CN208457359U - A kind of structural fire protection pipe fitting for offsetting impact stress - Google Patents

Abstract

The utility model discloses the structural fire protection pipe fittings that one kind can offset impact stress, including tube body, the inner sidewall of the tube body is equipped with corrosion resistant layer, multiple supporting elements are circumferentially equidistantly fixedly connected with along it on the lateral wall of the tube body, damping casing is socketed on the outside of the tube body, the supporting element is fixedly connected on the inner sidewall of damping casing, multiple dampings are circumferentially equidistantly fixedly connected with along it on the lateral wall of the damping casing, thermal sleeve is socketed on the outside of the damping casing, the damping is fixedly connected on the inner sidewall of thermal sleeve, fixing sleeve is connected to refractory sleeve on the lateral wall of the thermal sleeve, the lateral wall of the refractory sleeve is equipped with anti-impacting layer, the surface of the anti-impacting layer is evenly equipped with shock resistance part.The utility model can effectively offset impact stress, and refractory heat-insulating.

Description

A kind of structural fire protection pipe fitting for offsetting impact stress

Technical field

The utility model relates to fire-fighting pipe fitting technical fields, more particularly to a kind of structural fire protection pipe that can offset impact stress Part.

Background technique

Fire protection pipeline is as its name suggests the pipe-line system established for fire-fighting, due to specific demand, the thickness of fire protection pipeline There is particular/special requirement with material, and spray red paint, conveys fire demand water,

Since fire protection pipeline often remains static, also therefore more stringent to requirements for pipes, pipeline needs compression resistance, resistance to Corrosion, high temperature resistance are good.

But existing fire-fighting pipe fitting does not have shock proof function generally, therefore, now urgent need, which designs one kind, can offset punching Hit the structural fire protection pipe fitting of stress.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and the one kind proposed can offset impact The structural fire protection pipe fitting of stress.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of structural fire protection pipe fitting for offsetting impact stress, including tube body, the inner sidewall of the tube body are equipped with antirust Layer is lost, is circumferentially equidistantly fixedly connected with multiple supporting elements, the outside socket of the tube body along it on the lateral wall of the tube body There is damping casing, the supporting element is fixedly connected on the inner sidewall of damping casing, along it on the lateral wall of the damping casing It is circumferential to be equidistantly fixedly connected with multiple dampings, thermal sleeve, the damping machine are socketed on the outside of the damping casing Structure is fixedly connected on the inner sidewall of thermal sleeve, and fixing sleeve is connected to refractory sleeve on the lateral wall of the thermal sleeve, described The lateral wall of refractory sleeve is equipped with anti-impacting layer, and the surface of the anti-impacting layer is evenly equipped with shock resistance part, the shock resistance part Including the damping block being fixedly connected on anti-impacting layer side wall, the upper end of the damping block is equipped with ball bumps.

Preferably, the material of the tube body is stainless steel.

Preferably, the supporting element includes inclined plate, and the V-shaped structure of inclined plate, the inclined plate is welded on the side wall of tube body On, the both ends of the inclined plate are respectively connected with welding block, and the welding block is pressed on the inner sidewall of damping casing.

Preferably, the welding block and inclined plate are integrally formed.

Preferably, the damping includes the first damping block and the second damping block, and first damping block is fixedly connected On the inner sidewall of thermal sleeve, second damping block is fixedly connected on the lateral wall of damping casing, first damping Block is evenly equipped with friction lug far from an end face of thermal sleeve.

Preferably, the material of the anti-impacting layer, ball bumps and damping block is epoxy resin.

In the utility model, by the way that damping is arranged, when pipe fitting is impacted, impact force can compress the first damping block With the second damping block, and then cushioning effect is played, offsets impact force, by the way that supporting element is arranged, when pipe fitting is impacted, due to The V-structure of inclined plate, the compressible deformation when being impacted, and then impact force is offset, thermal sleeve can effectively insulate heat, fireproof sleeve Effective fire resisting is managed, fire is placed and burns pipe fitting.The utility model can effectively offset impact stress, and refractory heat-insulating.

