CN214695888U - Energy-concerving and environment-protective type fire hydrant - Google Patents

Abstract

The utility model relates to an energy-concerving and environment-protective type fire hydrant, including pre-buried fire hydrant case in ground, locate in the fire hydrant case and the fire hydrant main part at exportable high-pressure water source, articulate in fire hydrant case upper surface opening part and expose in the boxboard on ground, fixed connection is strengthened the strip towards the inside several of fire hydrant case in the boxboard, locate in the fire hydrant case and be used for entering into the drainage mechanism to the interior rainwater drainage of fire hydrant case, it is located the fire hydrant case of below ground to possess the fire hydrant main part, make the fire hydrant be difficult for receiving the vehicle collision above ground, reduce the effect that the possibility of damage appears in the fire hydrant.

Description

Energy-concerving and environment-protective type fire hydrant

Technical Field

The application relates to the field of fire-fighting facilities, in particular to an energy-saving and environment-friendly fire hydrant.

Background

The fire hydrant is various, and what can see in daily life is outdoor exposing in the fire hydrant on ground most, and outdoor fire hydrant is exposed to the collision of vehicle or other accident because of exposing in ground, makes the fire hydrant take place to damage easily. In order to ensure that the fire hydrant can normal use when temperature is lower simultaneously, generally need establish the insulation cover at the outside cover of fire hydrant to make the fire hydrant difficult by freezing, make when needs use the fire hydrant, need consume a large amount of heats and come to form more hot water and come to unfreeze for the fire hydrant, possess better energy-concerving and environment-protective effect.

The existing anti-collision fire hydrant is CN204001068U in the notice number and comprises a fire hydrant main body, wherein the bottom of the fire hydrant main body is communicated with one end of a flexible joint, and the other end of the flexible joint is communicated with a water outlet of a ground water pipeline.

In view of the above-mentioned related art, the inventor believes that the fire hydrant body can withstand a certain impact by the flexible joint having a certain bending range, but the impact on the fire hydrant body is still difficult to avoid, and there is a defect that the fire hydrant body is damaged by the impact with a high probability.

SUMMERY OF THE UTILITY MODEL

In order to reduce the possibility that the main body of the fire hydrant is damaged due to impact, the application provides an energy-saving and environment-friendly fire hydrant.

The application provides an energy-concerving and environment-protective type fire hydrant adopts following technical scheme:

the utility model provides an energy-concerving and environment-protective type fire hydrant, includes pre-buried fire hydrant case in ground, locate in the fire hydrant case and the fire hydrant main part of exportable high pressure water source, articulate in fire hydrant case upper surface opening part and expose in the boxboard on ground, fixed connection in the boxboard towards the inside several enhancement strips of fire hydrant case, locate in the fire hydrant case and be used for entering into the drainage mechanism to the rainwater exhaust in the fire hydrant case.

Through adopting above-mentioned technical scheme for inside the fire hydrant main part is located the fire hydrant case, the fire hydrant main part is difficult for receiving the striking of vehicle or other article equipment above the ground, reduces the possibility that the damage appears in the fire hydrant main part, strengthens the strip simultaneously and makes even there is the heavy object to pass through from the boxboard top, and the boxboard is difficult for appearing damaging, helps prolonging the life of boxboard.

Optionally, the drainage mechanism includes a drainage pipe arranged at the bottom of the fire hydrant cabinet, the bottom of the fire hydrant cabinet is inclined, the position of the bottom surface of the fire hydrant cabinet, where the fire hydrant main body is arranged, is the highest point, the periphery of the bottom surface of the fire hydrant cabinet is the lowest point, a drainage frame groove is formed in the periphery of the bottom surface of the fire hydrant cabinet, and the drainage pipe is communicated to the bottom surface of the drainage frame groove.

Through adopting above-mentioned technical scheme, the rainwater can gather in the peripheral department of fire hydrant case bottom surface when entering into in the fire hydrant case, then enters into municipal rainwater system along drainage pipe through drainage frame groove for the difficult condition that appears ponding in the fire hydrant case, the fire hydrant main part is located the highest point department of fire hydrant case bottom surface simultaneously, makes the fire hydrant main part be difficult for receiving soaking of ponding, makes the fire hydrant main part can keep a better state when needs use.

