CN219875170U - Power supply device for fire control monitoring - Google Patents

Abstract

The utility model discloses a power supply device for fire control monitoring, which relates to the field of fire control power supplies and comprises a main body, wherein two groups of first grooves are formed in the front surface of the main body and close to the bottom, a heat dissipation mechanism is arranged in the first grooves and close to the edges, a storage battery is placed in the first grooves and positioned in the heat dissipation mechanism, a second groove is formed in the front surface of the main body and positioned at the top, a positioning mechanism is arranged between the inner side walls of the second grooves and positioned at the middle position, and the heat dissipation mechanism comprises a first bracket and a second bracket; the utility model has the advantages that: through making the air current at the inside top-down removal of first recess to can make the air current encircle the battery surface, increase the nearby air current flow rate of battery, effectual increase radiating effect inserts in proper order a plurality of groups fire control monitoring's wiring end to corresponding jack inside through the constant head tank, can make fire control monitoring's wiring end distribute more orderly.

Description

Power supply device for fire control monitoring

Technical Field

The utility model relates to the field of fire-fighting power supplies, in particular to a power supply device for fire-fighting monitoring.

Background

The fire-fighting power supply is suitable for providing concentrated power for evacuation lighting and other important primary power supply loads when a building is in fire, when alternating current mains supply is normal, the alternating current mains supply supplies power to the important loads through the mutual switching device, when the alternating current mains supply is powered off, the mutual switching device immediately switches to the inverter for supplying power, the power supply time is determined by the capacity of the storage battery, and when the mains voltage is recovered, the emergency power supply is recovered to the mains supply.

However, the power supply device for fire control monitoring in the prior art has poor heat dissipation effect of the storage battery for power supply inside the power supply device.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a power supply device for fire control monitoring, which can enable air flow to move from top to bottom in a first groove, so that the air flow can encircle the surface of a storage battery, the flow speed of the air flow near the storage battery is increased, and the heat dissipation effect is effectively increased.

In order to solve the technical problem, the technical scheme of the utility model is that the power supply device for fire control monitoring comprises a main body, wherein two groups of first grooves are formed in the front side of the main body and close to the bottom, a heat dissipation mechanism is arranged in the first grooves and close to the edge, a storage battery is placed in the first grooves and positioned in the heat dissipation mechanism, a second groove is formed in the front side of the main body and positioned at the top, and a positioning mechanism is arranged between the inner side walls of the second grooves and positioned at the middle position.

As a further aspect of the utility model: the heat dissipation mechanism comprises a first support and a second support, a bottom plate is arranged at the bottom end inside the first groove, support plates are arranged at the two ends of the first support and the second support, a first fan is arranged at the top of the first support, and a second fan is arranged at the bottom of the second support.

As a further aspect of the utility model: the inside bottom of first recess just is located first support and second support below position and has all been offered a plurality of groups wind grooves, be provided with the desiccator between first support and the first recess inside wall, first recess notch position is provided with vertical apron.

As a further aspect of the utility model: the storage battery is arranged inside the first groove through the bottom plate, and the first bracket is arranged between the bottom plate and the inner side wall of the first groove through the support plate.

As a further aspect of the utility model: the positioning mechanism comprises a partition plate, transverse grooves are formed in the upper end of the partition plate and located in the middle, positioning grooves are symmetrically formed in the two inner side walls of the transverse grooves, positioning plates are inserted in the upper end of the partition plate and located above the positioning grooves, wire grooves are formed in the two side walls of the main body and located at the top, and transverse cover plates are arranged at the notch positions of the second grooves.

As a further aspect of the utility model: the inside bottom of second recess is provided with the wiring board, wiring board upper end just is located the constant head tank below position and is provided with the jack.

The technical scheme is adopted: the wiring end of fire control is connected with the jack through positioning mechanism, wherein the battery passes through wiring board and jack electric connection, afterwards this power supply unit provides the electric energy for the operation of fire control, when this power supply unit normally works, start first fan and second fan simultaneously, first fan is through the fan duct with the air current through the dry board suction first recess inside, wherein the dry board can absorb the moisture in the air current and make it keep dry, because first fan is located first support top, the second fan is located second support bottom, the air current removes to first recess top position through first fan, afterwards the air current removes to first recess bottom position under the effect of the suction force of second fan, thereby make the air current remove first recess through second fan, through above-mentioned operation, can make the air current remove at the inside top-down of first recess, thereby can make the air current encircle the battery surface, increase near air current flow velocity, the effectual increase radiating effect of battery.

