return port.

The utility model also provides an air conditioner wall, which comprises a wall surface and the natural convection air conditioner tail end device, wherein the fixing surface of the keel frame is fixedly attached to the wall surface, and the water receiving piece is fixed on the wall surface or the keel frame.

As a further alternative, the upper end of the wall surface corresponding to the heat exchange pipeline assembly is also fixed with a positioning hook for matching and positioning the upper end of the heat exchange pipeline assembly.

As a further alternative, the heat exchange device also comprises a water inlet pipe and a water return pipe which are arranged in the suspended ceiling and are respectively communicated with the heat exchange pipeline components.

As a further alternative, an insulation board is also fixed on the wall surface corresponding to the heat exchange pipeline assembly.

The beneficial effects of the utility model are as follows:

1. the stable space is established outside the surface to be installed by using the keel frame, the heat exchange pipeline component and the water receiving piece are positioned in the space, so that hot air or cold air in the keel frame space flows to the room, the fixing surface of the keel frame is used for being installed on the surface to be installed indoors, the surface on the other side is provided with the covering plate, the covering plate is stably supported, the covering plate is not easy to deform and collapse, the stable and enough space inside is ensured, the air flow is facilitated, the integral consistency after the installation is good, the stability is good, the installation is more facilitated on the large installation surfaces such as the indoor wall surface or other facility surfaces, and the like, the fixing surface of the keel frame can be used for the relatively small installation surface according to personal requirements, and the fixing surface can be additionally installed at the later stage, namely the surface is obviously installed;

2. the water receiving piece corresponds to support the heat exchange pipeline assembly and collects condensed water generated by the heat exchange pipeline assembly, the condensed water in the water receiving piece can be discharged in a drainage pipeline and other modes, the cover plate plays a role in shielding and decoration, the heat exchange pipeline assembly is positioned between the surface of the installation position and the cover plate and is communicated with the indoor space, the heat exchange pipeline assembly is utilized to exchange heat with indoor air, the natural convection exchange of air is realized, a fan is not needed, no blowing sense is realized, a large amount of concealed installation engineering in the past is avoided, the installation is convenient, the structure is simple, and the later maintenance is facilitated.

Drawings

Fig. 1 is a structural exploded view of an air conditioner end device for natural convection according to an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a water receiving member in a natural convection air conditioning end unit according to an embodiment of the present utility model;

fig. 3 is a schematic structural view of an installation structure of an air conditioner end device with natural convection according to an embodiment of the present utility model, in which only a part of cover plates are illustrated for clearly showing an internal structure;

FIG. 4 is an enlarged view at A in FIG. 3;

FIG. 5 is a side view of an air conditioner end device mounting structure for natural convection according to an embodiment of the present utility model;

FIG. 6 is an enlarged view at B in FIG. 5;

fig. 7 is a schematic view of an installation structure of an air conditioner end device for natural convection according to another embodiment of the present utility model.

In the figure: 1-a heat exchange pipeline assembly; 2-a water receiving member; 3-a cover plate; 4-dragon skeleton; 5-a main pipeline; 6-branch pipeline; 7-fins; 8-a support; 9-an insulation board; 10-positioning hooks; 11-mounting surface; 12-pitch; 13, an insulating layer; 14-heat exchange gas flow port.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

The technical solution provided by the present utility model will be described in detail by way of examples with reference to the accompanying drawings. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model. In some instances, some embodiments are not described or described in detail as such, as may be known or conventional in the art.

Furthermore, features described herein, or steps in all methods or processes disclosed, may be combined in any suitable manner in one or more embodiments in addition to mutually exclusive features and/or steps. It will be readily understood by those skilled in the art that the steps or order of operation of the methods associated with the embodiments provided herein may also be varied. Any order in the figures and examples is for illustrative purposes only and does not imply that a certain order is required unless explicitly stated that a certain order is required.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling) where appropriate (where no paradox is constructed).

