CN220749475U - Air conditioner ventilating duct heat preservation device - Google Patents

Abstract

The utility model relates to the technical field of air conditioner ventilating duct heat preservation, in particular to an air conditioner ventilating duct heat preservation device, which solves the problems that the heat preservation device in the prior art is poor in applicability and cannot be suitable for installation and use of various ventilating duct sizes. Air conditioner air pipe heat preservation device includes square air pipe, includes: the heat preservation shell is wrapped outside the square ventilating duct in two symmetrical U-shaped structures. According to the heat preservation device, the heat preservation device is composed of the elastic adaptation component, the locking plate and the heat preservation shell, the elastic adaptation component and the locking plate are utilized to achieve convenient installation or disassembly of the heat preservation device, the elastic adaptation component is utilized to achieve sealing of the heat preservation cavity, meanwhile, square ventilation pipelines in a certain size range can be adapted, applicability of the heat preservation device is improved, heat preservation devices of more sizes are not required to be designed, use cost of the heat preservation device is reduced, and practicality is high.

Description

Air conditioner ventilating duct heat preservation device

Technical Field

The utility model relates to the technical field of air conditioner ventilation pipeline heat preservation, in particular to an air conditioner ventilation pipeline heat preservation device.

Background

The air conditioner ventilating duct is usually made of galvanized iron sheet, the cross section of the air conditioner ventilating duct is square, and the galvanized iron sheet is used for conveying cold air or hot air generated by the air conditioner when the air conditioner works.

The utility model patent of China with the prior authorized bulletin number of CN218780953U provides an air conditioner ventilating duct heat preservation device, which comprises a main body module and two installation modules, wherein the main body module comprises a square ventilating duct, two heat insulation boards are arranged outside the square ventilating duct, a limit component is arranged between the inner wall of each heat insulation board and the outer surface of the square ventilating duct, and the two installation modules are respectively arranged between the two sides of each heat insulation board.

By adopting the technical scheme, the problem that the existing heat preservation device wrapped outside the square ventilating duct of the air conditioner is inconvenient to install and disassemble is solved; however, when the above structure is used, the square ventilation pipeline is attached to the outer layer heat insulation pad, and the square ventilation pipeline is generally: 15cm of air outlet 60-100cm, 26cm of return air 60-100cm, 35cm of overhaul port 35cm, also can customize the tuber pipe size as required, so air conditioner ventilation pipeline size variety is many, and heat preservation device and ventilation pipeline do not belong to same processing production line, if the size of each kind of ventilation pipeline still need match the heat preservation device of corresponding size, the use cost and the processing cost of ventilation pipeline have been increased to the potential, heat preservation device suitability among the prior art is poor, can not be suitable for the installation use of multiple ventilation pipeline size, so air conditioner ventilation pipeline heat preservation device is proposed now.

Disclosure of Invention

The utility model aims to provide an air conditioner ventilating duct heat preservation device, which solves the problems that the heat preservation device in the prior art is poor in applicability and cannot be suitable for installation and use of various ventilating duct sizes.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

air conditioner air pipe heat preservation device includes square air pipe, includes:

the heat preservation shell is of two symmetrical U-shaped structures and is wrapped outside the square ventilating duct;

the elastic adapting assembly is used for elastically plugging an area formed by the outer wall of the square ventilating duct and the inner wall of the heat-insulating shell;

and the locking plate is used for clamping and locking the heat preservation shells of the two U-shaped structures.

Preferably, the U type structure the both sides of square air pipe outwards buckle respectively has the otic placode, and a plurality of obtuse angle structure's elastic folded plate is vertically installed in the otic placode outside, the board of capturing is U type structure, and a plurality of locating holes have been seted up respectively to the both sides of U type structure for the elastic folded plate lock joint cooperation that corresponds.

Preferably, the elastic adaptation component comprises an elastic rubber belt, two groups of angle plates and two groups of L-shaped plates, wherein the L-shaped plates are fixedly connected with the inner corners of the heat-insulation shell, the L-shaped plates are connected with the corresponding angle plates by using extrusion springs so as to drive the angle plates to elastically lean against the corners of the outer walls of the square ventilating ducts, the outer sides of the elastic rubber belt are fixedly installed with the inner walls of the heat-insulation shell, and the inner sides of the elastic rubber belt lean against the outer walls of the square ventilating ducts under the pulling of the angle plates.

Preferably, the angle plate is of an L-shaped structure, one end of the angle plate linearly extends to the position of the ear plate of the heat insulation shell, and the inner side of the elastic rubber belt is fixedly installed with the two angle plates respectively.

Preferably, at least two groups of elastic rubber belts of the elastic adapting assembly are arranged in the heat insulation shell, and each group of elastic rubber belts are arranged at two sides of the L-shaped plate and distributed on the two sides of the L-shaped plate respectively.

Preferably, the heat-insulating shell comprises a heat-insulating layer, a hard heat-insulating outer layer and a hard heat-insulating inner layer.

