CN218451820U - Sectional type fire hydrant convenient to disassemble and assemble - Google Patents

Abstract

The utility model discloses a fire hydrant of dismouting of being convenient for of sectional type, include: the fire hydrant comprises an underground drainage pipe, a convex fire hydrant valve body and a fire hydrant cylindrical pipe, wherein the convex fire hydrant valve body is connected to the fire hydrant cylindrical pipe through a telescopic expansion structure, the underground drainage pipe is connected in the ground, and the fire hydrant cylindrical pipe is connected to the convex fire hydrant valve body through an extrusion fixing structure; the utility model relates to a fire control technical field, through convenient to detach and quick flexible to reach and carry out the protection of contracting fast with T type shunt tubes, carry out hydraulic extrusion through hydraulic pressure with the lifter plate, thereby reach and carry out the protection of going up and down fast with the fire hydrant, avoided the external world to cause the harm to the fire hydrant, make whole device not have the way to carry out the phenomenon appearance of operation.

Description

Sectional type fire hydrant convenient to disassemble and assemble

Technical Field

The utility model relates to a fire control technical field specifically is fire hydrant of sectional type dismouting of being convenient for.

Background

The fire-fighting facilities refer to fixed facilities such as an automatic fire alarm system, an indoor fire hydrant, an outdoor fire hydrant and the like in a building. The automatic fire fighting equipment is divided into electric system automatic equipment and water system automatic equipment. The electric fire safety detection is based on modern physical phenomena such as heat radiation, acoustic emission, electromagnetic emission and the like of electric facilities in the operation process, adopts international advanced high and new technology instruments and equipment, and combines a traditional inspection method to carry out comprehensive quantitative monitoring on the electric facilities. Therefore, the existence, the danger degree and the accurate position of the electric fire hidden danger can be reflected more comprehensively, scientifically and accurately, and corresponding rectification measures can be provided in time, so that the hidden danger can be eliminated, and the electric fire accident can be avoided.

The fire hydrant installed on the road side is lack of anti-collision protection, is easy to be damaged by collision of vehicles and cannot be used, and the fire hydrant is easy to rust at a water outlet pipe and is difficult to open due to the fact that the fire hydrant is exposed to the sun for a long time.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the fire hydrant of dismouting is convenient for to sectional type includes: the fire hydrant comprises an underground drainage tube, a convex fire hydrant valve body and a fire hydrant cylindrical tube, wherein the convex fire hydrant valve body is connected to the fire hydrant cylindrical tube through a telescopic expansion structure;

the extrusion fixed knot constructs and includes: the device comprises an expansion valve, a plurality of concave arc blocks, a plurality of plug-in sliding blocks, a plurality of concave plug-in sliding ways, a plurality of extrusion threaded rods, a plurality of extrusion threaded pipes, a plurality of extrusion arc plates and a plurality of concave ring rubber pads;

the extension valve pass through the bolt install in on the underground drainage tube, protruding type fire hydrant valve body pass through the bolt install in on the extension valve, a plurality of concave type cartridge slide install respectively in underground drainage tube protruding type fire hydrant valve body and on the extension valve, a plurality of the cartridge slider is installed respectively in a plurality of on the concave type arc piece, and a plurality of the cartridge slider activity cartridge respectively in a plurality of the inboard of concave type cartridge slide, a plurality of the screwed pipe passes through the cartridge in a plurality of on the concave type arc piece, a plurality of the extrusion threaded rod activity cartridge respectively in a plurality of the inboard of extrusion screwed pipe, a plurality of the extrusion arc board is installed respectively in a plurality of on the extrusion threaded rod, a plurality of concave type ring cushion suit respectively in underground drainage tube protruding type fire hydrant valve body and extension valve junction.

