CN212006148U - Claw-shaped air port adapter - Google Patents

Abstract

The utility model relates to a claw-shaped tuyere adapter, which comprises an upper end interface, a lower end interface, a gradual change cavity and a turning pipe body; one end of the gradual change cavity is connected with the upper end interface, and the other end of the gradual change cavity is connected with the turning pipe body; the other end of the turning pipe body is connected with the lower end interface; the turning pipe body is of an arc-shaped structure; the turning pipe body is made of ABS resin material. Its advantages are: the switching part does not need to be processed on site manually, the finished product can be directly used for realizing quick installation, and no additional negative influence is generated. Therefore, the effect is ensured, and the construction efficiency is improved.

Description

Claw-shaped air port adapter

Technical Field

The utility model belongs to the technical field of air conditioning system technique and specifically relates to a claw shape wind gap adaptor.

Background

In the whole air conditioning system, the system is divided into six parts, namely an outdoor unit, an indoor unit, a main air pipe (galvanized spiral air pipe), a branch air pipe (with a heat-preservation aluminum foil hose), a wind port and a controller. Wherein the connection between the branch duct and the tuyere is an important part in the air conditioning system.

However, the prior art has the following drawbacks and disadvantages with respect to the connection between the air duct and the tuyere:

firstly, in a small pipe high-pressure all-air system pipeline, other adopted air pipes are connected with a circular air port, consumers prefer a strip air port and a claw air port at present, the former connection mode adopts a plate for field processing, rapid installation cannot be realized, a lot of manpower and material resources are wasted, and the effect cannot be ensured;

secondly, the noise generated by the air flow cannot be effectively reduced by the adapter in the prior art.

Chinese patent document CN201811622648.7, application date 20181228, with patent names: the utility model provides an adaptor and air conditioner, discloses an adaptor and air conditioner, the adaptor is applied to the air conditioner, and is connected with the fan blade subassembly and the motor element of air conditioner, and it includes first connecting portion and second connecting portion, first connecting portion with the connecting hole cover of fan blade subassembly is established and is connected, the second connecting portion with the motor shaft cover of motor element is established and is connected, so that the fan blade subassembly with form suit connection structure between the motor element.

Above-mentioned patent literature connects fan blade subassembly and motor element through setting up a adaptor to this adaptor makes to form suit connection structure between fan blade subassembly and the motor element, makes to realize separating or being connected according to the demand between fan blade subassembly and the motor element, especially when wasing the air conditioner, is convenient for dismantle fan blade subassembly, and then washs wind channel and air outlet blade. However, a technical scheme which is convenient to mount quickly, has a good switching effect and can effectively reduce noise is not disclosed correspondingly.

In summary, a claw-shaped tuyere adapter which is convenient to mount quickly, has a good switching effect and can effectively reduce noise is needed. No report is available on the claw-shaped tuyere adapter.

Disclosure of Invention

The utility model aims at providing a be convenient for install fast, the switching is effectual, can effectually fall the claw shape wind gap adaptor of making an uproar.

In order to achieve the purpose, the utility model adopts the technical proposal that:

a claw-shaped tuyere adapter comprises an upper end interface, a lower end interface, a gradual change cavity and a turning pipe body; one end of the gradual change cavity is connected with the upper end interface, and the other end of the gradual change cavity is connected with the turning pipe body; the other end of the turning pipe body is connected with the lower end interface; the upper end interface, the lower end interface, the gradual change cavity and the internal channel in the turning pipe body are communicated; the inner channel of the upper end interface and the inner channel of the lower end interface are vertically distributed; the turning pipe body is of an arc-shaped structure.

As a preferred technical solution, the upper port is circular; the overall structure of the gradual change cavity is triangular, one end of the gradual change cavity, which is close to the upper end interface, is a small end part, and one end of the gradual change cavity, which is close to the turning pipe body, is a large end part.

As a preferred technical scheme, the upper surface and the lower surface of the gradual change cavity are straight surfaces; the side surface of the gradual change cavity is an arc surface.

As a preferred technical solution, the lower end interface includes a first bottom plate component, a second bottom plate component, and a side plate component; the first bottom plate component extends outwards relative to the turning pipe body; the side panel assembly is enclosed at the periphery of the first bottom plate assembly; the second bottom plate component extends outwards relative to the side panel component.

As a preferred technical scheme, a first open slot and a second open slot are arranged in the lower end interface; the first open slot is communicated with the turning pipe body, and a counter bore platform structure is formed between the first open slot and the second open slot.

As a preferable technical scheme, the first bottom plate component, the second bottom plate component and the side surface component are distributed in a stepped mode.

As a preferable technical solution, the turning pipe body is made of ABS resin material.

As a preferred technical scheme, the claw-shaped tuyere adapter is formed by splicing.

As a preferred technical scheme, a junction box is arranged in the lower end interface; the number of the transfer boxes is at least one.

