CN214633581U - Intelligent fire hydrant box for fire-fighting engineering - Google Patents

Abstract

The utility model relates to an intelligent fire hydrant case for fire-fighting engineering, it includes that box and one end articulate the chamber door on the box, be provided with one side open-ended in the box and put the thing chamber, it is provided with the locking piece to slide on the chamber door, set up the locking groove that supplies the locking piece embedding on putting the chamber wall in thing chamber, be fixed with the butt piece on the locking piece, it has the sliding hole to run through on the box, it is provided with in putting the thing chamber and is used for driving the butt piece so that the locking piece takes out the unblock piece of locking groove, it is provided with the drive assembly that is used for driving the chamber door and opens to put in the thing chamber. This application has the effect that makes the chamber door be convenient for open.

Description

Intelligent fire hydrant box for fire-fighting engineering

Technical Field

The application relates to the field of fire-fighting equipment, in particular to an intelligent fire hydrant box for fire-fighting engineering.

Background

The fire hydrant case is a case for storing fire hydrants, and generally comprises a water pipe, a water spraying gun, a fire extinguisher and other structures inside the fire hydrant case, and is used for realizing the effect of water spraying and fire extinguishing by sequentially passing through the fire hydrant, the water pipe and the water spraying gun when a fire occurs.

Among the correlation technique, chinese patent with publication number CN107174774A discloses a fire hydrant box, it includes the box, the right-hand member fixedly connected with battery of box inner chamber bottom, box inner chamber's left side from the top down fixedly connected with vibration sensor in proper order, electric quantity sensor, locator and radio signal transmitter, the middle-end fixedly connected with light at box inner chamber top, the middle-end fixedly connected with motor at the box inner chamber back, the output shaft of motor is through pivot fixedly connected with carousel, and the surface coiling of carousel has the water pipe, the middle-end on box surface right side is inlayed and is equipped with infrared ray sensor, the positive surface of box has the dodge gate through hinge swing joint, the left side of box and the left side of dodge gate have the iron lock through buckle swing joint.

With respect to the related art among the above, the inventors consider that the following technical drawbacks exist: the condition is urgent when the condition of a fire appears, and above-mentioned fire hydrant case passes through the iron-lock locking dodge gate for need unblock iron-lock earlier before opening the dodge gate, the waste time easily misses the opportunity of putting out a fire.

Disclosure of Invention

In order to make the chamber door be convenient for open, this application provides a fire-fighting engineering is with only fire hydrant case.

The application provides a pair of intelligent fire hydrant case for fire engineering adopts following technical scheme:

the utility model provides a fire engineering uses intelligent fire hydrant case, articulates the chamber door on the box including box and one end, be provided with one side open-ended in the box and put the thing chamber, it is provided with the locking piece to slide on the chamber door, set up the locking groove that supplies the locking piece embedding on putting the chamber wall in thing chamber, be fixed with the butt piece on the locking piece, it has the sliding hole to run through on the box, it is provided with in the thing chamber and is used for driving the butt piece so that the locking piece takes out the unlocking piece of locking groove, it is provided with the drive assembly who is used for driving the chamber door and opens to put in the thing chamber.

Through adopting above-mentioned technical scheme, when taking place the condition of a fire and need open the chamber door, pass the sliding hole and promote the unblock piece in order to drive the butt piece to drive the locking piece and take out from the locking groove, make the chamber door open. Compared with the unlocking iron lock before door opening, the door is convenient to open, time is saved, and a user has more time to use the fire fighting equipment in the fire hydrant cabinet to extinguish fire.

Optionally, the sliding hole is located the box and seted up on the lateral wall that locks the groove, and when the chamber door was closed, the extending direction of sliding hole is the same with the slip direction of locking piece, the sliding hole is just to the butt joint piece, it is provided with the unblock pole to slide in the sliding hole, the tip at the unblock piece is connected to the one end of unblock pole, the other end of unblock pole is located the outside of box.

Through adopting above-mentioned technical scheme, when needing to open the chamber door, promote earlier the unblock pole in order to drive the unblock piece for unblock piece and butt piece butt, then continue to promote the unblock pole, make the butt piece drive the locking piece and take out from locking the groove. Through the operation, a user can open the box door only by pushing the unlocking rod out of the box body, so that the operation is simple and convenient, and the time is saved.

