CN211599794U - Building fire control pipeline shock-absorbing structure - Google Patents

Abstract

The utility model provides a shock-absorbing structure for a building fire-fighting pipeline, comprising a main body, a shock-absorbing fixed shaft and a fixed base; A waterproof sealing ring is installed on the inner side of the pipe connection port, a fixed groove belt is arranged above the pipe connection port, a fixed convex groove belt is arranged below the pipe connection port, and the outer side of the fixed convex groove belt is provided Both are provided with shock-absorbing connecting blocks, the shock-absorbing fixing shafts are installed on the inner side of the shock-absorbing connecting blocks, and the shock-absorbing fixing blocks are all provided below the shock-absorbing fixing shafts, and the bottom of the shock-absorbing fixing blocks are welded with Shock spring. The utility model provides a shock absorption structure for a building fire fighting pipeline. By arranging a foam sound insulation layer, the device can be sound-insulated, so that the noise caused by the collision of the flowing water inside the device can be isolated, and the inconvenience caused by noise pollution can be avoided. .

Description

A shock-absorbing structure for a building fire-fighting pipeline

technical field

The utility model relates to the related technical field of building door and window frames, in particular to a shock absorbing structure of a building fire fighting pipeline.

Background technique

As an important part of the building fire protection system, the fire pipeline structure has been widely installed and used in a large number of buildings. A large number of fire cases have shown that an intact and effective fire water supply system can timely control and fight the fire in the early stage of the fire. It plays an important role in small fire losses and the realization of building fire self-defense and self-rescue.

The traditional building fire fighting pipeline does not have an anti-seismic structure. When the device is in use, due to the high water pressure, the device is easy to shake. Long-term use will cause damage to the device and cause economic losses. Improve the maintenance of the device cost and labor costs.

Therefore, it is necessary to provide a shock-absorbing structure for building fire-fighting pipelines to solve the above-mentioned technical problems.

Utility model content

The utility model provides a shock-absorbing structure for a building fire-fighting pipeline, which solves the problem that the device does not have an anti-seismic structure. When the device is in use, because the water pressure is too high, the device is likely to shake, and long-term use will lead to damage to the device. Cause economic loss, increase the maintenance cost and labor cost of the device.

In order to solve the above-mentioned technical problems, the utility model provides a shock absorption structure for a building fire fighting pipeline, which includes a main body, a shock-absorbing fixed shaft and a fixed base. Pipe connection ports are provided on both sides, waterproof sealing rings are installed on the inner side of the pipe connection ports, and a fixed groove belt is provided above the pipe connection port, and a fixed convex groove belt is provided below the pipe connection port. And the outer side of the fixed convex groove belt is provided with a shock-absorbing connecting block, the shock-absorbing fixing shaft is installed on the inner side of the shock-absorbing connecting block, and a shock-absorbing fixing block is arranged below the shock-absorbing fixing shaft. A shock-absorbing spring is welded under the fixed block, a fixed steel plate is arranged below the shock-absorbing spring, and a chrome-plated waterproof layer is arranged inside the fixed steel plate, and a riser is arranged above the fixed steel plate, and the Lifting rods are arranged above, and fixed bases are arranged above the lifting rods.

Preferably, the foam sound insulation layer is closely attached to the main body, and the inner diameter of the foam sound insulation layer is the same as the outer diameter of the main body.

Preferably, the waterproof sealing ring is in close contact with the pipe connection port, and the outer diameter of the waterproof sealing ring is smaller than the inner diameter of the pipe connection port.

Preferably, the fixing groove belt and the fixing convex groove belt are connected by a slot, and the outer wall of the upper end of the fixing groove belt and the outer wall of the lower end of the fixing convex groove belt are both open-hole design.

Preferably, the shock-absorbing spring and the shock-absorbing fixing block are connected by welding, and the outer diameter of the shock-absorbing spring is the same as that of the shock-absorbing fixing block.

