CN220023418U - Fire-fighting equipment fault analysis processing cabinet body - Google Patents

Abstract

The utility model relates to the technical field of fire-fighting equipment and discloses a fire-fighting equipment fault analysis processing cabinet body, which comprises a shell, wherein a top plate is fixedly arranged at the top of the shell, supporting feet are fixedly arranged around the bottom end of the shell, a door body is arranged on the shell, a driving structure is arranged at the top end of the interior of the shell, a fan is arranged below the driving structure, a guide structure is arranged between the fan and the driving structure, the driving structure is used for guiding the structure to displace, the guide structure drives the fan to do circular motion, the fan can effectively do circular motion while rotating through the driving structure and the guide structure, heat in the shell is sent out through a heat dissipation opening, the contact area of wind power generated by the fan and air is increased, the air flow rate is accelerated, an output shaft of a first motor rotates with a guide block, a second motor connected through a connecting rod rotates together, and the supporting frame swings together with the second motor, and therefore the fan on an output shaft of the second motor starts to do circular motion.

Description

Fire-fighting equipment fault analysis processing cabinet body

Technical Field

The utility model relates to the technical field of fire-fighting equipment, in particular to a fire-fighting equipment fault analysis processing cabinet body.

Background

The fire protection facility refers to a fire disaster automatic alarm system, an indoor fire hydrant, an outdoor fire hydrant, and other fixed facilities in a building, the automatic fire protection facility is divided into an electric system automatic facility and a water system automatic facility, the electric fire protection safety detection is based on modern physical phenomena of thermal radiation, acoustic emission, electromagnetic emission and the like of the electric facility in the operation process, and an international advanced high-technology instrument and equipment are adopted, and combined with a traditional detection method, the electric facility is subjected to omnibearing quantitative monitoring, so that existence, dangerous degree and accurate position of electric fire hidden danger are reflected more comprehensively, scientifically and accurately, corresponding corrective measures are provided in time, hidden danger is eliminated, electric fire accidents are avoided, fire protection is arranged and paved in various key places in daily life, in order to realize emergency treatment of fire disaster, daily maintenance is required for the fire protection facility, faults are avoided when fire protection equipment is used, the existing fire protection cabinet is not provided with a heat dissipation device, heat dissipation performance is poor, working efficiency of equipment in the cabinet is poor due to heat collection, and service life is reduced.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a fire-fighting equipment fault analysis processing cabinet body, which solves the problems.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a fire control facility fault analysis handles cabinet body, includes the casing, the top fixed mounting of casing has the roof, fixed mounting has the supporting legs all around the bottom of casing, be provided with the door body on the casing, the inside top of casing is provided with drive structure, and drive structure's below is provided with the fan, is provided with guide structure between fan and the drive structure, and drive structure is used for the guide structure displacement, and guide structure drive fan is circular motion.

Preferably, the drive structure is including first motor, mount pad, guide block and connecting rod, the inside top fixed mounting of casing has first motor, and the below of first motor is provided with the mount pad, and the mount pad sets up to the concave shape, and the output shaft of first motor runs through mount pad and fixedly connected with guide block, and the guide block sets up to the arc, and the curved decurrent end fixedly connected with connecting rod of guide block.

Preferably, the guide structure comprises a second motor, a support frame, a rotating shaft a and a rotating shaft b, wherein the second motor is fixedly arranged at the other end of the connecting rod, the rotating shaft b is fixedly arranged at two sides of the second motor, the support frame is arranged between the second motor and the mounting seat and is fixedly connected with the other end of the rotating shaft b, the rotating shaft a is rotatably connected at two sides of the support frame, and the other side of the rotating shaft a is fixedly connected with the mounting seat.

Preferably, the inside fixed mounting of casing has the baffle, and the top fixed mounting of baffle has control equipment, be provided with four control button on the control equipment, the inside of casing is located the below of baffle and sets up to the storing room.

Preferably, the shell is fixedly provided with two hinges, the shell is hinged with the door body through the hinges, the door body is fixedly provided with a handle, and the inside of the door body is positioned below the handle and is fixedly provided with a safety lock.

