CN217736675U - Anti-freezing type pipe - Google Patents

Abstract

The utility model relates to a tubular product design technical field discloses an anti-freezing type tubular product, including the tubular product body, still include a plurality of cover that prevent frostbite on the tubular product body along the extending direction parcel of tubular product body, prevent frostbite the cover including being located the outside cold-proof cotton layer of polyethylene of tubular product body, be located the outside aluminium foil composite glass fiber cloth of the cold-proof cotton layer of polyethylene, the cold-proof cotton layer of polyethylene is the C font, one side of aluminium foil composite glass fiber cloth is provided with and is used for the bonding portion on aluminium foil composite glass fiber cloth outer wall after aluminium foil composite glass fiber cloth parcel is on the cold-proof cotton layer of polyethylene, the integrative extension that is provided with the aluminium foil composite glass fiber cloth of parcel after being used for curling on the aluminium foil composite glass fiber cloth of adjacent cover that prevents frostbite, be provided with on the extension and support the clamp on aluminium foil composite glass fiber cloth tightly after tightening up.

Description

Anti-freezing type pipe

Technical Field

The utility model relates to a tubular product design technical field, in particular to type tubular product prevents frostbite.

Background

At present, when the pipe is used, the outer wall of the pipe is often wrapped with a sponge heat preservation layer to prevent freezing, but the sponge heat preservation layer is easy to corrode in the environment, and is extremely easy to burn after exposed fire, so that the influence on efficient freezing prevention of the pipe is finally caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a type tubular product prevents frostbite can be favorable to the high efficiency of tubular product body to prevent frostbite.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides an anti-freezing type tubular product, includes the tubular product body, still includes a plurality of along the extending direction parcel of tubular product body the cover that prevents frostbite on the tubular product body, prevent frostbite cover including the cold-proof cotton layer of polyethylene that is located the tubular product body outside, be located the cold-proof cotton layer of polyethylene outside aluminium foil composite glass fiber cloth, the cold-proof cotton layer of polyethylene is the C font, one side of aluminium foil composite glass fiber cloth is provided with and is used for binding the bonding portion on the aluminium foil composite glass fiber cloth outer wall after aluminium foil composite glass fiber cloth wraps up on the cold-proof cotton layer of polyethylene, the one end department an organic whole of aluminium foil composite glass fiber cloth is provided with the extension that is used for wrapping up after curling on the adjacent compound glass fiber cloth that prevents frostbite of cover, be provided with on the aluminium foil extension and tighten up the clamp of back on aluminium foil composite glass fiber cloth.

The utility model discloses a further set up to: the polyethylene warm-keeping cotton layer is provided with a plurality of layers.

The utility model discloses a further set up to: the inner wall of the polyethylene warm-keeping cotton layer positioned on the innermost layer is provided with a plurality of protruding parts, and a hollow heat-insulating layer is formed between every two adjacent protruding parts.

The utility model discloses a further set up to: the plurality of the convex parts are uniformly distributed at intervals along the extending direction of the pipe body.

To sum up, the utility model discloses following beneficial effect has:

1. the polyethylene thermal insulation cotton layer is C-shaped, so that the pipe body can be quickly embedded into the polyethylene thermal insulation cotton layer, and then the bonding part can be bonded on the outer wall of the aluminum foil composite glass fiber cloth after the aluminum foil composite glass fiber cloth is wrapped on the polyethylene thermal insulation cotton layer through the bonding part of the aluminum foil composite glass fiber cloth, so that the quick installation between the pipe body and the anti-freezing sleeve can be facilitated;

when two adjacent anti-freezing sleeves need to be butted, the extending part can be used for wrapping the aluminum foil composite glass fiber cloth of the adjacent anti-freezing sleeves through the extending part at one end of the aluminum foil composite glass fiber cloth, then the hoop is utilized to tightly support the extending part on the aluminum foil composite glass fiber cloth, at the moment, the joint between the adjacent anti-freezing sleeves can be wrapped and sealed through the extending part, the polyethylene heat-preservation cotton layer inside is prevented from being exposed in the air, meanwhile, the hoop can be beneficial to stable splicing between the two adjacent anti-freezing sleeves, and therefore the high-efficiency and stable wrapping of the pipe body by the multiple anti-freezing sleeves is favorably improved; the aluminum foil composite glass fiber cloth has better corrosion resistance and fireproof characteristics, so that the polyethylene heat-insulating cotton layer in the aluminum foil composite glass fiber cloth can be effectively protected, the service life of the polyethylene heat-insulating cotton layer is prolonged, and the high-efficiency anti-freezing of the pipe body can be facilitated;

2. the polyethylene warm-keeping cotton layer is provided with a plurality of layers, so that the high-efficiency anti-freezing of the pipe body is further facilitated;

3. by utilizing the plurality of the convex parts arranged on the inner wall of the polyethylene warm-keeping cotton layer positioned at the innermost layer, a hollow heat-insulating layer can be formed between the adjacent convex parts, and the high-efficiency anti-freezing of the pipe body can be further facilitated through the existence of the hollow heat-insulating layer;

4. the plurality of convex parts are uniformly distributed at intervals along the extending direction of the pipe body, and the plurality of convex parts can be stably supported on the pipe body.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view between the pipe body and a single anti-freezing sleeve according to the present invention, wherein the anti-freezing sleeve is shown expanded.