Preferably, the telescopic expansion structure comprises: the device comprises a plurality of limiting shaft tubes, a plurality of limiting shafts, a lifting plate, a T-shaped flow dividing tube and a pair of dust plugs;

the novel fire hydrant is characterized in that a lifting port is formed in the convex fire hydrant valve body, the limiting shaft tube is uniformly inserted in the convex fire hydrant valve body, the lifting plate is movably inserted in the inner side of the convex fire hydrant valve body, the limiting shaft is uniformly installed on the lifting plate, the limiting shaft is movably inserted in the limiting shaft tube in a plurality of mode, the T-shaped shunt tube is inserted in the lifting plate, and the dustproof plug is installed on the T-shaped shunt tube in a pair mode.

Preferably, a plurality of the concave arc blocks are respectively provided with a convex rotating groove, and the inner sides of the convex rotating grooves are provided with a protective structure;

the protective structure includes: the damping device comprises a plurality of damping wheels, a plurality of damping shafts, a plurality of damping arc spring columns and a plurality of arc damping plates;

the damping wheel is movably inserted in the inner sides of the convex rotating grooves respectively, the damping arc spring columns are installed on the inner sides of the convex rotating grooves respectively, the damping arc spring columns are connected to the damping wheels respectively, the damping shafts are connected to the damping wheels respectively, and the arc damping plates are installed on the damping shafts respectively.

Preferably, a plurality of the arc shock absorption plates are respectively provided with a protective rubber pad.

Preferably, a pair of the dust plugs are respectively provided with a connecting chain.

Preferably, a pair of the dust plugs are respectively provided with a sealing rubber ring.

Advantageous effects

The utility model provides a fire hydrant of dismouting of being convenient for of sectional type. The method has the following beneficial effects: this fire hydrant of sectional type dismouting of being convenient for, through convenient to detach and quick flexible to reach and carry out the quick shrink protection with T type shunt tubes, carry out hydraulic pressure extrusion through hydraulic pressure with the lifter plate, thereby reach and carry out the protection of going up and down fast with the fire hydrant, avoided the external world to cause the harm to the fire hydrant, make the phenomenon that whole device has no way to operate appear.

Drawings

Fig. 1 is a schematic sectional view of a sectional type fire hydrant convenient to disassemble and assemble.

Fig. 2 is an enlarged view of a portion "a" in fig. 1.

Fig. 3 is an enlarged view of a portion "B" in fig. 1.

In the figure: 1. an underground drainage tube; 2. a male hydrant valve body; 3. a fire hydrant cylindrical tube; 4. an expansion valve; 5. a concave arc block; 6. inserting a sliding block; 7. a concave plug-in slide way; 8. extruding the threaded rod; 9. Extruding the threaded pipe; 10. extruding the arc plate; 11. a concave circular ring rubber pad; 12. a limiting shaft tube; 13. a limiting shaft; 14. a lifting plate; 15. a T-shaped shunt tube; 16. and (4) a dust plug.

Detailed Description

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

All the electrical parts in the present case are connected with the power supply adapted to the electrical parts through a wire, and an appropriate controller and an appropriate encoder should be selected according to the actual situation to meet the control requirement, and the specific connection and control sequence should be determined.

Example 1

As shown in fig. 1-3, the male hydrant valve body 2 is connected to the hydrant cylinder 3 through a telescopic expansion structure, the underground drainage pipe 1 is connected in the ground, and the hydrant cylinder 3 is connected to the male hydrant valve body 2 through a compression fixing structure;

specifically, the extrusion fixing structure includes: the device comprises an expansion valve 4, a plurality of concave arc blocks 5, a plurality of plug-in sliding blocks 6, a plurality of concave plug-in sliding ways 7, a plurality of extrusion threaded rods 8, a plurality of extrusion threaded pipes 9, a plurality of extrusion arc plates 10 and a plurality of concave ring rubber pads 11;

specifically, expansion valve 4 pass through the bolt install in on the underground drainage tube 1, protruding type fire hydrant valve body 2 pass through the bolt install in on the expansion valve 4, a plurality of concave type cartridge slide 7 install respectively in underground drainage tube 1 protruding type fire hydrant valve body 2 and on the expansion valve 4, a plurality of cartridge slider 6 is installed respectively in a plurality of on the concave type arc piece 5, and a plurality of cartridge slider 6 activity cartridge respectively in a plurality of the inboard of concave type cartridge slide 7, a plurality of screwed pipe passes through the cartridge in a plurality of on the concave type arc piece 5, a plurality of extrusion threaded rod 8 activity cartridge respectively in a plurality of the inboard of extrusion threaded pipe 9, a plurality of extrusion arc board 10 is installed respectively in a plurality of on the extrusion threaded rod 8, a plurality of the annular rubber pad 11 suit respectively in underground drainage tube 1 fire hydrant valve body 2 and protruding type expansion valve 4 junction.