Preferably, the chrome-plated waterproof layer is in close contact with the fixed steel plate, and the outer diameter of the chrome-plated waterproof layer is smaller than the outer diameter of the fixed steel plate.

Preferably, the lower end of the fixed base forms a lifting structure through the outer wall of the lifting rod and the inner wall of the riser, and the lifting rod is symmetrically arranged about the central axis of the fixed steel plate.

Compared with the related art, the damping structure of the building fire-fighting pipeline provided by the utility model has the following beneficial effects:

1. The present utility model provides a shock absorbing structure for building fire protection pipelines. By setting a foam sound insulation layer, the device can be sound-insulated, so that the noise caused by the impact of flowing water inside the device can be isolated, and noise pollution can be avoided. inconvenience;

2. The present utility model provides a shock absorbing structure for building fire protection pipelines. By setting a waterproof sealing ring, the device can be sealed, so as to avoid the inconvenience caused by the leakage of water from the pipe connection port of the device;

3. The present utility model provides a shock absorbing structure for building fire protection pipelines. By setting a fixed groove belt, it is convenient to fix the pipe connection port of the device, so as to avoid shaking of the device during use, which will lead to the fixed position of the device. If there is slack, the service life of the device is increased, and the shock resistance of the device is increased.

Description of drawings

Fig. 1 is the front view internal structure schematic diagram of a kind of building fire-fighting pipeline damping structure provided by the utility model;

Fig. 2 is the front view structure schematic diagram of a kind of building fire-fighting pipeline damping structure provided by the utility model;

Fig. 3 is the top view structure schematic diagram of a kind of building fire-fighting pipeline damping structure provided by the utility model;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 1 .

Labels in the figure: 1. Main body, 2. Foam sound insulation layer, 3. Pipe connection port, 4. Waterproof sealing ring, 5. Fixed groove belt, 6. Fixed convex groove belt, 7. Shock-absorbing connecting block, 8. Shock-absorbing fixed shaft, 9, shock-absorbing fixed block, 10, shock-absorbing spring, 11, fixed steel plate, 12, chrome-plated waterproof layer, 13, riser, 14, lifting rod, 15, fixed base.

Detailed ways

The present utility model will be further described below with reference to the accompanying drawings and embodiments.

Please refer to Fig. 1, Fig. 2, Fig. 3 and Fig. 4 in conjunction with Fig. 1, wherein Fig. 1 is a schematic view of the internal structure of a building fire-fighting pipeline damping structure provided by the present invention; Schematic diagram of the front structure of a building fire-fighting pipeline shock-absorbing structure; FIG. 3 is a top-view structural schematic diagram of a building fire-fighting pipeline shock-absorbing structure provided by the present invention; FIG. A shock-absorbing structure for a building fire-fighting pipeline, comprising a main body 1, a shock-absorbing fixed shaft 8 and a fixed base 15, the outer side of the main body 1 is provided with a foam sound insulation layer 2, and the front and rear sides of the main body 1 are provided with pipeline connections Port 3, the inner side of the pipe connection port 3 is equipped with a waterproof sealing ring 4, and the top of the pipe connection port 3 is provided with a fixed groove belt 5, and the bottom of the pipe connection port 3 is provided with a fixed convex groove belt 6, and the fixed convex groove The outer side of the belt 6 is provided with a shock-absorbing connecting block 7, and the shock-absorbing fixed shaft 8 is installed on the inner side of the shock-absorbing connecting block 7, and the lower part of the shock-absorbing fixed shaft 8 is provided with a shock-absorbing fixing block 9, and the shock-absorbing fixing block A damping spring 10 is welded below the damping spring 10, a fixed steel plate 11 is arranged below the damping spring 10, and a chrome-plated waterproof layer 12 is arranged inside the fixed steel plate 11, and a riser 13 is arranged above the fixed steel plate 11, and is erected. Lifting rods 14 are arranged above the pipes 13 , and fixed bases 15 are arranged above the lifting rods 14 .

