CN218914213U - Rubber and plastic heat insulation pipe with flame retardant structure - Google Patents

Abstract

The utility model belongs to the technical field of heat preservation pipe equipment, and discloses a rubber-plastic heat preservation pipe with a flame-retardant structure, which is technically characterized in that: including the body, the standing groove has been seted up inwards to body roof, standing groove fixed surface installs the closing plate, the closing plate is made by inflammable material, be provided with fire-retardant mechanism in the standing groove, fire-retardant mechanism is including fire-retardant curtain, storage subassembly and sealed cladding subassembly, the fire-retardant curtain is provided with two sets of relative distributions in the standing groove, storage subassembly is located the standing groove and is connected with the fire-retardant curtain, sealed cladding subassembly is connected with the fire-retardant curtain, be provided with the automatic control mechanism mutually supporting with the fire-retardant curtain in the standing groove, automatic control mechanism is including first locating component and second locating component, first locating component, second locating component are located the standing groove respectively and are connected with sealed cladding subassembly.

Description

Rubber and plastic heat insulation pipe with flame retardant structure

Technical Field

The utility model relates to the technical field of heat insulation pipe equipment, in particular to a rubber and plastic heat insulation pipe with a flame retardant structure.

Background

The rubber-plastic material is an elastic material, has excellent performances of softness, bending resistance, cold resistance, heat resistance, flame retardance, water resistance, low heat conductivity coefficient, shock absorption, sound absorption and the like, can be widely applied to industries such as central air conditioning, building, chemical industry, light spinning, metallurgy, propagation, vehicles, electric appliances and the like and partial cold and hot medium pipelines or containers, and can achieve the effect of reducing cold loss and heat loss. The rubber and plastic material is simple and convenient to construct, the appearance is neat and beautiful, and the product does not contain fiber dust and does not grow any harmful substances such as mould, so the rubber and plastic material is a high-quality heat-insulating material of the new generation of century.

The rubber-plastic heat insulation pipe is mainly made of rubber plastic and other materials, is inflammable in the use process, and the existing rubber-plastic heat insulation pipe lacks a flame-retardant structure, so that great potential safety hazards are caused to equipment safety and personal safety of nearby pedestrians.

Disclosure of Invention

The utility model aims to provide a rubber-plastic heat insulation pipe with a flame-retardant structure, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a rubber and plastic thermal-insulated pipe with fire-retardant structure, includes the body, the inward standing groove that has seted up of body roof, standing groove fixed surface installs the closing plate, the closing plate is made by inflammable material, be provided with fire-retardant mechanism in the standing groove, fire-retardant mechanism is including fire-retardant curtain, storage subassembly and sealed cladding subassembly, the fire-retardant curtain is provided with two sets of relative distributions in the standing groove, storage subassembly is located the standing groove and is connected with the fire-retardant curtain, sealed cladding subassembly is connected with the fire-retardant curtain, be provided with the automatic control mechanism mutually supporting with the fire-retardant curtain in the standing groove, automatic control mechanism is including first locating component and second locating component, first locating component, second locating component are located the standing groove respectively and are connected with sealed cladding subassembly.

As a further scheme of the utility model: the storage assembly comprises two groups of rotating rods which are arranged between the inner walls of the placing grooves in a rotating mode and are distributed oppositely, a rolling roller is fixedly arranged on the surface of the rotating rods, the fire-proof curtain is rolled on the surface of the rolling roller, and one end, away from the rolling roller, of the fire-proof curtain is connected with the sealing coating assembly.

As a further scheme of the utility model: the sealing cladding assembly comprises a bearing plate which is slidably mounted in a placing groove, two groups of magnetic control strips which are distributed oppositely are placed on the surface of the bearing plate, one end of the fire-proof curtain, which is far away from the rolling roller, is fixedly connected with the magnetic control strips, an annular guiding sticking strip which is matched with the magnetic control strips is fixedly mounted in the side wall of the pipe body, the first positioning assembly is connected with the bearing plate, and the second positioning assembly is positioned on the surface of the bearing plate and is connected with the two groups of magnetic control strips.

As a further scheme of the utility model: the first positioning component comprises a first extrusion spring fixedly arranged on the bottom wall of the placing groove and connected with the bottom wall of the bearing plate, and a fixing line matched with the magnetic control strip is fixedly arranged between the inner walls of the placing groove.

As a further scheme of the utility model: the second positioning assembly comprises a vertical plate which is fixedly arranged on the surface of the bearing plate and is positioned between two groups of magnetic control strips, and a second extrusion spring which is connected with the magnetic control strips is fixedly arranged on the side wall of the vertical plate.

As a further scheme of the utility model: the surface of the sealing plate is provided with a hidden plate which is matched with the pipe body.

As still further aspects of the utility model: the pipe body is internally provided with a fireproof layer, and the inner side of the fireproof layer is provided with a heat preservation layer.

