CN207093956U - A kind of resistance to compression insulating tube - Google Patents

Abstract

The utility model discloses a kind of resistance to compression insulating tube, including pipeline body, pipeline body includes insulating tube, steel pipe and the pouring layer set gradually from inside to outside, steel pipe is formed uniformly multiple grooves in its circumferencial direction, pouring layer is cast in groove and prominent groove notch setting thickness, it is 1: 31: 5 that pouring layer, which protrudes the thickness of groove notch and the ratio of the depth of groove, and compression-resistant structure is formed on pouring layer.Compared to prior art, pouring layer is cast in the groove of steel pipe the utility model and prominent groove notch, pouring layer are combined with insulating tube, has preferable heat insulation effect, and improve the structural strength of pipeline body.

Description

A kind of resistance to compression insulating tube

Technical field

The utility model belongs to pipe technology field, and in particular to a kind of resistance to compression insulating tube.

Background technology

Pipeline is for conveying gas, liquid or the device of fluid with solid particle, and it is raw to be widely used in life, industry In production.In the prior art, some engineerings are needed with heat insulation function with pipeline, but pipeline configuration intensity on the market is not at present Foot, easily causes pipe deforming or rupture.

Therefore, a kind of resistance to compression insulating tube is needed badly.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of resistance to compression insulating tube.

In order to achieve the above object, the technical solution of the utility model is as follows：

The utility model provides a kind of resistance to compression insulating tube, including pipeline body, and pipeline body includes setting successively from inside to outside Insulating tube, steel pipe and the pouring layer put, steel pipe are formed uniformly multiple grooves in its circumferencial direction, pouring layer be cast in groove and Prominent groove notch setting thickness, it is 1: 3-1: 5 that pouring layer, which protrudes the thickness of groove notch and the ratio of the depth of groove, cast Compression-resistant structure is formed on layer.

The utility model is compared to prior art, and pouring layer is cast in the groove of steel pipe and prominent groove notch, cast Layer is combined with insulating tube, has preferable heat insulation effect, and improve the structural strength of pipeline body.

On the basis of above-mentioned technical proposal, following improvement can be also done：

As preferable scheme, above-mentioned compression-resistant structure is multiple compression rings, and compression ring is uniformly set along the axial direction of pouring layer Put.

Using above-mentioned preferable scheme, compression-resistant structure is compression ring, further improves the structural strength of pipeline body.

As preferable scheme, above-mentioned compression-resistant structure is netted protuberance or cellular protuberance.

Using above-mentioned preferable scheme, compression-resistant structure is formed uniformly protuberance in the outer surface of pipeline body, greatly improved The anti-pressure ability of pipeline body.

It is above-mentioned to be additionally provided with fiberglass pipe as preferable scheme, fiberglass pipe be arranged at insulating tube and steel pipe it Between.

Using above-mentioned preferable scheme, increase fiberglass pipe, the insulating properties, heat resistance and structure for improving pipeline body are strong Degree.

It is raised that helical form water conservancy diversion is formed as preferable scheme, on the inwall of above-mentioned pipeline body.

Using above-mentioned preferable scheme, water conservancy diversion projection provides guide effect for current.

As preferable scheme, the both ends of above-mentioned pipeline body are provided with adpting flange, and the joint face of adpting flange is platform Rank anchor ring.

Using above-mentioned preferable scheme, the joint face of adpting flange is step anchor ring, improves installation capability.

As preferable scheme, cushion is additionally provided with, cushion is arranged between insulating tube and steel pipe.

Using above-mentioned preferable scheme, increase cushion, avoid producing hard collision between heat-insulation layer and steel pipe.

Brief description of the drawings

Fig. 1 is overall structure diagram of the present utility model.

Fig. 2 is the structural representation of pipeline body cross section of the present utility model.

Embodiment

Describe preferred embodiment of the present utility model in detail below in conjunction with the accompanying drawings.

In order to reach the purpose of this utility model, as shown in Figure 1 to Figure 2, in one of which embodiment party of the present utility model A kind of resistance to compression insulating tube, including pipeline body are provided in formula, pipeline body includes insulating tube 1, the steel set gradually from inside to outside Pipe 2 and pouring layer 3, steel pipe 2 are formed uniformly 16 grooves in its circumferencial direction, and pouring layer 3 is cast in groove and protrusion is recessed Groove notch sets thickness, and it is 1: 3-1: 5 that pouring layer 3, which protrudes the thickness of groove notch and the ratio of the depth of groove, this embodiment party Formula optional 1: 3,1: 4 or 1: 5, compression-resistant structure 4 is formed on pouring layer 3.