The wiring terminal of the fire control monitor is moved to the inside of the second groove through the wire slot, then the diaphragm is penetrated through the transverse slot, then the wiring terminal of the fire control monitor is moved to the position above the jack along the positioning slot, the wiring terminal of the fire control monitor is inserted into the corresponding jack arranged at the upper end of the patch board, and then the positioning plate is inserted on the partition plate and positioned at one side of the fire-fighting monitoring wiring terminal to position the fire-fighting monitoring wiring terminal, and through the operation, a plurality of groups of fire-fighting monitoring wiring terminals are sequentially inserted into the corresponding jacks through the positioning grooves, so that the distribution of the fire-fighting monitoring wiring terminals is more orderly.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a power supply device for fire monitoring;

FIG. 2 is a schematic view of a partial structure of the interior of a power supply device for fire monitoring;

FIG. 3 is a schematic view of the structure of a first bracket and a base plate of a power supply device for fire monitoring;

fig. 4 is a schematic structural view of a partition of a power supply device for fire monitoring.

In the figure: 1. a main body; 2. a vertical cover plate; 3. a first groove; 4. a storage battery; 5. a heat dissipation mechanism; 6. a first bracket; 7. a support plate; 8. a first fan; 9. a second bracket; 10. a second fan; 11. a bottom plate; 12. a wind groove; 13. a drying plate; 14. a second groove; 15. a patch board; 16. a jack; 17. a positioning mechanism; 18. a partition plate; 19. a transverse groove; 20. a positioning groove; 21. a positioning plate; 22. a wire slot; 23. and a transverse cover plate.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a power supply unit for fire control, includes main part 1, and main part 1 openly just is close to bottom position and has seted up two sets of first recess 3, and first recess 3 is inside just to be close to the border position and is provided with cooling mechanism 5, and battery 4 has been placed to inside just being located cooling mechanism 5 of first recess 3, and main part 1 openly just is located the top position and has seted up second recess 14, just is located intermediate position between the inside wall of second recess 14 and is provided with positioning mechanism 17.

Referring to fig. 2 and 3, the heat dissipation mechanism 5 includes a first bracket 6 and a second bracket 9, a bottom plate 11 is disposed at the bottom end inside the first groove 3, support plates 7 are disposed at two ends of the first bracket 6 and the second bracket 9, a first fan 8 is disposed at the top position of the first bracket 6, and a second fan 10 is disposed at the bottom position of the second bracket 9.

A plurality of groups of air grooves 12 are formed in the bottom end inside the first groove 3 and below the first bracket 6 and the second bracket 9, a drying plate 13 is arranged between the first bracket 6 and the inner side wall of the first groove 3, and a vertical cover plate 2 is arranged at the notch position of the first groove 3.

The battery 4 is arranged inside the first groove 3 through the bottom plate 11, and the first bracket 6 is arranged between the bottom plate 11 and the inner side wall of the first groove 3 through the support plate 7.

When the fire-fighting monitoring terminal is used, a worker is connected with the jack 16 through the positioning mechanism 17, the storage battery 4 is electrically connected with the jack 16 through the wiring board 15, then the power supply device provides electric energy for fire-fighting monitoring operation, when the power supply device works normally, the first fan 8 and the second fan 10 are started simultaneously, the first fan 8 sucks air flow into the first groove 3 through the drying plate 13 through the air groove 12, the drying plate 13 can absorb moisture in the air flow to keep the air flow dry, the second fan 10 is positioned at the bottom of the second bracket 9 because the first fan 8 is positioned at the top of the first bracket 6, the air flow moves to the top of the first groove 3 through the first fan 8, then moves to the bottom of the first groove 3 under the suction force of the second fan 10, so that the air flow moves around the surface of the storage battery 4, then the air flow moves out of the first groove 3 through the second fan 10, through the operation, the air flow can move from top down inside the first groove 3, so that the air flow around the surface of the storage battery 4 can be increased, and the heat dissipation effect is effectively increased.