As a preferred technical solution, the upper port is connected with a hose; the difference between the radius size specifications of the hose and the upper port is 1 mm.

The utility model has the advantages that:

1. the utility model discloses a claw shape wind gap adaptor, the quick installation of being convenient for, the switching is effectual, can effectually fall and make an uproar, does not need artifical field processing switching part again, directly can realize quick installation with the finished product to can not produce extra negative effects. Therefore, the effect is ensured, and the construction efficiency is improved.

2. Be provided with the turn body of arc structure in the adaptor, can play the cushioning effect to the flow of air, avoid the striking to produce the noise, reduce the wind speed simultaneously.

3. The lower end interface is used for connecting the air port to realize mechanical connection. The lower end interface is provided with a switching box; the number of the transfer boxes is at least one. The condition that a room needs a root canal is convenient for, and the quick connection can be realized by arranging a plurality of adapter boxes.

4. The turning pipe body is made of ABS resin material. The air is effectively prevented from generating impact noise at turning positions, and the noise reduction function is obvious.

5. The adapter is formed by splicing. Specifically, two grinding tools are driven to splice one adapter piece, and a simple socket mode is adopted in the splicing mode. Therefore, the whole adapter is more stable and reliable.

Drawings

Fig. 1 is a schematic structural view of a claw-shaped tuyere adapter of the present invention.

Fig. 2 is a side schematic view of an adapter of the present invention.

Fig. 3 is a partially enlarged schematic view of the lower port.

Fig. 4 is a schematic connection state diagram of the adaptor according to the present invention.

Fig. 5 is a schematic view of the adaptor of the present invention in a disassembled state.

Detailed Description

The invention will be further described with reference to the following examples and with reference to the accompanying drawings.

The reference numerals and components referred to in the drawings are as follows:

1. upper end interface 2, gradual change cavity

3. Turning pipe body 4, lower end interface

41. First base plate assembly 42, second base plate assembly

43. Side panel assembly 44 first open slot

45. Second open slot 5. flexible pipe

6. Adapter box

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of a claw-shaped tuyere adapter of the present invention. Fig. 2 is a side schematic view of an adapter of the present invention. A claw-shaped tuyere adapter; the claw-shaped tuyere adapter comprises an upper end interface 1, a lower end interface 4, a gradual change cavity 2 and a turning pipe body 3; one end of the gradual change cavity 2 is connected with the upper end interface 1, and the other end of the gradual change cavity is connected with the turning pipe body 3; the other end of the turning pipe body 3 is connected with the lower end interface 4; the upper end interface 1, the lower end interface 4, the gradual change cavity 2 and the internal channel in the turning pipe body 3 are communicated; the inner channel of the upper end interface 1 and the inner channel of the lower end interface 4 are vertically distributed.

The upper port 1 is circular; the integral structure of the gradual change cavity 2 is triangular, one end of the gradual change cavity 2 close to the upper end interface 1 is a small end, and one end close to the turning pipe body 3 is a large end; the upper surface and the lower surface of the gradual change cavity 2 are straight surfaces; the side surface of the gradual change cavity 2 is an arc surface.

Referring to fig. 3, fig. 3 is a schematic diagram of a partially enlarged structure of the lower port 4. The lower end interface 4 comprises a first bottom plate component 41, a second bottom plate component 42 and a side plate component 43; the first bottom plate component 41 extends outwards relative to the turning pipe body 3; the side panel assembly 43 is enclosed at the periphery of the first bottom plate assembly 41; the second bottom plate assembly 42 extends outwardly relative to the side plate assembly 43; a first opening groove 44 and a second opening groove 45 are arranged in the lower end interface 4; the first opening groove 44 is communicated with the turning pipe body 3, and a counter bore platform structure is formed between the first opening groove 44 and the second opening groove 45.

Referring to fig. 4 and 5, fig. 4 is a schematic connection state diagram of the adaptor according to the present invention. Fig. 5 is a schematic view of the adaptor of the present invention in a disassembled state. The upper port 1 is connected with a hose 5; the difference between the radius size specifications of the hose 5 and the upper port 1 is 1 mm. An adapter box 6 is arranged in the lower end interface 4.

The embodiment needs to be explained as follows:

the adaptor in be provided with the turn body 3 of arc structure, can play the cushioning effect to the flow of air, avoid the striking to produce the noise, reduce the wind speed simultaneously.

The upper end interface 1, the lower end interface 4, the gradual change cavity 2 and the internal channel in the turning pipe body 3 are communicated; the inner channel of the upper end interface 1 and the inner channel of the lower end interface 4 are vertically distributed. The effect of this design is: the air flow direction can be changed, and a switching path is provided for the turning of the air flow.

The upper port 1 is circular, wherein the circular structure is designed to conform to the shape of the hose 5, so as to be convenient for matching with the hose 5.

