CN202868206U - Anti-condensation structure at line branching position - Google Patents

Abstract

The utility model discloses an anti-condensation structure at a line branching position, and the anti-condensation structure has god anti-condensation effects. The anti-condensation structure at the line branching position is provided with a coating layer made of rubber and plastic thermal insulation materials, the coating layer is composed of a first coating unit and a second coating unit, the first coating unit is coated on a surface of one of two pipes which are arranged in branch to accordingly form a first plastic thermal insulation pipe casing, and a yield hole matched with the other pipe is arranged on a wall of the first plastic thermal insulation pipe casing. The second coating unit is coated on a surface of the other pipe to accordingly form a second plastic thermal insulation pipe casing, and one end port of the plastic thermal insulation pipe casing is bonded with the first plastic thermal insulation pipe casing. The coating layer composed of the first coating unit and the second coating unit can tightly coat a whole surface of the pipes which are arranged in branch, accordingly good anti-condensation effects are formed on the whole of the pipes.

Description

The anti-condensation structure at line branching place

Technical field

The utility model relates to the antisweat technology of water supply and sewerage pipeline, relates in particular to the anti-condensation structure at line branching place.

Background technique

In recent years, the advantages such as insulating rubber plastic is good with its performance, easy construction, environmental protection have progressively substituted traditional building water supply and drainage pipeline anti-condensation materials such as glass wool rigid section, asbestos rope, mineral cotton plate.But related specifications and the technical standard of for want of rubber-plastics material antisweat construction, the optimal design that particularly lacks the antisweat structure of some key nodes (equipment that has the pipeline that is branch's setting such as valve, y type filter etc.), the characteristic of insulating rubber plastic is not fully utilized and embodies, can not reach desirable antisweat effect.

The model utility content

The utility model aims to provide a kind of anti-condensation structure with line branching place of better antisweat effect.

The anti-condensation structure at the application's line branching place has the clad of being made by insulating rubber plastic, and described clad is comprised of the first coating unit and the second coating unit; Described the first coating unit is coated on two surfaces that are one of them pipeline in the pipeline that branch arranges, thereby forms the first rubber-plastic thermal insulation pipe shell, has the step down mouth suitable with another pipeline on the wall of this first rubber-plastic thermal insulation pipe shell; Described the second coating unit is coated on the surface of described another pipeline, thereby forms the second rubber-plastic thermal insulation pipe shell, and a port of this second rubber-plastic thermal insulation pipe shell and described the first rubber-plastic thermal insulation pipe shell are bonding.Among the application, can be close to coating to the whole surface at line branching place by the clad that the first coating unit and the second coating unit consist of, thus the antisweat protection good to the whole formation of pipeline; With respect to the construction of traditional anti-condensation material, the application's anti-condensation structure constructing operation is simple and easy to do, and installation is quick, the time is few, can shorten the installation duration; Insulating rubber plastic is Diazolidinyl Urea not, does not damage workmen's health, and surrounding environment is not polluted, and is safe and reliable etc.

Further be to cooperate bonding by a pair of Anti-dislocation opposite surface that is separately positioned on described periphery of stepping down mouthful and the second rubber-plastic thermal insulation pipe shell port periphery and fits each other between described the first rubber-plastic thermal insulation pipe shell and the second rubber-plastic thermal insulation pipe shell one port.Described Anti-dislocation opposite surface can adopt the form that has the Anti-dislocation locating effect such as step surface etc.For the ease of construction, the Anti-dislocation opposite surface that is positioned on the described mouthful periphery of stepping down is by consisting of according to the curved surface of restraining towards the center of the mouth of stepping down when the radially inner direction of the first rubber-plastic thermal insulation pipe shell is extended.Realize location between the first rubber-plastic thermal insulation pipe shell and the second rubber-plastic thermal insulation pipe shell and bonding by the Anti-dislocation opposite surface, it is bonding more firm to guarantee between the insulating rubber plastic, prevents from breach occurring and affecting the antisweat effect at the insulating rubber plastic binding site.

Below in conjunction with the drawings and specific embodiments the utility model is described further.The aspect that the application adds and advantage in the following description part provide, and part will become obviously from the following description, or recognize by the application's practice.