Optionally, the fire hydrant main part delivery port intercommunication has the case inner tube, and the one end that the case inner tube kept away from the fire hydrant main part can be dismantled and connect in the case board towards the inside side of fire hydrant case.

Through adopting above-mentioned technical scheme, when opening the boxboard, the boxboard can drive the one end opening of incasement pipe in the lump and rotate for the fire fighter need not enter into the inside delivery port with fire hose and fire hydrant main part of fire hydrant case and is linked together, can follow the boxboard and take off the one end of incasement pipe, then closely communicate incasement pipe and fire hose mutually, and is comparatively convenient.

Optionally, the boxboard is equipped with the arc piece, and arc piece circumference inner wall has seted up and has inserted the arc groove, and the one end outer wall fixedly connected with insertion piece of fire hydrant main part is kept away from to the incasement pipe, and the insertion piece can laminate and move and can closely peg graft in the boxboard surface and get into to inserting the arc groove.

Through adopting above-mentioned technical scheme, closely insert the inserted sheet to inserting in the arc groove, can make the incasement pipe receive a comparatively stable rigidity, also make taking off of incasement pipe comparatively convenient simultaneously.

Optionally, the upper surface of the box plate is flush with the ground, the box plate faces the side face of the fire hydrant box and is fixedly connected with a box plate ring block, a box plate fixing rod can be inserted into the box plate ring block, and the box plate fixing rod is inserted into the upper surface of the fire hydrant box.

Through adopting above-mentioned technical scheme for boxboard and ground are close to comparatively steady, and the setting up of boxboard dead lever makes the position of boxboard difficult random change again when the boxboard is opened to be vertical simultaneously, so that the fire fighter takes off the incasement pipe and puts out a fire.

Optionally, the one end fixedly connected with stopper that the fire hydrant case was kept away from to the boxboard dead lever, but stopper butt in the side that the boxboard ring piece deviates from the fire hydrant case, but boxboard fixedly connected with butt in the dog of stopper, the interval between boxboard ring piece and the dog is less than the length of boxboard dead lever.

Through adopting above-mentioned technical scheme for the boxboard dead lever is difficult for breaking away from in boxboard ring piece, makes the boxboard dead lever be difficult for dropping to in the fire hydrant case, so that when opening the boxboard, the use boxboard fixed rod that can be more convenient carries out the position fixing to the boxboard.

Optionally, the inside of the fire hydrant cabinet and the inside of the cabinet plate are provided with heat preservation cotton layers.

Through adopting above-mentioned technical scheme for when outside temperature is lower, the inside temperature of fire hydrant case is difficult for crossing low, reduces the fire hydrant main part and appears freezing possibility, can play the effect of certain energy-concerving and environment-protective.

Optionally, the inner circumferential wall of the arc block faces away from the hinge point between the fire hydrant box and the fire hydrant plate.

Through adopting above-mentioned technical scheme for opening the in-process of boxboard, one side that the incasement pipe is close to the arc piece is located the incasement pipe and keeps away from the below of arc piece one side, further makes the inserted sheet of incasement pipe be difficult for dropping from inserting the spout, so that the position of incasement pipe can receive a better fixed.

In summary, the present application includes at least one of the following benefits:

the fire hydrant main body is positioned in the fire hydrant box, the fire hydrant main body is not easy to be impacted by vehicles above the ground or other articles and equipment, the possibility of damage of the fire hydrant main body is reduced, and meanwhile, the reinforcing strips enable the box plate not to be easily damaged even if heavy objects pass through the box plate from the upper side, so that the service life of the box plate is prolonged;

in the process of opening the box plate, one side of the box inner pipe, which is close to the arc block, is positioned below one side of the box inner pipe, which is far away from the arc block, so that the insertion sheet of the box inner pipe is further difficult to drop from the insertion sliding groove, and the position of the box inner pipe can be well fixed.

Drawings

Fig. 1 is a main body structural view of the present application;

FIG. 2 is a top view of the inside bottom surface of the hydrant cabinet, with the upper portion of one vertical side of the hydrant cabinet partially cut away in schematic structural view;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a schematic view of the side of the box board provided with the reinforcing bars;

fig. 5 is an enlarged view at B in fig. 4.