The foam sound insulation layer 2 is closely attached to the main body 1, and the inner diameter of the foam sound insulation layer 2 is the same as the outer diameter of the main body 1. By arranging the foam sound insulation layer 2, the device can be sound-insulated, which can isolate the device. The noise caused by the impact of flowing water inside the device avoids the inconvenience caused by noise pollution.

The waterproof sealing ring 4 is in close contact with the pipe connection port 3, and the outer diameter of the waterproof sealing ring 4 is smaller than the inner diameter of the pipe connection port 3. By setting the waterproof sealing ring 4, the device can be sealed, and the device can be avoided. The inconvenience caused by the infiltration of water from the pipe connection port 3 to the outside.

The fixed groove belt 5 and the fixed convex groove belt 6 are connected by a slot, and the upper end outer wall of the fixed groove belt 5 and the lower end outer wall of the fixed convex groove belt 6 are both open-hole design. By setting the fixed groove belt 5 , it is convenient to fix the pipe connection port 3 of the device, avoid the device from shaking when in use, thereby causing the fixing of the device to be loose, improving the service life of the device and increasing the shock resistance of the device.

The damping spring 10 and the damping fixing block 9 are connected by welding, and the outer diameter of the damping spring 10 is the same as the outer diameter of the damping fixing block 9. By setting the damping spring 10, the device can be damped. treatment, increase the shock resistance of the device, and improve the service life of the device.

The chrome-plated waterproof layer 12 is closely attached to the fixed steel plate 11, and the outer diameter of the chrome-plated waterproof layer 12 is smaller than the outer diameter of the fixed steel plate 11. By setting the chrome-plated waterproof layer 12, the device can be fixed to the steel plate 11. Waterproof treatment, Water seepage inside the fixed steel plate 11 is avoided, thereby causing oxidation inside the fixed steel plate 11 .

The lower end of the fixed base 15 forms a lifting structure through the outer wall of the lifting rod 14 and the inner wall of the riser 13, and the lifting rod 14 is symmetrically arranged about the central axis of the fixed steel plate 11. By setting the fixed base 15, the fixed base 15 can be passed through the lifting rod. 14 Lift to a suitable position, so that the device can be fixed in the required installation position and the height of the device can be adjusted according to the work requirements.

The working principle of the shock absorbing structure of a building fire fighting pipeline provided by the present invention is as follows: firstly, the device is moved to the required working position, and then the fixed base 15 is lifted to a suitable position through the lifting rod 14 according to the working requirements, and the device For fixing, by setting the foam sound insulation layer 2, the device can be sound-insulated, so that the noise caused by the impact of the flowing water inside the device can be isolated, and the inconvenience caused by noise pollution can be avoided. The device is sealed to avoid the inconvenience caused by the infiltration of water from the pipe connection port 3 of the device. By setting the fixing groove belt 5, it is convenient to fix the pipe connection port 3 of the device to avoid the device from shaking during use. , thereby causing the fixing of the device to be loose, improving the service life of the device, and increasing the shock resistance of the device. By setting the shock-absorbing spring 10, the device can be damped, the shock resistance of the device can be increased, and the shock resistance of the device can be improved. For the service life of the device, by setting the chrome-plated waterproof layer 12, the fixed steel plate 11 of the device can be waterproofed, so as to avoid water seepage inside the fixed steel plate 11, thereby causing oxidation inside the fixed steel plate 11, and finally the device is connected to the outside. Water source, the use process of such a building fire-fighting pipeline shock-absorbing structure is completed.

