CN202835700U - Wind cabinet with super-thick insulating layer double-sided panels - Google Patents

Abstract

The utility model relates to a wind cabinet with super-thick insulating layer double-sided panels. The wind cabinet with super-thick insulating layer double-sided panels comprises an external stereoscopic frame and insulating layer double-sided panels. The external stereoscopic frame comprises corner connectors and beam columns, wherein the corner connectors are arranged at corners of the external stereoscopic frame and enable adjacent beam columns to be connected with each other. A frame body which is formed by surrounding of corner connectors and beam columns is arranged at each side surface of the external stereoscopic frame and the insulating layer double-sided panel is arranged at the inner side of the frame body. Locating steps are arranged on the surface of each beam column, wherein the surface of each beam column faces the inner side of the frame body. The insulating layer double-sided panels are connected with the locating steps in a supporting mode through frame strips. The frame strips are arranged at the edges of the insulating layer double-sided panels. Due to the fact that the locating steps which are used for supporting the insulating layer double-sided panels are arranged on the beam columns, the installation of the insulating layer is firm. The thickness of each insulating layer double-sided panel of the wind cabinet is larger than 100 millimeters. In addition, due to the fact that inner frames are connected with inner sides of the external stereoscopic frame through heat insulation bodies, heat transitive ability of the wind cabinet from inside to outside is effectively reduced, heat insulation effect is better and good sound insulation effect can be achieved.

Description

A kind of super thick insulation layer dual platen wind cabinet

Technical field

The utility model relates to a kind of air cabinet of air conditioner, particularly a kind of super thick insulation layer dual platen wind cabinet.

Background technology

The panel that existing air cabinet of air conditioner generally is welded and fixed into the framework of a cubic by aluminium or swage material and is fixed on the framework surface consists of.During the work of wind cabinet, internal-external temperature difference is larger, heat can be along metal framework and panel in the inside and outside rapid transmission of wind cabinet, run off for stopping energy, paste thicker insulation material between metal framework inner face and panel and framework, not only complex process has also improved cost, and, tend to occur leaking out the phenomenons such as place's condensation drips of leaking out.

The utility model content

The purpose of this utility model is to overcome the deficiency that above-mentioned prior art exists, and provides a kind of simple and reasonable for structure, firm and reliable connection, and high insulating effect, attractive and durable, the super thick insulation layer dual platen wind cabinet of easy accessibility is to overcome the deficiencies in the prior art.

The purpose of this utility model is achieved in that

A kind of super thick insulation layer dual platen wind cabinet, comprise outer space framework and heat-insulation layer dual platen, outer space framework comprises corner coupling head and beam column, corner coupling head is positioned at outer space framework corner, also adjacent beam column is linked into an integrated entity, all there is a framework that is surrounded by corner coupling head and beam column each side of outer space framework, it is inboard that the heat-insulation layer dual platen is arranged on described framework, it is characterized in that: beam column is provided with positioning step towards the surface of framework inboard, the heat-insulation layer dual platen is undertaken on the positioning step by moulding, and moulding is arranged on heat-insulation layer dual platen edge.

The purpose of this utility model can also adopt following technical measures to solve:

As scheme more specifically, described beam column extends gripper shoe towards the surface of framework inboard, and the beam column surface at gripper shoe and its place is common to form described positioning step.

Described outer space framework is cubic, and its inboard also is provided with inner frame, and inner frame is connected with described gripper shoe by insulator.

Described heat-insulation layer dual platen by outside plate, inner panel and be filled in outside plate and inner panel between heat-insulation layer consist of, moulding respectively with outside plate be connected panel edges and be connected.

Described moulding is fixedly connected with beam column by screw, moulding offers draw-in groove along the moulding axis direction on one group of relative side, the curved flanging that is provided with of the corresponding described draw-in groove of outer panel edges of heat-insulation layer dual platen, the curved in-flanges that is provided with of the corresponding described draw-in groove of interior panel edges of heat-insulation layer dual platen, flanging and in-flanges insert respectively in the described draw-in groove.

The corresponding described positioning step of described interior panel edges is the curved support level that is provided with also.

The thickness of described heat-insulation layer dual platen is greater than 100mm, with further lifting heat insulation effect.

The beneficial effects of the utility model are as follows:

(1) beam column of this kind of wind cabinet is provided with the positioning step for supporting heat-insulation layer dual platen, the heat-insulation layer dual platen is installed firm;

(2) thickness of the heat-insulation layer dual platen of wind cabinet is greater than 100mm, and in addition, outer space framework inboard is connected with inner frame by insulator, thereby effectively reduces the ability that outer room heat is transmitted in the wind cabinet, better heat preservation, and, can play good soundproof effect;

(3) the outer space framework of wind cabinet is connected with corner coupling head by beam column (section bar), and is easy for installation, and the beam column of all directions checks and balance after connecting, and forms firm structure; Inner frame is connected with beam column by insulator, and inner frame and beam column respectively corresponding insulator are provided with screens, and insulator inserts the connection that inner frame and beam column are namely finished in screens.

Description of drawings

Fig. 1 is the utility model one embodiment partial structurtes schematic diagram.

Fig. 2 be among Fig. 1 A to the structure for amplifying schematic diagram.