The utility model has at least the following beneficial effects:

1. through setting up the heat preservation device of constituteing by elasticity adaptation subassembly, board of taking a position and heat preservation casing, utilize elasticity adaptation subassembly and board of taking a position, realize convenient installation or the dismantlement of heat preservation device, square air pipe in the certain size within range of can adaptation when utilizing elasticity adaptation subassembly to realize the seal of heat preservation cavity improves heat preservation device's suitability, need not design the heat preservation device of more size models, heat preservation device's use cost reduces, the practicality is high.

2. The heat-insulating shell is of a U-shaped structure, the angle plate and the L-shaped plate are of L-shaped structures respectively, the elastic folded plate is of an obtuse angle bending structure, the locking plate is of a U-shaped structure, a simple structure is utilized, the processing technology of the heat-insulating device is saved, the processing cost of the heat-insulating device is reduced, and the delivery efficiency of the heat-insulating device is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an insulation unit and a square ventilation duct;

FIG. 2 is a schematic drawing showing the detachment of the thermal insulation device;

fig. 3 is a schematic diagram illustrating the disassembly of the elastic adapting assembly.

In the figure: 1. square ventilation duct; 2. a heat-insulating housing; 201. an elastic folded plate; 3. an elastic adapter assembly; 301. an elastic rubber band; 302. a corner plate; 303. an L-shaped plate; 304. extruding a spring; 4. a capture plate; 401. and positioning holes.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 3, an air conditioner ventilation duct insulation apparatus includes a square ventilation duct 1 including: the heat preservation shell 2 is of two symmetrical U-shaped structures and is wrapped outside the square ventilating duct 1; the elastic adapting assembly 3 is used for elastically plugging an area formed by the outer wall of the square ventilating duct 1 and the inner wall of the heat-insulating shell 2; the locking plate 4 is used for clamping and locking the two heat-preserving shells 2 with the U-shaped structures;

the scheme comprises the following working processes: when square air pipe 1 is vertical or the horizontality, through wrapping up two heat preservation shells 2 outside square air pipe 1, the inboard elasticity adaptation subassembly 3 of heat preservation shell 2 offsets with square air pipe 1 outer wall, uses the board 4 of locking at last to close two heat preservation shells 2 tightly, and elasticity adaptation subassembly 3 is in the extrusion state this moment for square air pipe 1 is cliied to two heat preservation shells 2 inboard, accomplishes the convenient efficient of heat preservation device and square air pipe 1 installs.

The working process can be as follows: through setting up the heat preservation device of constituteing by elasticity adaptation subassembly 3, the board 4 of taking a position and heat preservation casing 2, utilize elasticity adaptation subassembly 3 and board 4 of taking a position, realize the centre gripping installation of heat preservation device and square air pipe 1, form the heat preservation cavity between heat preservation casing 2 and the square air pipe 1 outer wall, utilize elasticity adaptation subassembly 3 to realize the seal of heat preservation cavity, moreover utilize the elasticity characteristics of elasticity adaptation subassembly 3, can adapt to the installation of square air pipe 1 in the certain size range and use, improve heat preservation device's suitability, do not need to design the heat preservation device of more size models, heat preservation device's use cost reduces, the practicality is high, only need to close two heat preservation casings 2 outside square air pipe 1 simultaneously, then the operation mode of board 4 block locking of taking a position, and is easy to operate, heat preservation device installation or dismantlement's efficiency has been improved.

Further, two sides of the square ventilating duct 1 with the U-shaped structure are respectively and outwards bent with lug plates, a plurality of elastic folded plates 201 with obtuse angle structures are vertically arranged on the outer sides of the lug plates, the locking plate 4 is of a U-shaped structure, a plurality of positioning holes 401 are respectively formed on two sides of the U-shaped structure and are used for buckling and matching with the corresponding elastic folded plates 201, specifically, as shown in fig. 2, one ends of the elastic folded plates 201 are in glue welding with the lug plates of the heat insulation shell 2, and the other ends of the elastic folded plates are buckled and matched with the positioning holes 401; when the square ventilating duct 1 is in a vertical state, the obtuse angle opening of the elastic folded plate 201 faces upwards, the locking plate 4 slides from top to bottom, and the locking plate 4 with the U-shaped structure tightens the two heat insulation shells 2, so that the elastic folded plate 201 is buckled in the corresponding positioning hole 401; when the square ventilation duct 1 is in a horizontal state, the orientation of the elastic flap 201 is not required to be considered, and the locking plate 4 is only required to be reversely slid from the opening direction.