Reference numerals: 1. a tube body; 2. an anti-freezing sleeve; 21. a polyethylene thermal insulation cotton layer; 211. a boss portion; 22. aluminum foil and glass fiber cloth are compounded; 221. a bonding portion; 222. an extension portion; 223. and (5) clamping a hoop.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

An anti-freezing type pipe, referring to fig. 1 and 2, comprises a pipe body 1 and a plurality of anti-freezing sleeves 2, wherein the plurality of anti-freezing sleeves 2 are wrapped on the pipe body 1 along the extending direction of the pipe body 1, and each anti-freezing sleeve 2 comprises a polyethylene thermal insulation cotton layer 21 positioned outside the pipe body 1 and an aluminum foil composite glass fiber cloth 22 positioned outside the polyethylene thermal insulation cotton layer 21; meanwhile, the polyethylene warm-keeping cotton layer 21 is provided with multiple layers and is bonded and fixed with each other, the cross section of the polyethylene warm-keeping cotton layer 21 is C-shaped, a plurality of protruding portions 211 are integrally arranged on the inner wall of the polyethylene warm-keeping cotton layer 21 located in the innermost layer, the protruding portions 211 are evenly distributed at intervals along the extending direction of the pipe body 1, and a hollow heat-insulating layer can be formed between every two adjacent protruding portions 211.

Referring to fig. 1 and 2, the aluminum foil composite glass fiber cloth 22 is bonded and fixed on the outer wall of the outermost polyethylene thermal insulation cotton layer 21, wherein the aluminum foil composite glass fiber cloth 22 is a conventional material, and the aluminum foil composite glass fiber cloth 22 has good corrosion resistance and fire resistance; meanwhile, one side of the aluminum foil composite glass fiber cloth 22 is integrally provided with a bonding part 221, the inner wall of the bonding part 221 is provided with a bonding agent, and after the aluminum foil composite glass fiber cloth 22 is wrapped on the polyethylene warm-keeping cotton layer 21, the bonding part 221 can be bonded on the outer wall of the aluminum foil composite glass fiber cloth 22; an extension portion 222 is integrally arranged at one end of the aluminum foil composite glass fiber cloth 22, the extension portion 222 can be wrapped on the aluminum foil composite glass fiber cloth 22 of the adjacent anti-freezing sleeve 2 after being curled, a clamp 223 is arranged on the extension portion 222, and the extension portion 222 can be tightly abutted to the aluminum foil composite glass fiber cloth 22 after the clamp 223 is tightened.

The principle is as follows: because the polyethylene thermal insulation cotton layer 21 is C-shaped, the polyethylene thermal insulation cotton layer 21 can be used for the pipe body 1 to be quickly embedded, and then the bonding part 221 of the aluminum foil composite glass fiber cloth 22 can be bonded on the outer wall of the aluminum foil composite glass fiber cloth 22 after the aluminum foil composite glass fiber cloth 22 is wrapped on the polyethylene thermal insulation cotton layer 21, so that the quick installation between the pipe body 1 and the anti-freezing sleeve 2 can be facilitated.

When two adjacent anti-freezing sleeves 2 need to be butted, the extension 222 at one end of the aluminum foil composite glass fiber cloth 22 can be used for wrapping the aluminum foil composite glass fiber cloth 22 of the adjacent anti-freezing sleeves 2, and then the hoop 223 is used for tightly abutting the extension 222 against the aluminum foil composite glass fiber cloth 22, so that the joint between the two adjacent anti-freezing sleeves 2 can be wrapped and sealed through the extension 222, the internal polyethylene heat-insulating cotton layer 21 is prevented from being exposed in the air, and meanwhile, the hoop 223 can be used for facilitating stable splicing between the two adjacent anti-freezing sleeves 2, so that the high-efficiency and stable wrapping of the pipe body 1 by the multiple anti-freezing sleeves 2 is facilitated; because the aluminum foil composite glass fiber cloth 22 has better corrosion resistance and fireproof characteristics, the polyethylene thermal insulation cotton layer 21 in the aluminum foil composite glass fiber cloth can be effectively protected, so that the service life of the polyethylene thermal insulation cotton layer 21 can be prolonged, and the high-efficiency antifreezing of the pipe body 1 can be facilitated finally.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (4)

1. An anti-freezing type pipe comprises a pipe body (1), and is characterized in that: the anti-freezing pipe is characterized by further comprising a plurality of anti-freezing sleeves (2) wrapped on the pipe body (1) along the extending direction of the pipe body (1), wherein each anti-freezing sleeve (2) comprises a polyethylene heat-insulating cotton layer (21) located outside the pipe body (1) and an aluminum foil composite glass fiber cloth (22) located outside the polyethylene heat-insulating cotton layer (21), each polyethylene heat-insulating cotton layer (21) is C-shaped, one side of each aluminum foil composite glass fiber cloth (22) is provided with a bonding portion (221) which is used for bonding the aluminum foil composite glass fiber cloth (22) to the outer wall of the aluminum foil composite glass fiber cloth (22) after the aluminum foil composite glass fiber cloth (22) is wrapped on the polyethylene heat-insulating cotton layer (21), one end of each aluminum foil composite glass fiber cloth (22) is integrally provided with an extending portion (222) which is used for wrapping the aluminum foil composite glass fiber cloth (22) of the adjacent anti-freezing sleeves (2) after being curled, and the extending portion (222) is provided with a clamp (223) which is tightened to enable the extending portion (222) to be tightly abutted to the aluminum foil composite glass fiber cloth (22).

2. The antifreeze tubing of claim 1, wherein: the polyethylene warm-keeping cotton layer (21) is provided with a plurality of layers.

3. The antifreeze tubing of claim 2, wherein: the polyethylene thermal insulation cotton layer (21) positioned on the innermost layer is provided with a plurality of protrusions (211), and a hollow thermal insulation layer is formed between every two adjacent protrusions (211).

4. The antifreeze tubing of claim 3, wherein: the plurality of the convex parts (211) are uniformly distributed at intervals along the extending direction of the pipe body (1).

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