Example two

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a power supply unit for fire control, is including being provided with base 1 of two sets of backup pads 7, and backup pad 7 lateral wall is provided with the flitch 10, and a lateral wall and the both ends position all are provided with baffle 11 about being located of backup pad 7 are kept away from to the flitch 10, and the flitch 10 lateral wall just is close to the corner position and all is provided with splint 13.

Referring to fig. 4, the positioning mechanism 17 includes a partition 18, a transverse slot 19 is formed at an upper end of the partition 18 and located at a middle position, positioning slots 20 are symmetrically formed at two inner sidewalls of the transverse slot 19, a positioning plate 21 is inserted at an upper end of the partition 18 and located above the positioning slots 20, a wire slot 22 is formed at two sidewalls of the main body 1 and located at a top position, and a transverse cover plate 23 is disposed at a notch position of the second groove 14.

The inside bottom of second recess 14 is provided with wiring board 15, and wiring board 15 upper end just is located the constant head tank 20 below position and is provided with jack 16.

Specifically, the terminal of the fire monitor is moved to the inside of the second groove 14 through the wire slot 22, then penetrates through the partition 18 through the transverse slot 19, then is moved to the position above the jack 16 along the positioning slot 20, is inserted into the corresponding jack 16 formed at the upper end of the patch board 15, and then the positioning plate 21 is inserted on the partition 18 and positioned at one side of the fire-fighting monitoring terminals to position the fire-fighting monitoring terminals, and through the operation, a plurality of groups of fire-fighting monitoring terminals are sequentially inserted into the corresponding jacks 16 through the positioning grooves 20, so that the distribution of the fire-fighting monitoring terminals is more orderly.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the utility model, and yet fall within the scope of the utility model.

Claims (6)

1. A power supply device for fire control monitoring, comprising a main body (1), characterized in that: two sets of first recesses (3) have been seted up in main part (1) openly and be close to the bottom position, inside and be close to the border position of first recess (3) are provided with cooling mechanism (5), battery (4) have been placed in inside and being arranged in cooling mechanism (5) of first recess (3), second recess (14) have been seted up in main part (1) openly and be arranged in the top position, between second recess (14) inside wall and be arranged in intermediate position be provided with positioning mechanism (17).

2. A power supply device for fire monitoring according to claim 1, characterized in that: the heat dissipation mechanism (5) comprises a first support (6) and a second support (9), a bottom plate (11) is arranged at the bottom end inside the first groove (3), support plates (7) are arranged at the two ends of the first support (6) and the two ends of the second support (9), a first fan (8) is arranged at the top position of the first support (6), and a second fan (10) is arranged at the bottom position of the second support (9).

3. A power supply device for fire monitoring according to claim 2, characterized in that: a plurality of groups of air grooves (12) are formed in the bottom end inside the first groove (3) and located below the first support (6) and the second support (9), a drying plate (13) is arranged between the first support (6) and the inner side wall of the first groove (3), and a vertical cover plate (2) is arranged at the notch position of the first groove (3).

4. A power supply for fire monitoring as claimed in claim 3, wherein: the storage battery (4) is arranged inside the first groove (3) through the bottom plate (11), and the first bracket (6) is arranged between the bottom plate (11) and the inner side wall of the first groove (3) through the support plate (7).

5. A power supply device for fire monitoring according to claim 1, characterized in that: positioning mechanism (17) are including baffle (18), baffle (18) upper end and be located intermediate position and have seted up transverse groove (19), constant head tank (20) have all been seted up to transverse groove (19) both inner walls symmetry, baffle (18) upper end and be located constant head tank (20) top position and insert and have had locating plate (21), wire casing (22) have all been seted up in main part (1) both sides wall and are located top position, second recess (14) notch position is provided with transverse cover plate (23).

6. A power supply for fire monitoring as defined in claim 5, wherein: the inside bottom of second recess (14) is provided with wiring board (15), wiring board (15) upper end just is provided with jack (16) below being located constant head tank (20).