The overall structure of gradual change cavity 2 is the triangle-shaped form, and the one end that gradual change cavity 2 is close to upper end interface 1 is little tip, and the one end that is close to turn body 3 is big tip. The effect of this design is: considering that the throat diameter of the tail end tuyere is only 25mm, and the inner diameter of the pipeline of the upper section of branch pipe is 70mm, the sectional areas of the two ends of the adapter are ensured to be consistent, and the middle part of the adapter is made in a gradual change mode through the gradual change cavity 2.

The upper surface and the lower surface of the gradual change cavity 2 are straight surfaces; the side surface of the gradual change cavity 2 is an arc surface. The effect of this design is: the whole structure is stable in shape, simple to manufacture and convenient to process.

And the lower end interface 4 is used for connecting an air port to realize mechanical connection. The lower end interface 4 is provided with a switching box 6; the number of the adapter boxes 6 is at least one. The condition that a room needs a root canal is convenient for, and the quick connection can be realized by arranging the plurality of adapter boxes 6.

The specific structure of the lower end interface 4 comprises a first bottom plate component 41, a second bottom plate component 42 and a side plate component 43, so that the air outlet space is enlarged, and the air flow speed is favorably reduced.

A first opening groove 44 and a second opening groove 45 are arranged in the lower end interface 4; the first opening groove 44 is communicated with the turning pipe body 3, and a counter bore platform structure is formed between the first opening groove 44 and the second opening groove 45. The effect of this design is: an installation space is provided for the adapter box 6 to be installed on the lower port 4, so that the adapter box 6 can be stably and reliably installed in the lower port 4.

The first bottom plate component 41, the second bottom plate component 42 and the side components are distributed in a ladder shape. The effect of this design is: so that the lower end interface 4 can provide a limit structure, which is beneficial to establishing quick connection.

The turning pipe body 3 is made of ABS resin material. The air is effectively prevented from generating impact noise at turning positions, and the noise reduction function is obvious.

The claw-shaped tuyere adapter is formed by splicing. Specifically, two grinding tools are driven to splice one adapter piece, and a simple socket mode is adopted in the splicing mode. Therefore, the whole adapter is more stable and reliable.

The upper port 1 is connected with a hose 5; the difference between the radius size specifications of the hose 5 and the upper port 1 is 1 mm. The effect of this design is: the connection is more convenient and tighter, which not only increases the speed, but also does not have the problem of loose connection.

The utility model discloses a claw shape wind gap adaptor, the quick installation of being convenient for, the switching is effectual, can effectually fall and make an uproar, does not need artifical field processing switching part again, directly can realize quick installation with the finished product to can not produce extra negative effects. Therefore, the effect is ensured, and the construction efficiency is improved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and additions can be made without departing from the principles of the present invention, and these improvements and additions should also be regarded as the protection scope of the present invention.

Claims (10)

1. A claw-shaped tuyere adapter is characterized by comprising an upper end interface, a lower end interface, a gradual change cavity and a turning pipe body; one end of the gradual change cavity is connected with the upper end interface, and the other end of the gradual change cavity is connected with the turning pipe body; the other end of the turning pipe body is connected with the lower end interface; the upper end interface, the lower end interface, the gradual change cavity and the internal channel in the turning pipe body are communicated; the inner channel of the upper end interface and the inner channel of the lower end interface are vertically distributed; the turning pipe body is of an arc-shaped structure.

2. The claw tuyere adapter of claim 1, wherein said upper end interface is circular in shape; the overall structure of the gradual change cavity is triangular, one end of the gradual change cavity, which is close to the upper end interface, is a small end part, and one end of the gradual change cavity, which is close to the turning pipe body, is a large end part.

3. The claw tuyere adapter of claim 1, wherein an upper surface and a lower surface of the gradual change cavity are straight surfaces; the side surface of the gradual change cavity is an arc surface.

4. The claw tuyere adapter of claim 1, wherein said lower end interface comprises a first base plate assembly, a second base plate assembly, a side plate assembly; the first bottom plate component extends outwards relative to the turning pipe body; the side panel assembly is enclosed at the periphery of the first bottom plate assembly; the second bottom plate component extends outwards relative to the side panel component.

5. The claw tuyere adapter of claim 1, wherein a first opening groove and a second opening groove are formed in the lower port; the first open slot is communicated with the turning pipe body, and a counter bore platform structure is formed between the first open slot and the second open slot.

6. The claw tuyere adapter of claim 4, wherein said first and second base plate members and said side members are arranged in a stepped configuration.

7. The claw tuyere adapter of claim 1, wherein said elbow is made of ABS resin.

8. The claw tuyere adapter of claim 1, wherein said claw tuyere adapter is formed in a splicing manner.

9. The claw tuyere adapter of claim 1, wherein an adapter box is provided in said lower port; the number of the transfer boxes is at least one.

10. The claw tuyere adapter of claim 1, wherein a hose is connected to said upper port; the difference between the radius size specifications of the hose and the upper port is 1 mm.

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