Optionally, one end of the unlocking rod far-dissociation locking block is provided with a pushing block, an unlocking spring stretching along the extending direction of the sliding hole is sleeved on the unlocking rod, and the end of the unlocking spring abuts against the unlocking block and the outer wall of the adjacent box body respectively.

Through adopting above-mentioned technical scheme, when the promotion promotes the piece and takes out from locking groove with the drive locking piece, the compression of unblock spring. After the force applied to the pushing block is removed, the unlocking spring is restored, so that the unlocking block of the pushing block moves towards the direction close to the sliding hole, and the unlocking block is pushed next time.

Optionally, the driving assembly includes a driving block and a driving spring for pushing the driving block to move, and when the driving spring is in a natural state, the end of the driving block exceeds the opening of the storage cavity.

Through adopting above-mentioned technical scheme, after the locking piece is taken out from the locking groove, drive spring recovers and is the natural state to promote the drive block to the drive block tip surpass and put the opening of thing chamber, make the chamber door open under the promotion of drive block.

Optionally, a first guide block is fixed on the box body, a first guide groove is formed in the end face, close to the opening of the storage cavity, of the first guide block, the driving block is arranged in the first guide groove in a sliding mode, and two ends of the driving spring abut against the bottoms of the driving block and the first guide groove respectively.

Through adopting above-mentioned technical scheme, first guide way plays the guide effect to the drive block for the skew takes place for the drive block is difficult when promoting the chamber door, thereby promotes the pushing away door effect of drive block.

Optionally, an elastic member is arranged on the outer wall of the box body, one end of the elastic member is connected with the side wall of the box body, which is far away from the pushing block, the other end of the elastic member is connected with the box door, and when the box door is closed, the elastic member is in a stretching state.

Through adopting above-mentioned technical scheme, after the locking piece is taken out from the locking groove, the elastic component recovers to drive the chamber door and open, further promoted the condition that takes place the condition of a fire under, the speed that the chamber door was opened.

Optionally, be provided with the second guide block on the chamber door, the second guide block has been seted up on keeping away from the terminal surface of articulated department on, when the chamber door was closed, the extending direction of second guide way is the same with the extending direction of locking groove, the locking piece slides and sets up in the second guide way.

Through adopting above-mentioned technical scheme, the second guide way plays the guide effect to the locking piece, helps the locking piece to aim at the locking groove.

Optionally, be provided with the flexible locking spring of edge second guide way extending direction in the second guide way, the tank bottom at guide block and second guide way is connected respectively to the tip of locking spring, when chamber door closure and locking spring were in natural state, the tip embedding locking groove of locking block.

By adopting the technical scheme, after the box door is closed, the locking block is embedded into the lock hole under the action of the locking spring, so that the box door can be automatically locked.

Optionally, a guide inclined surface is arranged at an end of the locking block away from the locking spring, and a distance between the guide inclined surface and the adjacent side wall of the box door increases progressively along a direction from the locking block to the locking spring.

By adopting the technical scheme, when the box door is closed, the guide inclined plane is pressed on the side wall of the box body, so that the locking block moves towards the direction close to the locking spring, and the closing of the box door is facilitated.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a fire condition occurs and the door needs to be opened, the pushing block is pressed to push the unlocking block, so that the unlocking block is abutted against the abutting block, the pushing block is continuously pressed, the locking block is driven to be pulled out of the locking groove, the door is unlocked, and through the operation, a user can open the door by only pressing the pushing block, so that the time is saved, and the user can utilize fire fighting equipment in the fire hydrant to extinguish the fire condition earlier;

2. after the locking block is pulled out of the locking groove, the driving block pushes the box door to be opened under the action of the driving spring, meanwhile, the elastic piece is restored to pull the box door to be opened, the speed of opening the box door is increased, the box door is automatically opened after the box door is unlocked, and the time is further saved for a user;

3. when the box door is closed, the guide inclined plane is abutted against the side wall of the box body, so that the locking block moves towards the direction close to the locking spring, after the box door is closed, the locking spring drives the locking block to be embedded into the lock hole, and the locking spring and the guide inclined plane are favorable for closing and locking the box door.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Figure 2 is an exploded view highlighting the locking block in the embodiment of the application.