Compared with the prior art, the utility model has the beneficial effects that: through setting up by the fire-retardant mechanism that fire-retardant curtain, storage subassembly, sealed cladding subassembly are constituteed with the automatic control mechanism that comprises first locating component, second locating component mutually support, can be convenient carry out fire-retardant protection to the body, solved current rubber and plastic insulating tube and lack fire-retardant structure, cause the problem of great potential safety hazard to equipment safety and nearby pedestrian's personal safety.

Drawings

Fig. 1 is a schematic structural view of a rubber-plastic heat insulation pipe with a flame retardant structure.

Fig. 2 is an enlarged schematic view of the structure of fig. 1 a.

Fig. 3 is a schematic diagram of a placing groove and a connecting structure of the placing groove in a rubber-plastic heat insulation pipe with a flame retardant structure.

Wherein: the pipe body 1, the placing groove 2, the sealing plate 3, the flame retardant mechanism 4, the fireproof curtain 41, the containing component 42, the rotating rod 421, the rolling roller 422, the sealing and coating component 43, the bearing plate 431, the magnetic control strip 432, the guide iron strip 433, the automatic control mechanism 5, the first positioning component 51, the first extrusion spring 511, the fixing wire 512, the second positioning component 52, the vertical plate 521, the second extrusion spring 522, the invisible plate 6, the fireproof layer 7 and the heat preservation layer 8.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

As shown in fig. 1 and fig. 2, a structure diagram of a rubber-plastic heat insulation pipe with a flame retardant structure is provided for an embodiment of the utility model, which comprises a pipe body 1, a placing groove 2 is formed in the top wall of the pipe body 1, a sealing plate 3 is fixedly arranged on the surface of the placing groove 2, the sealing plate 3 is made of inflammable materials, a flame retardant mechanism 4 is arranged in the placing groove 2, the flame retardant mechanism 4 comprises a fire-proof curtain 41, a containing component 42 and a sealing coating component 43, the fire-proof curtain 41 is provided with two groups of relatively distributed in the placing groove 2, the containing component 42 is positioned in the placing groove 2 and connected with the fire-proof curtain 41, the sealing coating component 43 is connected with the fire-proof curtain 41, an automatic control mechanism 5 which is mutually matched with the fire-proof curtain 41 is arranged in the placing groove 2, the automatic control mechanism 5 comprises a first positioning component 51 and a second positioning component 52, the first positioning component 51 and the second positioning component 52 are respectively positioned in the placing groove 2 and are connected with the sealing coating component 43, when the two groups of sealing plate 1 are used, and when the two groups of sealing plate 1 are matched with the surface of the fire-proof curtain 41, the two groups of sealing plate can be conveniently and rapidly and conveniently coated on the surface of the pipe body 1 to the fire-proof curtain 41, and the two groups of sealing plate can be conveniently and rapidly coated on the surface of the fire-proof pipe body 1, and the fire-proof pipe body 1 can be conveniently and controlled by the two groups of the sealing plate 1 to move to the fire-proof surface 1 to the fire-proof surface and the sealing plate 1 to the fire-proof surface and the fire-proof surface 1.

As shown in fig. 2 and 3, as a preferred embodiment of the present utility model, the storage assembly 42 includes two sets of rotating rods 421 rotatably mounted between the inner walls of the placement tank 2, the surface of the rotating rods 421 is fixedly provided with a rolling roller 422, the fire-proof curtain 41 is rolled on the surface of the rolling roller 422, one end of the fire-proof curtain 41 away from the rolling roller 422 is connected with the sealing and wrapping assembly 43, and when in use, the fire-proof curtain 41 can be conveniently stored in the placement tank 2 by mutually matching the rotating rods 421 with the rolling roller 422 when no fire occurs.

As shown in fig. 1 and 2, as a preferred embodiment of the present utility model, the sealing and cladding assembly 43 includes a carrier plate 431 slidably mounted in the placement groove 2, two sets of magnetic control strips 432 are disposed on the surface of the carrier plate 431, two sets of magnetic control strips 432 are disposed opposite to each other, one end of the fire-proof curtain 41 away from the winding roller 422 is fixedly connected with the magnetic control strips 432, an annular guiding strip 433 cooperating with the magnetic control strips 432 is fixedly mounted in the side wall of the tube 1, the first positioning assembly 51 is connected with the carrier plate 431, the second positioning assembly 52 is disposed on the surface of the carrier plate 431 and connected with the two sets of magnetic control strips 432, and in use, the first positioning assembly 51 pushes the carrier plate 431 to move upwards to push the two sets of magnetic control strips 432 to the outside of the placement groove 2, the second positioning assembly 52 pushes the two sets of magnetic control strips 432 to move towards the bottom of the tube 1 in opposite directions, and the magnetic control strips 432 pulls the fire-proof curtain 41 to seal and cladding the side wall of the tube 1.