Present embodiment is compared to prior art, and pouring layer 3 is cast in the groove of steel pipe and prominent groove notch, cast Layer 3 is combined with insulating tube 1, has preferable heat insulation effect, and improve the structural strength of pipeline body.

In order to further optimize implementation result of the present utility model, in another embodiment of the present utility model, On the basis of foregoing teachings, above-mentioned compression-resistant structure 4 is multiple compression rings, and compression ring is uniformly arranged along the axial direction of pouring layer.

Using above-mentioned preferable scheme, compression-resistant structure 4 is compression ring, further improves the structural strength of pipeline body.

In order to further optimize implementation result of the present utility model, in another embodiment of the present utility model, On the basis of foregoing teachings, above-mentioned compression-resistant structure 4 is netted protuberance or cellular protuberance.

Using above-mentioned preferable scheme, compression-resistant structure 4 is formed uniformly protuberance in the outer surface of pipeline body, greatly improved The anti-pressure ability of pipeline body.

In order to further optimize implementation result of the present utility model, in another embodiment of the present utility model, On the basis of foregoing teachings, above-mentioned is additionally provided with fiberglass pipe, and fiberglass pipe is arranged between insulating tube 1 and steel pipe 2.

Using above-mentioned preferable scheme, increase fiberglass pipe, the insulating properties, heat resistance and structure for improving pipeline body are strong Degree.

In order to further optimize implementation result of the present utility model, in another embodiment of the present utility model, It is raised that helical form water conservancy diversion is formed on the basis of foregoing teachings, on the inwall of above-mentioned pipeline body.

Using above-mentioned preferable scheme, water conservancy diversion projection provides guide effect for current.

In order to further optimize implementation result of the present utility model, in another embodiment of the present utility model, On the basis of foregoing teachings, the both ends of above-mentioned pipeline body are provided with adpting flange, and the joint face of adpting flange is step ring Face.

Using above-mentioned preferable scheme, the joint face of adpting flange is step anchor ring, improves installation capability.

In order to further optimize implementation result of the present utility model, in another embodiment of the present utility model, On the basis of foregoing teachings, cushion is additionally provided with, cushion is arranged between insulating tube and steel pipe.

Using above-mentioned preferable scheme, increase cushion, avoid producing hard collision between heat-insulation layer and steel pipe.

Above-described is only preferred embodiment of the present utility model, it is noted that for the ordinary skill of this area For personnel, on the premise of not departing from the utility model and creating design, various modifications and improvements can be made, these all belong to In the scope of protection of the utility model.

Claims (7)

1. a kind of resistance to compression insulating tube, it is characterised in that including pipeline body, pipeline body includes the guarantor set gradually from inside to outside Wen Guan, steel pipe and pouring layer, steel pipe are formed uniformly multiple grooves in its circumferencial direction, and pouring layer is cast in groove and protrusion is recessed Groove notch sets thickness, and it is 1: 3-1: 5 that pouring layer, which protrudes the thickness of groove notch and the ratio of the depth of groove, shape on pouring layer Into compression-resistant structure.

2. resistance to compression insulating tube according to claim 1, it is characterised in that compression-resistant structure is multiple compression rings, compression ring edge The axial direction of pouring layer is uniformly arranged.

3. resistance to compression insulating tube according to claim 1, it is characterised in that compression-resistant structure is netted protuberance or cellular prominent Go out portion.

4. resistance to compression insulating tube according to claim 1, it is characterised in that be additionally provided with fiberglass pipe, fiberglass pipe is set It is placed between insulating tube and steel pipe.

5. resistance to compression insulating tube according to claim 1, it is characterised in that helical form water conservancy diversion is formed on the inwall of pipeline body It is raised.

6. resistance to compression insulating tube according to claim 1, it is characterised in that the both ends of pipeline body are provided with adpting flange, even The joint face of acting flange is step anchor ring.

7. resistance to compression insulating tube according to claim 1, it is characterised in that be additionally provided with cushion, cushion is arranged at insulation Between pipe and steel pipe.