It should be noted that, in the foregoing, through opening extension valve 4, hydraulic pressure drainage arrives protruding type fire hydrant valve body 2, insert the inboard of the concave type cartridge slide 7 of a plurality of respectively through going up a plurality of cartridge slider 6 with the concave type arc piece 5 of a plurality of, simultaneously through rotatory extrusion threaded rod 8, with extrusion threaded rod 8 along the inboard flexible removal of extrusion threaded pipe 9, drive extrusion circular arc board 10 above that through extrusion threaded rod 8 simultaneously, through the lift of extrusion circular arc board 10, extrude underground drainage tube 1, on protruding type fire hydrant valve body 2 and the extension valve 4, thereby reach and with underground drainage tube 1, protruding type fire hydrant valve body 2 and extension valve 4 mutual extrusion are fixed.

Example 2

As shown in fig. 1-3, the telescopic expansion structure comprises: a plurality of limiting shaft 13 pipes 12, a plurality of limiting shafts 13, a lifting plate 14, a T-shaped shunt pipe 15 and a pair of dust plugs 16;

specifically, a lifting port is formed in the convex fire hydrant valve body 2, the limiting shafts 13 and the pipes 12 are uniformly inserted into the convex fire hydrant valve body 2, the lifting plate 14 is movably inserted into the inner side of the convex fire hydrant valve body 2, the limiting shafts 13 are uniformly installed on the lifting plate 14, the limiting shafts 13 are movably inserted into the inner sides of the limiting shafts 13 and the pipes 12, the T-shaped shunt pipes 15 are inserted into the lifting plate 14, and the dust plugs 16 are installed on the T-shaped shunt pipes 15.

It should be noted that, in the above, through the lifter plate 14 in the hydraulic pressure extrusion protruding type fire hydrant valve body 2 for a plurality of spacing axle 13 pipes 12 on the lifter plate 14 go up and down along spacing axle 13 respectively, drive T type shunt tubes 15 on it simultaneously through lifter plate 14, seal a pair of T type shunt tubes 15 through the dust plug 16 on the T type shunt tubes 15, protect the lifter plate 14 through a plurality of spacing axle 13 and a plurality of spacing axle 13 pipes 12 simultaneously.

As a preferred scheme, further, a plurality of the concave arc blocks 5 are respectively provided with a convex rotating groove, and the inner sides of the plurality of convex rotating grooves are provided with a protective structure;

the protection structure comprises: the damping device comprises a plurality of damping wheels, a plurality of damping shafts, a plurality of damping arc spring columns and a plurality of arc damping plates;

the shock absorption device comprises a plurality of shock absorption wheels, a plurality of shock absorption circular arc spring columns, a plurality of shock absorption shafts and a plurality of circular arc shock absorption plates, wherein the shock absorption wheels are movably inserted in the inner sides of the convex rotating grooves respectively, the shock absorption circular arc spring columns are installed on the inner sides of the convex rotating grooves respectively, the shock absorption circular arc spring columns are connected to the shock absorption wheels respectively, the shock absorption shafts are connected to the shock absorption wheels respectively, and the circular arc shock absorption plates are installed on the shock absorption shafts respectively.

As a preferable scheme, further, a plurality of the arc shock absorption plates are respectively provided with a protective rubber mat.

Preferably, a connecting chain is provided on each of the pair of dust plugs 16.