Description of drawings

Fig. 1 is the solid assembling schematic representation of the anti-condensation structure at the application's line branching place.

Fig. 2 is the schematic perspective view of the anti-condensation structure at the application's line branching place.

Embodiment

At first need explanation, the term among the application " first ", " second " only are for convenience of description, can not be interpreted as the restriction to the application's protection domain.

As shown in Figure 1, 2, for the anti-condensation structure of y type filter 110, have the clad 200 of being made by insulating rubber plastic, described clad 200 is comprised of the first coating unit 210 and the second coating unit 220; Described the first coating unit 210 is coated on the y type filter 110 two surfaces that are one of them pipeline 111 in the pipeline 111 that branch arranges, thereby form the first rubber-plastic thermal insulation pipe shell, have on the wall of this first rubber-plastic thermal insulation pipe shell with another pipeline 111 suitable step down mouthfuls 212; Described the second coating unit 220 is coated on the surface of described another pipeline 111, thereby forms the second rubber-plastic thermal insulation pipe shell, and a port of this second rubber-plastic thermal insulation pipe shell and described the first rubber-plastic thermal insulation pipe shell are bonding; Be separately positioned on the described Anti-dislocation opposite surface of stepping down mouthfuls 212 periphery and the second rubber-plastic thermal insulation pipe shell port periphery and fitting each other and cooperate bonding by a pair of between described the first rubber-plastic thermal insulation pipe shell and the second rubber-plastic thermal insulation pipe shell one port, being positioned at Anti-dislocation opposite surface on described mouthful 212 peripheries of stepping down and being the curved surface 211 of restraining towards the center of the mouth 212 of stepping down when extending according to the radially inner direction A from the first rubber-plastic thermal insulation pipe shell consists of, this curved surface 211 is similar to a conical surface, about 45 degree of the angle of its bus and cone height direction.

Among Fig. 1, with the rubber and plastic heat preservation plate material curling when forming the first rubber-plastic thermal insulation pipe shell the two ends of rubber and plastic heat preservation plate material carry out bonding at seam 221 places; In like manner, with the rubber and plastic heat preservation plate material curling when forming the second rubber-plastic thermal insulation pipe shell the two ends of rubber and plastic heat preservation plate material carry out bonding at seam 213 places.In case of necessity, also can protect the seam after bonding by adhesive tape.

Claims (4)

1. the anti-condensation structure at line branching place has the clad (200) of being made by insulating rubber plastic, it is characterized in that: described clad (200) is comprised of the first coating unit (210) and the second coating unit (220); Described the first coating unit (210) is coated on two surfaces that are one of them pipeline (111) in the pipeline (111) that branch arranges, thereby form the first rubber-plastic thermal insulation pipe shell, have step down mouthful (212) suitable with another pipeline (111) on the wall of this first rubber-plastic thermal insulation pipe shell; Described the second coating unit (220) is coated on the surface of described another pipeline (111), thereby forms the second rubber-plastic thermal insulation pipe shell, and a port of this second rubber-plastic thermal insulation pipe shell and described the first rubber-plastic thermal insulation pipe shell are bonding.

2. the anti-condensation structure at line branching as claimed in claim 1 place is characterized in that: cooperate bonding by a pair of periphery that is separately positioned on described step down mouthful (212) and the second rubber-plastic thermal insulation pipe shell port periphery and the Anti-dislocation opposite surface that fits each other between described the first rubber-plastic thermal insulation pipe shell and the second rubber-plastic thermal insulation pipe shell one port.

3. the anti-condensation structure at line branching as claimed in claim 2 place is characterized in that: be positioned at Anti-dislocation opposite surface on described mouthful (212) periphery of stepping down and be by curved surface (211) formation that restrains towards the center of step down mouthful (212) when extending from the radially inner direction (A) of the first rubber-plastic thermal insulation pipe shell.

4. such as the anti-condensation structure at the described line branching of any one claim place in the claims 1 to 3, it is characterized in that: described two are pipeline (111) that branch arranges and refer to two pipelines on the y type filter (110).

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