Preferably, four heat dissipation openings are formed in two sides of the shell, and guide plates are fixedly arranged in the heat dissipation openings.

(III) beneficial effects

Compared with the prior art, the utility model provides a fire-fighting equipment fault analysis processing cabinet body, which has the following beneficial effects:

1. this fire control facility fault analysis handles cabinet body through setting up drive structure and guide knot structure, can effectively make the fan be circular motion when rotatory, the area of contact of wind-force and air that the fan produced has been increased, staff starts first motor, the output shaft of first motor is carrying the guide block and is rotated, during the guide block rotates, the second motor that is connected through the connecting rod also can rotate together, support frame through fixed second motor is because with the mount pad rotation connection, so also can follow the second motor and swing together, the fan on the second motor output shaft begins to be circular motion from this, after the second motor starts, the fan begins to rotate and produces wind-force, send out the heat of casing inside through the thermovent, thereby accelerated the rate of air flow, avoid controlling equipment to cause the damage because of the heat collection when the operation, the life of casing internal equipment has been prolonged.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the interior of the housing of the present utility model;

fig. 3 is a schematic view of a fan according to the present utility model.

In the figure: 1. a housing; 2. a door body; 3. a top plate; 4. supporting feet; 5. a handle; 6. a safety lock; 7. a heat radiation port; 8. a guide plate; 9. a hinge; 10. a storage chamber; 11. a control device; 12. a control button; 13. a partition plate; 14. a first motor; 15. a mounting base; 16. a guide block; 17. a connecting rod; 18. a second motor; 19. a support frame; 20. a fan; 21. a rotating shaft a; 22. and a rotating shaft b.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, a fire-fighting equipment fault analysis cabinet body comprises a housing 1, a top plate 3 is fixedly arranged at the top of the housing 1, supporting feet 4 are fixedly arranged around the bottom end of the housing 1, a door body 2 is arranged on the housing 1, a driving structure is arranged at the top end of the interior of the housing 1, a fan 20 is arranged below the driving structure, a guiding structure is arranged between the fan 20 and the driving structure, the driving structure is used for guiding structural displacement, and the guiding structure drives the fan 20 to do circular motion.

Further, the driving structure comprises a first motor 14, a mounting seat 15, a guide block 16 and a connecting rod 17, wherein the first motor 14 is fixedly arranged at the top end of the interior of the shell 1, the mounting seat 15 is arranged below the first motor 14, the mounting seat 15 is arranged in a concave shape, an output shaft of the first motor 14 penetrates through the mounting seat 15 and is fixedly connected with the guide block 16, the guide block 16 is arranged in an arc shape, the connecting rod 17 is fixedly connected with the downward bent end of the guide block 16, the output shaft of the first motor 14 rotates with the guide block 16, and when the guide block 16 rotates, the second motor 18 connected through the connecting rod 17 also rotates together.

Further, the guiding structure comprises a second motor 18, a supporting frame 19, a rotating shaft a21 and a rotating shaft b22, the other end of the connecting rod 17 is fixedly provided with the second motor 18, the rotating shaft b22 is fixedly arranged at two sides of the second motor 18, the supporting frame 19 is arranged between the second motor 18 and the mounting seat 15, the supporting frame 19 is arranged into a square frame, the supporting frame 19 is fixedly connected with the other end of the rotating shaft b22, two sides of the supporting frame 19 are rotatably connected with the rotating shaft a21, the other side of the rotating shaft a21 is fixedly connected with the mounting seat 15, and the supporting frame 19 through fixing the second motor 18 is rotatably connected with the mounting seat 15 so as to also swing along with the second motor 18, so that a fan 20 on an output shaft of the second motor 18 starts to do circular motion.

Further, the inside fixed mounting of casing 1 has baffle 13, and the top fixed mounting of baffle 13 has control equipment 11, is provided with four control button 12 on the control equipment 11, and the inside of casing 1 is located the below of baffle 13 and sets up to storing room 10, and fan 20 is circular motion when rotatory, has accelerated the speed of air flow from this, avoids control equipment 11 to cause the damage because of the heat collection when the operation.