Preferably, a pair of the dust plugs 16 are provided with a sealing rubber ring respectively.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The fire hydrant of dismouting is convenient for to sectional type includes: the fire hydrant comprises an underground drainage tube, a convex fire hydrant valve body and a fire hydrant cylindrical tube, and is characterized in that the convex fire hydrant valve body is connected to the fire hydrant cylindrical tube through a telescopic expansion structure, the underground drainage tube is connected in the ground, and the fire hydrant cylindrical tube is connected to the convex fire hydrant valve body through an extrusion fixing structure;

the extrusion fixing structure comprises: the device comprises an expansion valve, a plurality of concave arc blocks, a plurality of inserting slide blocks, a plurality of concave inserting slide ways, a plurality of extruding threaded rods, a plurality of extruding threaded pipes, a plurality of extruding arc plates and a plurality of concave ring rubber pads;

the extension valve pass through the bolt install in on the underground drainage tube, protruding type fire hydrant valve body pass through the bolt install in on the extension valve, a plurality of concave type cartridge slide install respectively in underground drainage tube protruding type fire hydrant valve body and on the extension valve, a plurality of the cartridge slider is installed respectively in a plurality of on the concave type arc piece, and a plurality of the cartridge slider activity cartridge respectively in a plurality of the inboard of concave type cartridge slide, a plurality of the screwed pipe passes through the cartridge in a plurality of on the concave type arc piece, a plurality of the extrusion threaded rod activity cartridge respectively in a plurality of the inboard of extrusion screwed pipe, a plurality of the extrusion arc board is installed respectively in a plurality of on the extrusion threaded rod, a plurality of concave type ring cushion suit respectively in underground drainage tube protruding type fire hydrant valve body and extension valve junction.

2. The segmented, easily disassembled fire hydrant according to claim 1 in which the telescopic expansion structure comprises: the device comprises a plurality of limiting shaft tubes, a plurality of limiting shafts, a lifting plate, a T-shaped flow dividing tube and a pair of dust plugs;

the novel fire hydrant comprises a convex fire hydrant valve body, a plurality of limiting shaft tubes, a lifting plate, a plurality of T-shaped shunt tubes and a pair of dustproof plugs, wherein the convex fire hydrant valve body is provided with a lifting port, the limiting shaft tubes are uniformly inserted in the convex fire hydrant valve body, the lifting plate is movably inserted in the inner side of the convex fire hydrant valve body, the limiting shafts are uniformly installed on the lifting plate, the limiting shafts are respectively movably inserted in the inner sides of the limiting shaft tubes, the T-shaped shunt tubes are inserted in the lifting plate, and the pair of dustproof plugs are installed on the T-shaped shunt tubes.

3. The sectional type fire hydrant convenient to disassemble and assemble according to claim 2, wherein a plurality of the concave arc blocks are respectively provided with a convex rotating groove, and the inner side of the plurality of the convex rotating grooves is provided with a protective structure;

the protection structure comprises: the damping device comprises a plurality of damping wheels, a plurality of damping shafts, a plurality of damping arc spring columns and a plurality of arc damping plates;

the shock absorption device comprises a plurality of shock absorption wheels, a plurality of shock absorption circular arc spring columns, a plurality of shock absorption shafts and a plurality of circular arc shock absorption plates, wherein the shock absorption wheels are movably inserted in the inner sides of the convex rotating grooves respectively, the shock absorption circular arc spring columns are installed on the inner sides of the convex rotating grooves respectively, the shock absorption circular arc spring columns are connected to the shock absorption wheels respectively, the shock absorption shafts are connected to the shock absorption wheels respectively, and the circular arc shock absorption plates are installed on the shock absorption shafts respectively.

4. The segmented easy-to-mount and dismount fire hydrant according to claim 3, wherein a plurality of the arc shock absorbing plates are respectively provided with a protective rubber cushion.

5. The segmented easy-to-mount/dismount fire hydrant according to claim 4, wherein a pair of said dust plugs are respectively provided with a connection chain.

6. The segmented easy-to-mount/dismount fire hydrant according to claim 5, wherein a pair of said dust plugs are respectively provided with a sealing rubber ring.

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