Detailed description of the invention

Fig. 1 be the utility model proposes one kind can offset impact stress structural fire protection pipe fitting structural schematic diagram；

Fig. 2 is enlarged drawing at A in Fig. 1；

Fig. 3 be the utility model proposes the structure of supporting element of one kind structural fire protection pipe fitting that can offset impact stress show It is intended to；

Fig. 4 be the utility model proposes one kind can offset impact stress structural fire protection pipe fitting shock resistance part structure Schematic diagram.

In figure: 1 tube body, 2 corrosion resistant layers, 3 damping casings, 4 thermal sleeves, 5 refractory sleeves, 6 anti-impacting layers, 7 first subtract Shake block, 8 second damping blocks, 9 friction lugs, 10 welding blocks, 11 inclined plates, 12 ball bumps, 13 damping blocks.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Embodiment one

Referring to Fig.1-4, a kind of structural fire protection pipe fitting for offsetting impact stress, including tube body 1, on the inner sidewall of tube body 1 Equipped with corrosion resistant layer 2, the material of corrosion resistant layer is corrosion-resistant epoxy paint, is circumferentially equidistantly fixed on the lateral wall of tube body 1 along it Multiple supporting elements are connected with, the outside of tube body 1 is socketed with damping casing 3, and supporting element is fixedly connected on the inner sidewall of damping casing 3 On, multiple dampings, the outer sheath of damping casing 3 are circumferentially equidistantly fixedly connected with along it on the lateral wall of damping casing 3 It is connected to thermal sleeve 4, damping is fixedly connected on the inner sidewall of thermal sleeve 4, fixing sleeve on the lateral wall of thermal sleeve 4 It is connected to refractory sleeve 5, the material of thermal sleeve 4 is glass fibre, and the material of heat-resisting sleeve 5 is asbestos, the outside of refractory sleeve 5 Wall is equipped with anti-impacting layer 6, and the surface of anti-impacting layer 6 is evenly equipped with shock resistance part, and shock resistance part includes being fixedly connected on shock resistance The upper end of damping block 13 on 6 side wall of layer, damping block 13 is equipped with ball bumps 12.

In the utility model, the material of tube body 1 is stainless steel.Supporting element includes inclined plate 11, the V-shaped structure of inclined plate 11, tiltedly Plate 11 is welded on the side wall of tube body 1, and the both ends of inclined plate 11 are respectively connected with welding block 10, and welding block 10 is pressed on damping casing 3 Inner sidewall on, by setting supporting element, can when being impacted due to the V-structure of inclined plate 11 when pipe fitting is impacted Compressive deformation, and then offset impact force.Welding block 10 and inclined plate 11 are integrally formed.Damping includes the first damping block 7 and the Two damping blocks 8, the first damping block 7 are fixedly connected on the inner sidewall of thermal sleeve 4, and the second damping block 8 is fixedly connected on damping On the lateral wall of casing 3, the first damping block 7 is evenly equipped with friction lug 9 far from an end face of thermal sleeve 4, by the way that damping is arranged Mechanism, when pipe fitting is impacted, impact force can compress the first damping block 7 and the second damping block 8, and then play cushioning effect, Impact force is offset, friction lug 9 can effectively increase friction, improve damping effect.Anti-impacting layer 6, ball bumps 12 and damping block 13 material is epoxy resin.

Embodiment two

Referring to Fig.1-4, a kind of structural fire protection pipe fitting for offsetting impact stress, including tube body 1, on the inner sidewall of tube body 1 Equipped with corrosion resistant layer 2, the material of corrosion resistant layer is corrosion-resistant epoxy paint, is circumferentially equidistantly fixed on the lateral wall of tube body 1 along it Multiple supporting elements are connected with, the outside of tube body 1 is socketed with damping casing 3, and supporting element is fixedly connected on the inner sidewall of damping casing 3 On, multiple dampings, the outer sheath of damping casing 3 are circumferentially equidistantly fixedly connected with along it on the lateral wall of damping casing 3 It is connected to thermal sleeve 4, damping is fixedly connected on the inner sidewall of thermal sleeve 4, fixing sleeve on the lateral wall of thermal sleeve 4 It is connected to refractory sleeve 5, the material of thermal sleeve 4 is glass fibre, and the material of heat-resisting sleeve 5 is asbestos, the outside of refractory sleeve 5 Wall is equipped with anti-impacting layer 6, and the surface of anti-impacting layer 6 is evenly equipped with shock resistance part, and shock resistance part includes being fixedly connected on shock resistance The upper end of damping block 13 on 6 side wall of layer, damping block 13 is equipped with ball bumps 12.