Description of reference numerals: 1. a fire hydrant cabinet; 2. a hydrant body; 21. a limiting block; 22. a stopper; 23. a heat insulation cotton layer; 24. a rod hole; 3. a boxboard; 31. a reinforcing strip; 32. a water discharge pipeline; 33. a drain frame groove; 34. an in-tank tube; 35. an arc block; 36. inserting into the arc groove; 37. a plug-in sheet; 38. a box plate ring block; 39. boxboard dead lever.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses energy-concerving and environment-protective type fire hydrant, refer to fig. 1, including pre-buried in the fire hydrant case 1 of below ground, 1 upper surface of fire hydrant case sets up the opening, installs fire hydrant main part 2 in the fire hydrant case 1, and 2 bottoms of fire hydrant main part are linked together with pre-buried in underground high-pressure water pipe for fire hydrant main part 2 can provide sufficient water source for the fire hose when taking place the conflagration.

Referring to fig. 2 and 3, the upper surface of the fire hydrant cabinet 1 is hinged with a cabinet plate 3, the rotation plane of the cabinet plate 3 is vertical, the cabinet plate 3 can be changed between the vertical state and the horizontal state through rotation, and the upper surface of the cabinet plate 3 is flush with the ground when the cabinet plate 3 is horizontal. The side of the box plate 3 facing the inside of the fire hydrant box 1 is fixedly connected with a plurality of reinforcing strips 31. The heat preservation cotton layer 23 is embedded in the box plate 3 and the fire hydrant box 1.

Referring to fig. 2, a drainage mechanism for draining rainwater entering the fire hydrant cabinet 1 is installed in the fire hydrant cabinet 1, the drainage mechanism comprises a drainage pipeline 32 fixedly connected to the ground of the fire hydrant cabinet 1 and pre-embedded in the ground, and one end of the drainage pipeline 32, which is far away from the fire hydrant cabinet 1, is communicated with a municipal rainwater system. The periphery of the bottom surface inside the fire hydrant box 1 is provided with a drainage frame groove 33, the horizontal section of the drainage frame groove 33 is in a rectangular frame shape, the vertical central line of the drainage frame groove 33 is the same as that of the fire hydrant box 1, and the drainage pipeline 32 is communicated with the bottom of the drainage frame groove 33. The bottom surface in the fire hydrant cabinet 1 is inclined, the drain frame groove 33 is the lowest point on the bottom surface in the fire hydrant cabinet 1, and the position of the bottom surface in the fire hydrant cabinet 1 for setting the fire hydrant main body 2 is the highest point.

Referring to fig. 4 and 5, 2 delivery port flange connections of fire hydrant main part have incasement pipe 34, the material of 34 pipe shafts of incasement pipe is the same with the material of fire hose, incasement pipe 34 is kept away from 2 one end circumference outer walls of fire hydrant main part and is connected with inserted sheet 37 coaxially, when case board 3 is the level towards the side fixedly connected with arc piece 35 of 1 inside of fire hydrant case, arc piece 35 is the semicircle arc type, the cross-section has been seted up to the circumference inner wall of arc piece 35 and has been inserted arc groove 36 semi-circular arc, insert and set up the rubber layer in the arc groove 36, inserted sheet 37 can laminate in the surface displacement that case board 3 set up arc piece 35, make inserted sheet 37 can closely peg graft in inserting arc groove 36. Arc piece 35 sets up the pin joint that the circumference inner wall that inserts arc groove 36 deviates from boxboard 3 and fire hydrant case 1 for when boxboard 3 is rotated into vertically by the level, the difficult follow of insertion arc groove 36 of pegging graft piece 37 drops, makes the position of incasement pipe 34 can obtain a better fixed.

Referring to fig. 4 and 5, a box plate ring block 38 is fixedly connected to the side surface of the box plate 3 where the arc block 35 is provided. The horizontal cross-section of the box plate ring block 38 is circular when the box plate 3 is vertical. The inner wall of the circumference of the box plate ring block 38 is connected with a box plate fixing rod 39 in a sliding mode along the axis direction, and the upper surface of the fire hydrant box 1 is provided with a rod hole 24 which is vertical. The box board fixing lever 39 can be inserted into the lever hole 24 in the vertical direction when the box board 3 is vertical. The upper end of the box board fixing rod 39 is fixedly connected with a limiting block 21 when vertical, and the limiting block 21 can abut against the box board ring block 38. Case board 3 sets up side fixedly connected with dog 22 of case board ring piece 38, when case board dead lever 39 is vertical, dog 22 lower surface can butt in the upper surface of stopper 21, simultaneously the interval between dog 22 and the stopper 21 is less than the length of case board dead lever 39, make case board dead lever 39 be difficult for breaking away from case board ring piece 38, so that when case board 3 rotated into vertical state, with case board dead lever 39 along vertical direction shift down peg graft in the upper surface of fire hydrant case 1, make the position of case board 3 receive fixedly. When the stopper 21 abuts against the stopper 22, the box board fixing lever 39 is separated from the lever hole 24, so that the box board 3 can be smoothly rotated.