Fig. 1 to 7 show a natural convection air conditioner end device provided by the embodiment of the utility model, which comprises a keel frame 4, a heat exchange pipeline assembly 1 and a water receiving piece 2 correspondingly arranged below the heat exchange pipeline assembly 1, wherein the heat exchange pipeline assembly 1 and the water receiving piece 2 are both arranged in the keel frame 4; one side surface of the keel frame 4 is a fixed surface, and the other opposite side surface is fixed with a cover plate 3 for covering the heat exchange pipeline assembly 1; the inside of the keel frame 4 is communicated with indoor air to exchange heat; the cover plate 3 is provided with a heat exchange air flow opening 14, namely, the cover plate 3 is covered outside the keel frame 4 at the moment, and the heat exchange air flow opening 14 is directly arranged on the cover plate 3, or the heat exchange air flow opening 14 is formed between the cover plate 3 and the fixing surface of the keel frame 4, namely, the heat exchange air flow opening 14 is reserved between the cover plate 3 and the fixing surface of the keel frame 4 at the moment, and the interior of the keel frame 4 is communicated with indoor air through the heat exchange air flow opening 14.

The number of the heat exchanging air flow ports 14 may be plural, and may be distributed up and down, left and right, or the like. In this embodiment, the upper and lower ends of the heat exchange pipeline assembly 1 are provided with heat exchange gas flow ports 14, so as to be communicated with indoor air. The keel frame 4 can be of an H-shaped structure, the heat exchange pipeline assembly 1 is correspondingly positioned in the middle area of the keel frame 4, the heat exchange airflow ports 14 are formed in the concave parts at the upper end and the lower end of the middle part of the H-shaped structure, the keel frame 4 is utilized to construct the heat exchange airflow ports 14, so that the heat exchange airflow ports are convenient to install and high in stability, and meanwhile, the heat exchange airflow ports 14 in the upper side and the lower side are formed. Cover plates 3 can also be installed on the other two sides of the keel frame 4.

The heat exchange pipeline assemblies 1 can be arranged in a plurality according to the situation, and correspondingly, the water receiving pieces 2 are also arranged in a plurality to collect condensed water of each heat exchange pipeline assembly 1, and two adjacent water receiving pieces 2 are communicated; the lower end of each heat exchange pipeline component 1 is a water inlet, the upper end is a water return port, the water inlet is used for water source water inflow, water is returned through the water return port at the upper end after heat exchange is carried out through the heat exchange pipeline components 1, higher heat exchange efficiency is guaranteed, and water can be fed into the lower end through the upper end to return water.

The heat exchange pipeline assembly 1 can be supported on the water receiving piece 2 and can be fixedly connected to the surface to be installed, the heat exchange pipeline assembly 1 comprises at least one main pipeline 5 and a plurality of branch pipelines 6 communicated with the main pipeline 5, fins 7 are arranged on the surfaces of the branch pipelines 6, when the main pipeline 5 is one, the plurality of branch pipelines 6 are arranged side by side, and the same end of all the branch pipelines 6 is connected to the main pipeline 5; when the main pipelines 5 are multiple, the main pipelines 5 are parallel to each other, and a plurality of branch pipelines 6 are arranged between every two adjacent main pipelines 5 side by side. In this embodiment, two main pipes 5 are vertically distributed as an example, but it is needless to say that the two main pipes may be distributed left and right. The cold and hot air flow and the natural air convection are realized by utilizing the gaps among the branch pipelines 6 and the fins 7 and the gaps among the fins 7.

The heat exchange pipeline assemblies 1 are connected in parallel, namely, the heat exchange pipeline assemblies 1 are respectively connected to a water inlet pipe and a water return pipe of the air conditioner. The water receiving element 2 can be provided with a discharge pipeline for discharging condensed water, and when the discharge pipeline is communicated with the water receiving element 2, the discharge pipeline can discharge water by the self weight of the water, or a water pump is arranged on the discharge pipeline for pumping out the water in the water receiving element 2. The outer surface of the water receiving piece 2 can be provided with an insulating layer 13 to prevent water from being accumulated on the outer surface of the water receiving piece 2. The water receiving piece 2 can be internally provided with a support piece 8 matched with the heat exchange pipeline assembly 1, and particularly can be provided with a clamping position matched with the main pipeline 5 below.

The surface mounting of cladding board 3 towards heat transfer pipeline subassembly 1 has heated board 9, plays thermal-insulated effect, can adopt the aluminium foil, and heated board 9 can prevent to influence user experience at cladding board 3 surface water accumulation, avoids causing the maintenance burden for the user. The cover plate 3 is positioned on the side with the largest heat exchange surface in all the heat exchange pipeline assemblies 1, the cover plate 3 faces to users after being installed, the cover plate 3 can be a wood plate, a ceramic tile, an aluminum plate or stone material, and the like, and a control panel of the air conditioner can be installed on the cover plate 3.