Fig. 3 is a schematic diagram highlighting the structure of the unlocking hole in the embodiment of the present application.

Fig. 4 is a schematic view for highlighting the structure of the sliding hole in the embodiment of the present application.

Fig. 5 is an exploded view highlighting a drive assembly in the practice of the present application.

Description of reference numerals: 1. a box body; 11. a storage cavity; 111. a locking groove; 12. a smoke alarm; 13. a slide hole; 2. a box door; 21. a second guide block; 211. a second guide groove; 212. a conduction groove; 22. a locking block; 221. a butting block; 222. a guide slope; 23. a locking spring; 24. a first guide block; 241. a first guide groove; 3. an unlocking lever; 31. unlocking the block; 32. a pushing block; 33. an unlocking spring; 4. a drive assembly; 41. a drive block; 42. a drive spring; 43. a guiding cambered surface; 5. a return spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses fire-fighting engineering uses intelligent fire hydrant case. Referring to fig. 1, fire engineering includes that box 1 and one end articulate chamber door 2 on box 1, is equipped with one side open-ended in the box 1 and puts thing chamber 11, puts thing chamber 11 and is used for placing fire-fighting equipment, and chamber door 2 is used for the closed opening of putting thing chamber 11. The smoke alarm 12 is arranged on the outer wall of the box body 1, and when the smoke concentration in the environment of the fire hydrant box reaches the set concentration of the smoke alarm 12, the smoke alarm 12 can send out an alarm signal

Referring to fig. 1 and 2, a second guide block 21 is fixed on the inner side of the door 2, and the second guide block is located at one end of the door 2 away from the hinge. The second guide block 21 is far away from the end face of the hinged part and is provided with a second guide groove 211, the end face of the guide block far away from the box body 1 is provided with a conduction groove 212 communicated with the second guide groove 211, and the extension direction of the conduction groove 212 is the same as that of the second guide groove 211.

Referring to fig. 1 and 2, the locking block 22 is slidably disposed in the second guide groove 211, the abutment block 221 is fixed to an end surface of the locking block 22 away from the door 2, the abutment block 221 is slidably disposed in the conduction groove 212, and an end portion of the abutment block 221 protrudes beyond an end surface of the second guide block 21 away from the door 2. A locking spring 23 which extends and contracts along the extending direction of the second guide groove 211 is arranged in the second guide groove 211, one end of the locking spring 23 is fixed at the groove bottom of the second guide groove 211, and the other end of the locking spring 23 is fixed at the end face of the locking block 22 close to the groove bottom of the second guide groove 211. The end of the locking block 22 away from the groove bottom of the second guide groove 211 is provided with a guide slope 222, and the distance between the guide slope 222 and the adjacent side wall of the door 2 increases progressively along the direction from the locking block 22 to the locking spring 23.

Referring to fig. 2 and 3, a locking groove 111 into which the locking block 22 is fitted is formed in the cavity wall of the storage cavity 11, and when the door 2 is closed, the extending direction of the locking groove 111 is the same as the extending direction of the second guide groove 211. When the door 2 is closed and the lock spring 23 is in a natural state, the end of the lock block 22 is fitted into the lock groove 111. When the door 2 is closed, the door 2 is pushed to be closed, and the guide slope 222 presses against the side wall of the box body 1, so that the locking block 22 moves towards the direction close to the locking spring 23, and the door 2 can be closed. After the door 2 is closed, the locking spring 23 is restored to push the locking block 22 to be inserted into the locking groove 111, thereby locking the door 2.