Fig. 3 is the utility model decomposition texture schematic diagram.

Fig. 4 is B place structure for amplifying schematic diagram among Fig. 3.

Fig. 5 is beam column end face structure schematic diagram.

Fig. 6 is the utility model wind cabinet schematic diagram.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further described.

Extremely shown in Figure 6 such as Fig. 1, a kind of super thick insulation layer dual platen wind cabinet, comprise outer space framework and heat-insulation layer dual platen 1, outer space framework comprises corner coupling head 6 and beam column 3, corner coupling head 6 is positioned at outer space framework corner, and adjacent beam column 3 linked into an integrated entity, all there is a framework that is surrounded by corner coupling head 6 and beam column 3 each side of outer space framework, it is inboard that heat-insulation layer dual platen 1 is arranged on described framework, beam column 3 is provided with positioning step 31 towards the surface of framework inboard, heat-insulation layer dual platen 1 is undertaken on the positioning step 31 by moulding 2, and moulding 2 is arranged on heat-insulation layer dual platen 1 edge.

Described beam column 3 extends gripper shoe 32 towards the surface of framework inboard, and gripper shoe 32 forms described positioning step 31 jointly with beam column 3 surfaces at its place.

Described outer space framework is cubic, its inboard also is provided with inner frame 4, inner frame 4 is connected with the gripper shoe 32 of described beam column 3 by insulator 5, inner frame 4 and beam column 3 respectively corresponding insulator 5 are provided with screens 41,33, insulator 5 inserts screens 41,33 namely finish inner frame 4 is connected both connection with beam column, at last, with screens 41,33 outsides (seeing C arrow indication among Fig. 2) are toward interior pressure, thereby insulator 5 two ends are clamped in screens 41, in 33, realize inner frame 4, the beam column 3 of outer space framework and insulator 5 connect into the overall structure that is difficult for fractionation, and rigidity is stronger.

Described heat-insulation layer dual platen 1 by outside plate 12, inner panel 13 and be filled in outside plate 12 and inner panel 13 between heat-insulation layer 11 consist of, moulding 2 is connected the edge with outside plate 12 respectively and is connected with inner panel.

Described moulding 2 is fixedly connected with beam column 3 by screw, moulding offers draw-in groove 21 along moulding 2 axis directions on 2 one groups of relative sides, the corresponding described draw-in groove 21 curved flangings 121 that are provided with in outside plate 12 edges of heat-insulation layer dual platen 1, the corresponding described draw-in groove 21 curved in-flanges 131 that are provided with in inner panel 12 edges of heat-insulation layer dual platen 1, flanging 121 and in-flanges 131 insert respectively in the described draw-in groove 21.

The corresponding described positioning step 31 in described inner panel 13 edges is the curved support level 132 that is provided with also.

The thickness of described heat-insulation layer dual platen 1 is greater than 100mm.

Above-mentioned corner coupling head 6 is made by aluminium alloy, and beam column 3 and inner frame 4 are aluminium alloy extrusions, and moulding 2 is the PVC section bar, and heat-insulation layer 11 is for being poured in the polyurethane insulation coating between inner panel 13 and the outside plate 12.

Claims (7)

1. super thick insulation layer dual platen wind cabinet, comprise outer space framework and heat-insulation layer dual platen, outer space framework comprises corner coupling head and beam column, corner coupling head is positioned at outer space framework corner, also adjacent beam column is linked into an integrated entity, all there is a framework that is surrounded by corner coupling head and beam column each side of outer space framework, it is inboard that the heat-insulation layer dual platen is arranged on described framework, it is characterized in that: beam column is provided with positioning step towards the surface of framework inboard, the heat-insulation layer dual platen is undertaken on the positioning step by moulding, and moulding is arranged on heat-insulation layer dual platen edge.

2. super thick insulation layer dual platen wind cabinet according to claim 1, it is characterized in that: described beam column extends gripper shoe towards the surface of framework inboard, and the beam column surface at gripper shoe and its place is common to form described positioning step.

3. super thick insulation layer dual platen wind cabinet according to claim 2, it is characterized in that: described outer space framework is cubic, and its inboard also is provided with inner frame, and inner frame is connected with described gripper shoe by insulator.

4. super thick insulation layer dual platen wind cabinet according to claim 1 is characterized in that: described heat-insulation layer dual platen by outside plate, inner panel and be filled in outside plate and inner panel between heat-insulation layer consist of, moulding respectively with outside plate be connected panel edges and be connected.

5. super thick insulation layer dual platen wind cabinet according to claim 4, it is characterized in that: described moulding is fixedly connected with beam column by screw, moulding offers draw-in groove along the moulding axis direction on one group of relative side, the curved flanging that is provided with of the corresponding described draw-in groove of outer panel edges of heat-insulation layer dual platen, the curved in-flanges that is provided with of the corresponding described draw-in groove of interior panel edges of heat-insulation layer dual platen, flanging and in-flanges insert respectively in the described draw-in groove.

6. super thick insulation layer dual platen wind cabinet according to claim 5 is characterized in that: the corresponding described positioning step of described interior panel edges is the curved support level that is provided with also.

7. super thick insulation layer dual platen wind cabinet according to claim 1, it is characterized in that: the thickness of described heat-insulation layer dual platen is greater than 100mm.

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