As shown in fig. 2, as a preferred embodiment of the present utility model, the first positioning assembly 51 includes a first compression spring 511 fixedly installed on the bottom wall of the placement tank 2 and connected to the bottom wall of the carrier 431, a fixing wire 512 matched with the magnetic control strip 432 is fixedly installed between the inner walls of the placement tank 2, and in use, the fixing wire 512 defines the position of the carrier 431, and when the fixing wire 512 is burned by a fire, the elastic thrust of the first compression spring 511 can conveniently push the carrier 431 to move upwards.

As shown in fig. 2, as a preferred embodiment of the present utility model, the second positioning assembly 52 includes a vertical plate 521 fixedly mounted on a surface of the carrier plate 431 and located between two sets of magnetic control strips 432, and a second compression spring 522 connected to the magnetic control strips 432 is fixedly mounted on a side wall of the vertical plate 521, so that, in use, the two sets of magnetic control strips 432 can be conveniently pushed to move towards opposite directions on two sides of the tube body 1 by using elastic thrust of the second compression spring 522.

As shown in fig. 2, as a preferred embodiment of the present utility model, the surface of the sealing plate 3 is provided with a hidden plate 6 which is matched with the pipe body 1.

As shown in fig. 1, as a preferred embodiment of the present utility model, a fire-proof layer 7 is disposed in the pipe body 1, and a heat-insulating layer 8 is disposed inside the fire-proof layer 7.

The working principle of the utility model is as follows: when in use, when the surface of the pipe body 1 is fire-burned and the sealing plate 3 on the surface of the placing groove 2 is burned, the elastic thrust of the first extrusion spring 511 can conveniently push the bearing plate 431 to move upwards, the elastic thrust of the second extrusion spring 522 can conveniently push the two groups of magnetic control blocks 432 to move towards opposite directions of two sides of the pipe body 1, the two groups of fireproof curtains 41 can conveniently be controlled to respectively move downwards along the two sides of the pipe body 1 through the sealing coating component 43 so as to seal and coat the surface of the pipe body 1, and the fire on the surface of the pipe body 1 can be effectively prevented from burning so as to carry out efficient fire extinguishing treatment on the pipe body 1.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (7)

1. The utility model provides a rubber and plastic thermal-insulated pipe with fire-retardant structure, includes the body, its characterized in that, the standing groove has been inwards seted up to body roof, standing groove fixed surface installs the closing plate, the closing plate is made by inflammable material, be provided with fire-retardant mechanism in the standing groove, fire-retardant mechanism is including fire-retardant curtain, storage subassembly and sealed cladding subassembly, the fire-retardant curtain is provided with two sets of relative distributions in the standing groove, storage subassembly is located the standing groove and is connected with the fire-retardant curtain, sealed cladding subassembly is connected with the fire-retardant curtain, be provided with the automatic control mechanism mutually supporting with the fire-retardant curtain in the standing groove, automatic control mechanism is including first locating component and second locating component, first locating component, second locating component are located the standing groove respectively and are connected with sealed cladding subassembly.

2. The rubber-plastic heat insulation pipe with a flame retardant structure according to claim 1, wherein the containing assembly comprises two groups of rotating rods which are arranged between the inner walls of the placing grooves in a rotating mode and are distributed oppositely, a rolling roller is fixedly arranged on the surface of the rotating rods, the fireproof curtain is rolled on the surface of the rolling roller, and one end, away from the rolling roller, of the fireproof curtain is connected with the sealing coating assembly.

3. The rubber-plastic heat insulation pipe with a flame retardant structure according to claim 2, wherein the sealing and coating assembly comprises a bearing plate which is slidably arranged in a placing groove, two groups of magnetic control strips which are distributed oppositely are placed on the surface of the bearing plate, one end of the fire-proof curtain, which is far away from the rolling roller, is fixedly connected with the magnetic control strips, an annular guiding sticking strip which is matched with the magnetic control strips is fixedly arranged in the side wall of the pipe body, the first positioning assembly is connected with the bearing plate, and the second positioning assembly is positioned on the surface of the bearing plate and is connected with the two groups of magnetic control strips.

4. A rubber and plastic heat insulation pipe with a flame retardant structure according to claim 3, wherein the first positioning component comprises a first extrusion spring fixedly arranged on the bottom wall of the placing groove and connected with the bottom wall of the bearing plate, and a fixing wire matched with the magnetic control strip is fixedly arranged between the inner walls of the placing groove.

5. A rubber and plastic heat insulating pipe with a flame retardant structure according to claim 3, wherein the second positioning assembly comprises a vertical plate which is fixedly arranged on the surface of the bearing plate and is positioned between two groups of magnetic control strips, and a second extrusion spring connected with the magnetic control strips is fixedly arranged on the side wall of the vertical plate.

6. The rubber-plastic heat insulation pipe with a flame retardant structure according to claim 1, wherein the surface of the sealing plate is provided with a hidden plate which is matched with the pipe body.

7. The rubber-plastic heat insulation pipe with a flame retardant structure according to claim 1, wherein a flame retardant layer is arranged in the pipe body, and an insulation layer is arranged on the inner side of the flame retardant layer.

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