Compared with the related art, the damping structure of the building fire-fighting pipeline provided by the utility model has the following beneficial effects:

1. The present utility model provides a shock absorption structure for building fire protection pipelines. By setting the foam sound insulation layer 2, the device can be sound-insulated, so that the noise caused by the impact of flowing water inside the device can be isolated, and noise pollution zones can be avoided. inconvenience;

2. The present utility model provides a shock absorption structure for building fire protection pipelines. By setting a waterproof sealing ring 4, the device can be sealed, so as to avoid the inconvenience caused by the infiltration of water from the pipe connection port 3 of the device;

3. The present utility model provides a shock absorption structure for building fire protection pipelines. By setting the fixing groove belt 5, it is convenient to fix the pipeline connection port 3 of the device, so as to avoid the device from shaking during use, which will lead to the failure of the device. Looseness occurs in the fixing place, which increases the service life of the device and increases the shock resistance of the device.

The above are only the embodiments of the present invention, and are not intended to limit the patent scope of the present invention. Any equivalent structure or equivalent process transformation made by using the contents of the description and accompanying drawings of the present invention, or directly or indirectly applied to other Relevant technical fields are similarly included in the scope of patent protection of the present invention.

Claims (7)

1. The utility model provides a building fire control pipeline shock-absorbing structure, includes main pipe body (1), shock attenuation fixed axle (8) and unable adjustment base (15), its characterized in that: the outer side of the main pipe body (1) is provided with a foam sound-insulating layer (2), the front side and the rear side of the main pipe body (1) are respectively provided with a pipeline connecting port (3), the inner sides of the pipeline connecting ports (3) are respectively provided with a waterproof sealing ring (4), a fixed groove belt (5) is arranged above the pipeline connecting ports (3), a fixed convex groove belt (6) is arranged below the pipeline connecting ports (3), the outer sides of the fixed convex groove belts (6) are respectively provided with a damping connecting block (7), damping fixed shafts (8) are respectively arranged on the inner sides of the damping connecting blocks (7), damping fixed blocks (9) are respectively arranged below the damping fixed shafts (8), damping springs (10) are respectively welded below the damping fixed blocks (9), fixed steel plates (11) are respectively arranged below the damping springs (10), and chrome-plated waterproof layers (12) are arranged inside the fixed steel plates (11), the steel plate fixing device is characterized in that a vertical pipe (13) is arranged above the fixed steel plate (11), a lifting rod (14) is arranged above the vertical pipe (13), and a fixing base (15) is arranged above the lifting rod (14).

2. The shock absorption structure for the fire fighting pipeline of the building as recited in claim 1, wherein the foam sound insulation layer (2) is tightly attached to the main pipe body (1), and the inner diameter of the foam sound insulation layer (2) is the same as the outer diameter of the main pipe body (1).

3. The shock absorption structure for the fire fighting pipeline of the building as recited in claim 1, wherein the waterproof sealing ring (4) is tightly attached to the pipeline connecting port (3), and the outer diameter of the waterproof sealing ring (4) is smaller than the inner diameter of the pipeline connecting port (3).

4. The shock absorption structure for the fire fighting pipeline of the building as claimed in claim 1, wherein the fixing groove belt (5) and the fixing groove belt (6) are connected by a clamping groove, and the outer wall of the upper end of the fixing groove belt (5) and the outer wall of the lower end of the fixing groove belt (6) are both of an open hole type design.

5. The shock absorption structure for the fire fighting pipeline of the building as recited in claim 1, wherein the shock absorption spring (10) is welded to the shock absorption fixing block (9), and the outer diameter of the shock absorption spring (10) is the same as that of the shock absorption fixing block (9).

6. The shock absorption structure for the fire fighting pipeline of the building as recited in claim 1, wherein the chromium-plated waterproof layer (12) is closely attached to the fixed steel plate (11), and the outer diameter of the chromium-plated waterproof layer (12) is smaller than that of the fixed steel plate (11).

7. The shock-absorbing structure for the fire fighting pipeline of the building as claimed in claim 1, wherein the lower end of the fixing base (15) forms a lifting structure with the inner wall of the vertical pipe (13) through the outer wall of the lifting rod (14), and the lifting rod (14) is symmetrically arranged about the central axis of the fixing steel plate (11).

Images