Further, the elastic adaptation component 3 includes an elastic rubber belt 301, two groups of angle plates 302 and two groups of L-shaped plates 303, the L-shaped plates 303 are fixedly connected with the inner corners of the heat insulation shell 2, the L-shaped plates 303 are connected with the corresponding angle plates 302 by using extrusion springs 304 so as to drive the angle plates 302 to elastically abut against the outer corners of the square ventilation pipeline 1, the outer sides of the elastic rubber belt 301 are fixedly installed with the inner walls of the heat insulation shell 2, the inner sides of the elastic rubber belt 301 abut against the outer walls of the square ventilation pipeline 1 under the pulling of the angle plates 302, specifically, the L-shaped plates 303 and the angle plates 302 are respectively made of hard heat insulation materials, the characteristic that the corners of the square structure are of an L-shaped structure is utilized, the angle plates 302 with the L-shaped structure are clamped with the two corners outside the square ventilation pipeline 1, and the acting force of the L-shaped plates 303 elastically abut against the angle plates 302 is ensured, on one hand, the inner sides of the elastic rubber belt 301 are pulled against the outer walls of the square ventilation pipeline 1 so as to prevent the temperature in a cavity between the heat insulation shell 2 and the square ventilation pipeline 1 from being directly replaced by the outside temperature.

Further, the angle plate 302 is L type structure, the one end straight line of angle plate 302 extends to heat preservation casing 2 otic placode position department, elastic rubber tape 301 inboard respectively with two angle plates 302 fixed mounting, specifically, the horizontal end of the U type structure of heat preservation casing 2, two angle plates 302 draw the horizontal end of elastic rubber tape 301 to square ventilation duct 1 outer wall laminating respectively, the vertical end of the U type structure of heat preservation casing 2, the extension end of the corresponding end of angle plate 302 extends to the otic placode of heat preservation casing 2, make angle plate 302 this end with the elastic rubber tape 301 pulling of vertical portion to the laminating of square ventilation duct 1 outer wall, thereby utilize elastic rubber tape 301, guarantee the suitability in the realization, guarantee heat preservation device's result of use.

Further, the elastic adaptation component 3 is provided with at least two groups in the heat preservation casing 2, the elastic rubber belt 301 of each group of elastic adaptation component 3 is provided with two, and two elastic rubber belts 301 are respectively distributed on two sides of the L-shaped plate 303, specifically, when the square ventilating duct 1 only needs one section of heat preservation device, the heat preservation gas between the outer wall of the square ventilating duct 1 and the inner wall of the heat preservation casing 2 can be prevented from being directly exchanged with the outside air by the elastic adaptation component 3 of at least two groups, and then the heat preservation effect of the heat preservation device is guaranteed.

Further, the heat-insulating shell 2 comprises a heat-insulating layer, a hard heat-insulating outer layer and a hard heat-insulating inner layer, and specifically, the hard heat-insulating outer layer and the hard heat-insulating inner layer are XPS extruded sheets or hard polyurethane heat-insulating sheets, and the heat-insulating layer is filled with sponge, glass fiber cotton or rock wool.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined by the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. Air conditioner air pipe heat preservation device, including square air pipe (1), its characterized in that includes:

the heat preservation shell (2) is of two symmetrical U-shaped structures and is wrapped outside the square ventilating duct (1);

the elastic adapting assembly (3) is used for elastically plugging an area formed by the outer wall of the square ventilating duct (1) and the inner wall of the heat-insulating shell (2);

and the locking plate (4) is used for clamping and locking the heat preservation shells (2) with the two U-shaped structures.

2. The heat preservation device of the air conditioner ventilation pipeline according to claim 1, wherein ear plates are respectively bent outwards at two sides of the square ventilation pipeline (1) of the U-shaped structure, a plurality of elastic folded plates (201) of obtuse angle structures are vertically arranged at the outer sides of the ear plates, the locking plate (4) is of a U-shaped structure, and a plurality of positioning holes (401) are respectively formed at two sides of the U-shaped structure and are used for buckling and matching of the corresponding elastic folded plates (201).

3. The air conditioner ventilation pipeline heat preservation device according to claim 1, wherein the elastic adaptation component (3) comprises an elastic rubber belt (301), two groups of corner plates (302) and two groups of L-shaped plates (303), the L-shaped plates (303) are fixedly connected with inner corners of the heat preservation shell (2), the L-shaped plates (303) are connected with corresponding corner plates (302) by using extrusion springs (304) so as to drive the corner plates (302) to elastically prop against corners of the outer walls of the square ventilation pipeline (1), the outer sides of the elastic rubber belt (301) are fixedly installed on the inner walls of the heat preservation shell (2), and the inner sides of the L-shaped plates (303) prop against the outer walls of the square ventilation pipeline (1) under the pulling of the corner plates (302).

4. An air conditioner ventilating duct heat preservation device according to claim 3, characterized in that the angle plates (302) are of an L-shaped structure, one ends of the angle plates (302) extend to the position of the ear plates of the heat preservation shell (2) in a straight line, and the inner sides of the elastic rubber belts (301) are fixedly installed with the two angle plates (302) respectively.

5. The air conditioner ventilation pipeline heat preservation device according to claim 1, wherein at least two groups of elastic rubber belts (301) of the elastic adaptation components (3) are arranged in the heat preservation shell (2), and the two groups of elastic rubber belts (301) of the elastic adaptation components (3) are respectively distributed on two sides of the L-shaped plate (303).

6. An air conditioner ventilating duct insulation apparatus as defined in claim 1, wherein the insulation housing (2) comprises an insulation layer, a hard insulation outer layer and a hard insulation inner layer.