Further, two hinges 9 are fixedly installed on the shell 1, the shell 1 is hinged to the door body 2 through the hinges 9, a handle 5 is fixedly installed on the door body 2, and a safety lock 6 is fixedly installed below the handle 5 in the door body 2.

Further, four heat dissipation openings 7 are formed in two sides of the shell 1, a guide plate 8 is fixedly arranged in the heat dissipation openings 7, and when the second motor 18 is started, the fan 20 starts to rotate to generate wind power, so that heat in the shell 1 is sent out through the heat dissipation openings 7.

Working principle: when the intelligent air conditioner is used, a worker starts the first motor 14, the output shaft of the first motor 14 rotates with the guide block 16, the second motor 18 connected through the connecting rod 17 rotates together when the guide block 16 rotates, the support frame 19 for fixing the second motor 18 is rotationally connected with the mounting seat 15 to swing together with the second motor 18, the fan 20 on the output shaft of the second motor 18 starts to do circular motion, after the second motor 18 is started, the fan 20 starts to rotate to generate wind power, heat in the shell 1 is sent out through the heat dissipation opening 7, the fan 20 does circular motion while rotating, and therefore the air flow rate is accelerated, damage caused by heat collection when the control equipment 11 operates is avoided, and the service life of equipment in the shell 1 is prolonged.

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

Claims (6)

1. The utility model provides a fire control facility fault analysis handles cabinet body, includes casing (1), the top fixed mounting of casing (1) has roof (3), fixed mounting has supporting legs (4) all around in the bottom of casing (1), be provided with on casing (1) door body (2), its characterized in that: the inside top of casing (1) is provided with drive structure, and drive structure's below is provided with fan (20), is provided with guide structure between fan (20) and the drive structure, and drive structure is used for the guide structure displacement, and guide structure drives fan (20) to do circular motion.

2. The fire protection equipment failure analysis processing cabinet of claim 1, wherein: the driving structure comprises a first motor (14), a mounting seat (15), a guide block (16) and a connecting rod (17), wherein the first motor (14) is fixedly arranged at the top end of the inside of the shell (1), the mounting seat (15) is arranged below the first motor (14), the mounting seat (15) is arranged in a concave shape, an output shaft of the first motor (14) penetrates through the mounting seat (15) and is fixedly connected with the guide block (16), the guide block (16) is arranged in an arc shape, and the connecting rod (17) is fixedly connected with the end of the guide block (16) which is bent downwards.

3. The fire protection equipment failure analysis processing cabinet of claim 2, wherein: the guide structure comprises a second motor (18), a support frame (19), a rotating shaft a (21) and a rotating shaft b (22), wherein the second motor (18) is fixedly arranged at the other end of the connecting rod (17), the rotating shaft b (22) is fixedly arranged at two sides of the second motor (18), the support frame (19) and the support frame (19) are arranged between the second motor (18) and the mounting seat (15), the support frame (19) is fixedly connected with the other end of the rotating shaft b (22), the rotating shafts a (21) are rotatably connected at two sides of the support frame (19), and the other side of the rotating shaft a (21) is fixedly connected with the mounting seat (15).

4. The fire protection equipment failure analysis processing cabinet of claim 1, wherein: the inside fixed mounting of casing (1) has baffle (13), and the top fixed mounting of baffle (13) has control equipment (11), be provided with four control button (12) on control equipment (11), the inside of casing (1) is located the below of baffle (13) and sets up into storing room (10).

5. The fire protection equipment failure analysis processing cabinet of claim 1, wherein: two hinges (9) are fixedly installed on the shell (1), the shell (1) is hinged to the door body (2) through the hinges (9), a handle (5) is fixedly installed on the door body (2), and a safety lock (6) is fixedly installed below the handle (5) inside the door body (2).

6. The fire protection equipment failure analysis processing cabinet of claim 1, wherein: four heat dissipation openings (7) are formed in two sides of the shell (1), and guide plates (8) are fixedly arranged in the heat dissipation openings (7).