The application embodiment of an energy-saving environment-friendly fire hydrant implements the principle as follows: when a fire breaks out, the box plate 3 can be rotated to be opened, then the end of the inner box pipe 34, which is provided with the insertion piece 37, is attached to the box plate 3 to move, so that the insertion piece 37 is taken out from the insertion arc groove 36 of the arc block 35, then the inner box pipe 34 is connected with the fire hose, and the fire hydrant main body 2 is opened, so that high-pressure water in the fire hydrant main body 2 can enter the fire hose through the inner box pipe 34 to extinguish the fire.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An energy-saving environment-friendly fire hydrant is characterized in that: including pre-buried fire hydrant case (1) in ground, locate in fire hydrant case (1) and fire hydrant main part (2) of exportable high pressure water source, articulate in fire hydrant case (1) upper surface opening part and expose in case board (3) on ground, fixed connection is in case board (3) towards inside several enhancement strip (31) of fire hydrant case (1), locate in fire hydrant case (1) and be used for the drainage mechanism that will get into the rainwater drainage in fire hydrant case (1).

2. An energy-saving and environment-friendly fire hydrant according to claim 1, characterized in that: drainage mechanism is including locating drainage pipe (32) of fire hydrant case (1) bottom, and fire hydrant case (1) bottom surface is the slope, and the position department that fire hydrant main part (2) was set up to fire hydrant case (1) bottom surface is the peak, and the peripheral department in fire hydrant case (1) bottom surface is the minimum, and drainage frame groove (33) have been seted up to the peripheral department in fire hydrant case (1) bottom surface, and drainage pipe (32) communicate to the bottom surface in drainage frame groove (33).

3. An energy-saving and environment-friendly fire hydrant according to claim 2, characterized in that: the water outlet of the fire hydrant main body (2) is communicated with an inner box pipe (34), and one end, away from the fire hydrant main body (2), of the inner box pipe (34) is detachably connected to the side face, facing the inside of the fire hydrant box (1), of the box plate (3).

4. An energy-saving and environment-friendly fire hydrant according to claim 3, characterized in that: boxboard (3) are equipped with arc piece (35), and arc piece (35) circumference inner wall has been seted up and has been inserted arc groove (36), and one end outer wall fixedly connected with inserted sheet (37) of fire hydrant main part (2) are kept away from in incasement pipe (34), and inserted sheet (37) can be laminated and move and can closely peg graft in boxboard (3) surface and get into to inserting arc groove (36).

5. An energy-saving and environment-friendly fire hydrant according to claim 1, characterized in that: the upper surface of the box plate (3) is flush with the ground, the box plate (3) faces the side face in the fire hydrant box (1) and is fixedly connected with a box plate ring block (38), a box plate fixing rod (39) can be inserted into the box plate ring block (38), and the box plate fixing rod (39) is inserted into the upper surface of the fire hydrant box (1).

6. An energy saving and environment friendly fire hydrant according to claim 5, characterized in that: one end fixedly connected with stopper (21) of fire hydrant case (1) is kept away from in boxboard dead lever (39), but stopper (21) butt in boxboard ring piece (38) deviate from the side of fire hydrant case (1), but boxboard (3) fixedly connected with butt in dog (22) of stopper (21), the interval between boxboard ring piece (38) and dog (22) is less than the length of boxboard dead lever (39).

7. An energy-saving and environment-friendly fire hydrant according to claim 3, characterized in that: the fire hydrant box (1) and the box plate (3) are internally provided with heat insulation cotton layers (23).

8. An energy-saving and environment-friendly fire hydrant according to claim 4, characterized in that: the inner wall of the circumference of the arc block (35) deviates from the hinged point of the box plate (3) and the fire hydrant box (1).

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