The embodiment also provides an air conditioner wall, which comprises a wall surface and the air conditioner tail end device with natural convection, wherein the fixing surface of the keel frame 4 is fixedly attached to the wall surface, and the water receiving piece 2 is fixed on the wall surface or the keel frame 4.

The heat exchange pipeline assembly 1 can be supported on the water receiving piece 2, and the heat exchange pipeline assembly 1 can be installed and fixed by installing a bracket on a wall surface and the like. The mounting structure further comprises a water inlet pipe and a water return pipe which are arranged in the suspended ceiling and are respectively communicated with the heat exchange pipeline assembly 1, and the water inlet pipe and the water return pipe are not shown in the figure. And a space 12 is reserved between the upper end and the lower end of the cover plate 3 at the heat exchange pipeline assembly 1 after installation and the suspended ceiling and the ground respectively, so that cold and hot air flows out through the heat exchange air flow port 14. Because of the density difference of cold air and hot air, most of cold air flows out from the heat exchange air flow port 14 at the lower end during refrigeration, and most of hot air flows out from the heat exchange air flow port 14 at the upper end during heating. An insulation board 9 is also fixed on the wall surface corresponding to the heat exchange pipeline assembly 1 to prevent water from being accumulated. The upper and lower ends of the cover plate 3 may also extend directly to the ceiling and the bottom surface and directly begin to exchange the hot air flow openings 14 at the surface of the cover plate 3, see fig. 7.

The upper end corresponding to the heat exchange pipeline assembly 1 on the wall surface can be fixed with a positioning hook 10 for matching and positioning the upper end of the heat exchange pipeline assembly 1, namely hooking the upper end of the heat exchange pipeline assembly 1, positioning during installation is facilitated, and stability is enhanced.

The utility model is not limited to the above-described alternative embodiments, and any person who may derive other various forms of products in the light of the present utility model, however, any changes in shape or structure thereof, all falling within the technical solutions defined in the scope of the claims of the present utility model, fall within the scope of protection of the present utility model.

Claims (9)

1. The natural convection air conditioner tail end device is characterized by comprising a keel frame, a heat exchange pipeline assembly and a water receiving piece correspondingly arranged below the heat exchange pipeline assembly, wherein the heat exchange pipeline assembly and the water receiving piece are both arranged in the keel frame; one side surface of the keel frame is a fixed surface, and the other opposite side surface is fixed with a cover plate for covering the heat exchange pipeline component; the cover plate is provided with a heat exchange air flow port, or a heat exchange air flow port is formed between the cover plate and the fixing surface of the keel frame; the inside of the keel frame is communicated with indoor air through a heat exchange air flow port.

2. The natural convection air conditioner end device of claim 1, wherein a heat insulation plate is fixed to a surface of the cover plate facing the heat exchange tube assembly.

3. The natural convection air conditioner end device of claim 1, wherein the cover board is a wood board, a ceramic tile, an aluminum board, or stone.

4. A natural convection air conditioner end unit as set forth in claim 1 wherein said heat exchange tube assembly includes at least one main tube and a plurality of branch tubes in communication with the main tube, the surfaces of the branch tubes being provided with fins.

5. The natural convection air conditioner end device of claim 1 or 4, wherein the heat exchange pipeline assembly and the water receiving members are plural, and two adjacent water receiving members are communicated; the lower end of each heat exchange pipeline component is a water inlet, and the upper end is a water return port.

6. An air conditioner wall comprising a wall surface and a natural convection air conditioner end device according to any one of claims 1 to 5, wherein the fixing surface of the keel frame is fixedly attached to the wall surface, and the water receiving member is fixed to the wall surface or the keel frame.

7. The air conditioner wall as set forth in claim 6, wherein said wall surface is further fixed with a positioning hook corresponding to the upper end of the heat exchange tube assembly for matching and positioning the upper end of the heat exchange tube assembly.

8. The air conditioning wall of claim 6, further comprising a water inlet pipe and a water return pipe disposed within the suspended ceiling and in communication with the heat exchange conduit assembly, respectively.

9. An air conditioning wall according to claim 6, wherein an insulation board is also secured to the wall surface in correspondence to the heat exchange tube assembly.

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