Referring to fig. 3 and 4, a sliding hole 13 penetrates through a side wall of the box body 1, where the locking groove 111 is formed, and when the box door 2 is closed, the sliding hole 13 extends along a sliding direction of the locking block 22, and the sliding hole 13 is aligned with the abutting block 221. The unlocking rod 3 is arranged in the sliding hole 13 in a sliding mode, the unlocking block 31 is fixed on one side, close to the article placing cavity 11, of the unlocking rod 3, the width of the unlocking block 31 is larger than the aperture of the sliding hole 13, and one end, far away from the unlocking block 31, of the unlocking rod 3 is located on the outer side of the box body 1. A pushing block 32 is screwed to one side of the unlocking lever 3 remote from the unlocking block 31, and the cross-sectional area of the pushing block 32 is larger than that of the unlocking lever 3. The unlocking rod 3 is sleeved with an unlocking spring 33, the unlocking spring 33 stretches along the extending direction of the sliding hole 13, one end of the unlocking spring 33 is fixed on the outer wall of the box body 1, and the other end of the unlocking spring 33 is fixed on the side wall, close to the box body 1, of the pushing block 32.

Referring to fig. 3 and 4, when the door 2 is opened, the pushing block 32 is pushed so that the unlocking block 31 moves in a direction away from the slide hole 13 to abut against the abutment block 221. As the user continues to press the push block 32, the unlocking block 31 pushes the abutting block 221 to move away from the sliding hole 13, thereby drawing the locking block 22 out of the locking groove 111, so that the door 2 can be opened. After the door 2 is opened, the unlocking spring 33 is reset, so that the unlocking block 31 moves to be abutted against the side wall of the box body 1 in the direction of approaching the sliding hole 13.

Referring to fig. 1, a first guide block 24 is fixed on the bottom wall of the storage cavity 11, and the first guide block 24 is located at one end of the bottom wall of the storage cavity 11 far away from the push block 32.

Referring to fig. 3 and 5, a first guide groove 241 is formed in an end surface of the first guide block 24 close to the opening of the storage cavity 11, and an extending direction of the first guide groove 241 is perpendicular to an extending direction of the locking groove 111. The first guide groove 241 is provided with a driving assembly 4 for driving the door 2 to open, the driving assembly 4 includes a driving block 41 slidably disposed in the first guide groove 241 and a driving spring 42 disposed in the first guide groove 241 and extending and contracting along the extending direction of the first guide groove 241, one end of the driving spring 42 is fixed on one side of the driving block 41 close to the driving spring 42, and the other end of the driving spring 42 is fixed on the bottom of the first guide groove 241. When the driving spring 42 is in a natural state, the end of the driving block 41 is beyond the opening of the storage compartment 11. The end of the driving block 41 away from the driving spring 42 is provided with a guide arc 43, the longitudinal sectional area of the guide arc 43 increases in the direction from the driving block 41 to the driving spring 42, and the guide arc 43 facilitates the opening and closing of the door 2.

Referring to fig. 3 and 5, after the locking block 22 is withdrawn from the locking groove 111, the driving spring 42 is restored to push the end of the driving block 41 beyond the opening of the storage compartment 11, thereby pushing the door 2 to be opened. The door 2 is opened through the driving component 4, so that the door 2 is automatically opened after a user unlocks the door 2, and the time for opening the door 2 is saved.

Referring to fig. 1 and 3, an elastic member for pulling the box door 2 is arranged on the outer wall of the box body 1, the elastic member may be a return spring 5 or a rubber block, and in the embodiment of the present application, the elastic member is the return spring 5. One end of the reset spring 5 is fixed on the end face of the box body 1 far away from the pushing block 32, the other end of the reset spring 5 is fixed on the outer wall of the box door 2, and the reset spring 5 is in a stretching state when the box door 2 is closed. After the locking block 22 is drawn out of the locking groove 111, the return spring 5 contracts to pull the door 2 to open, increasing the opening speed of the door 2 and further reducing the time for opening the door 2.

The embodiment of the application provides an implementation principle of intelligent fire hydrant case for fire engineering does: when the door 2 is closed, the guide slope 222 presses the sidewall of the casing 1, so that the locking block 22 moves toward the locking spring 23. After the door 2 is closed, the locking spring 23 is restored to drive the locking block 22 to be inserted into the locking groove 111. When the door 2 is opened, the pushing block 32 is pressed, so that the unlocking block 31 pushes the abutting block 221 to move away from the locking groove 111, and the locking block 22 is pulled out from the locking groove 111. After the locking block 22 is withdrawn from the locking groove 111, the return spring 5 pulls the door 2 to open, and the driving spring 42 is restored, so that the driving block 41 pushes the door 2 to open. Through the operation, the user only needs to press the pushing block 32, the box door 2 can be opened and can be opened quickly, time is saved, and the user can be helped to utilize the fire fighting equipment in the fire hydrant box earlier 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 (9)