In the utility model, the material of tube body 1 is stainless steel.Supporting element includes inclined plate 11, the V-shaped structure of inclined plate 11, tiltedly Plate 11 is welded on the side wall of tube body 1, and the both ends of inclined plate 11 are respectively connected with welding block 10, and welding block 10 is pressed on damping casing 3 Inner sidewall on, by setting supporting element, can when being impacted due to the V-structure of inclined plate 11 when pipe fitting is impacted Compressive deformation, and then offset impact force.Welding block 10 and inclined plate 11 are integrally formed.Damping includes the first damping block 7 and the Two damping blocks 8, the first damping block 7 are fixedly connected on the inner sidewall of thermal sleeve 4, and the second damping block 8 is fixedly connected on damping On the lateral wall of casing 3, the first damping block 7 is evenly equipped with friction lug 9 far from an end face of thermal sleeve 4, by the way that damping is arranged Mechanism, when pipe fitting is impacted, impact force can compress the first damping block 7 and the second damping block 8, and then play cushioning effect, Impact force is offset, friction lug 9 can effectively increase friction, improve damping effect.Anti-impacting layer 6, ball bumps 12 and damping block 13 material is melamine formaldehyde resin.

In the utility model, by the way that damping is arranged, when pipe fitting is impacted, impact force can compress the first damping block 7 and second damping block 8, and then cushioning effect is played, impact force is offset, by the way that supporting element is arranged, when pipe fitting is impacted, by In the V-structure of inclined plate 11, the compressible deformation when being impacted, and then impact force is offset, thermal sleeve 4 can effectively insulate heat, The effective fire resisting of refractory sleeve 5 places fire and burns pipe fitting.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. one kind can offset the structural fire protection pipe fitting of impact stress, including tube body (1), which is characterized in that the tube body (1) it is interior Side wall is equipped with corrosion resistant layer (2), is circumferentially equidistantly fixedly connected with multiple supports along it on the lateral wall of the tube body (1) Part is socketed with damping casing (3) on the outside of the tube body (1), and the supporting element is fixedly connected on the inner sidewall of damping casing (3) On, multiple dampings, the damping casing are circumferentially equidistantly fixedly connected with along it on the lateral wall of the damping casing (3) (3) thermal sleeve (4) are socketed on the outside of, the damping is fixedly connected on the inner sidewall of thermal sleeve (4), it is described every Fixing sleeve is connected to refractory sleeve (5) on the lateral wall of thermal sleeve (4), and the lateral wall of the refractory sleeve (5) is equipped with shock resistance Layer (6), the surface of the anti-impacting layer (6) are evenly equipped with shock resistance part, and the shock resistance part includes being fixedly connected on anti-impacting layer (6) upper end of the damping block on side wall (13), the damping block (13) is equipped with ball bumps (12).

2. the structural fire protection pipe fitting that one kind according to claim 1 can offset impact stress, which is characterized in that the tube body (1) material is stainless steel.

3. the structural fire protection pipe fitting that one kind according to claim 1 can offset impact stress, which is characterized in that the support Part includes inclined plate (11), and the V-shaped structure of the inclined plate (11), the inclined plate (11) is welded on the side wall of tube body (1), described oblique The both ends of plate (11) are respectively connected with welding block (10), and the welding block (10) is pressed on the inner sidewall of damping casing (3).

4. the structural fire protection pipe fitting that one kind according to claim 3 can offset impact stress, which is characterized in that the welding Block (10) and inclined plate (11) are integrally formed.

5. the structural fire protection pipe fitting that one kind according to claim 1 can offset impact stress, which is characterized in that the damping Mechanism includes the first damping block (7) and the second damping block (8), and first damping block (7) is fixedly connected on thermal sleeve (4) On inner sidewall, second damping block (8) is fixedly connected on the lateral wall of damping casing (3), and first damping block (7) is remote An end face from thermal sleeve (4) is evenly equipped with friction lug (9).

6. the structural fire protection pipe fitting that one kind according to claim 1 can offset impact stress, which is characterized in that the anti-impact The material for hitting layer (6), ball bumps (12) and damping block (13) is epoxy resin.