1. The utility model provides a fire engineering uses intelligent fire hydrant case, articulates chamber door (2) on box (1) including box (1) and one end, be provided with one side open-ended in box (1) and put thing chamber (11), its characterized in that: sliding on chamber door (2) is provided with locking piece (22), set up locking groove (111) that supply locking piece (22) embedding on putting the chamber wall of thing chamber (11), be fixed with butt piece (221) on locking piece (22), it has sliding hole (13) to run through on box (1), it is provided with in thing chamber (11) and is used for driving butt piece (221) so that locking piece (22) take out unblock piece (31) of locking groove (111), it is provided with drive assembly (4) that are used for driving chamber door (2) and open to put in thing chamber (11).

2. A fire-fighting engineering intelligent fire hydrant cabinet according to claim 1, characterized in that: slide opening (13) are located box (1) and have been seted up on the lateral wall that locks groove (111), and when chamber door (2) were closed, the extending direction of slide opening (13) is the same with the slip direction of locking piece (22), slide opening (13) are just to butt joint piece (221), it is provided with unblock pole (3) to slide in slide opening (13), the tip at unblock piece (31) is connected to the one end of unblock pole (3), the other end of unblock pole (3) is located the outside of box (1).

3. A fire-fighting engineering intelligent fire hydrant cabinet according to claim 2, characterized in that: one end of the unlocking rod (3) far-dissociation locking block (31) is provided with a pushing block (32), an unlocking spring (33) stretching along the extending direction of the sliding hole (13) is sleeved on the unlocking rod (3), and the end part of the unlocking spring (33) abuts against the outer wall of the unlocking block (31) and the outer wall of the adjacent box body (1) respectively.

4. A fire-fighting engineering intelligent fire hydrant cabinet according to claim 1, characterized in that: the driving assembly (4) comprises a driving block (41) and a driving spring (42) for pushing the driving block (41) to move, and when the driving spring (42) is in a natural state, the end part of the driving block (41) exceeds the opening of the storage cavity (11).

5. A fire-fighting engineering intelligent fire hydrant cabinet according to claim 4, characterized in that: the box (1) is fixed with first guide block (24), first guide block (24) are close to and have first guide way (241) on putting thing chamber (11) open-ended terminal surface, drive block (41) slide and set up in first guide way (241), the bottom of drive block (41) and first guide way (241) is supported respectively at the both ends of drive spring (42).

6. A fire-fighting engineering intelligent fire hydrant cabinet according to claim 1, characterized in that: the outer wall of the box body (1) is provided with an elastic piece, one end of the elastic piece is connected with the side wall, far away from the pushing block (32), of the box body (1), the other end of the elastic piece is connected with the box door (2), and when the box door (2) is closed, the elastic piece is in a stretching state.

7. A fire-fighting engineering intelligent fire hydrant cabinet according to claim 1, characterized in that: be provided with second guide block (21) on chamber door (2), second guide way (211) have been seted up on articulated department's the terminal surface is kept away from in second guide block (21), when chamber door (2) were closed, the extending direction of second guide way (211) is the same with the extending direction who locks groove (111), locking piece (22) slide and set up in second guide way (211).

8. A fire-fighting engineering intelligent fire hydrant cabinet according to claim 7, characterized in that: be provided with in second guide way (211) along the flexible locking spring (23) of second guide way (211) extending direction, the tank bottom at guide block and second guide way (211) is connected respectively to the tip of locking spring (23), when chamber door (2) closure and locking spring (23) are in natural state, the tip embedding locking groove (111) of locking block (22).

9. A fire-fighting engineering intelligent fire hydrant cabinet according to claim 8, characterized in that: the end part, far away from the locking spring (23), of the locking block (22) is provided with a guide inclined surface (222), and the distance between the guide inclined surface (222) and the adjacent side wall of the box door (2) is gradually increased along the direction from the locking block (22) to the locking spring (23).

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