CN213125316U - Emergency power supply cabinet with radiating air duct structure - Google Patents

Abstract

The utility model provides an emergency power supply cabinet with heat dissipation air flue structure, including the power cabinet body, the supporting shoe, the cabinet door, the mount pad, the fresh air inlet, the louvre can peg graft air inlet cooling tube structure, and slidable adsorbs the cooling tube structure, observes the piece, connecting rod and hoisting ring, the supporting shoe respectively bolted connection in the lower extreme four corners position of the power cabinet body. The utility model discloses the mount, adsorb the ring, oblique T type cooling tube, the setting of the power cabinet body and louvre, be favorable to in-process using through louvre and mount cooperation, control oblique T type cooling tube about, the work is accomodate to oblique T type cooling tube to the in-process that conveniently uses, the air-supply line, the rubber circle, the setting of the power cabinet body and fresh air inlet, be favorable to pegging graft at the inside intermediate position of upside of fresh air inlet at the in-process that uses through the lower extreme of air-supply line, the work is dismantled to the air-supply line to the convenience in-process that uses, the convenience is cleared up and is maintained the work to the air.

Description

Emergency power supply cabinet with radiating air duct structure

Technical Field

The utility model belongs to the technical field of the power cabinet, especially, relate to an emergency power supply cabinet with radiating air duct structure.

Background

At present, an emergency power supply cabinet in an emergency lighting centralized power supply (emergency power supply special for fire-fighting emergency lamps) and the fire-fighting equipment emergency power supply industry does not have a complete heat dissipation system, a general cabinet body is closed, when power components (a power frequency inverter transformer, an inverter, a power resistor, a load switch, a power module and the like) work, the temperature can be quickly raised and a large amount of heat can be generated, the accumulated heat can enable the temperature of the components to continue rising, and if no good heat dissipation system exists, the safe operation of equipment and the service life of the components can be influenced. Therefore, an emergency power supply cabinet with a unique heat dissipation air duct structure and a ventilation device is designed.

But current power cabinet still has the in-process inconvenient cooling tube that carries on of using and accomodates work, and the inconvenient work of dismantling of air pipe and the inconvenient in-process that uses carries out air filter's problem.

Therefore, the emergency power supply cabinet with the heat dissipation air duct structure is very necessary to be invented.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an emergency power supply cabinet with heat dissipation air duct structure to there is the inconvenient work of accomodating of cooling tube that carries on in-process that uses in solving current power supply cabinet, and the inconvenient work of air pipe dismantlement of carrying on carries out gas filtration's problem with inconvenient in-process that uses. An emergency power cabinet with a radiating air duct structure comprises a power cabinet body, supporting blocks, a cabinet door, a mounting seat, an air inlet hole and radiating holes, wherein the air inlet cooling pipe structure can be inserted and adsorbed, the radiating pipe structure can be slidably adsorbed, an observation piece, a connecting rod and a hoisting ring; the cabinet door is hinged to the right side of the front surface of the power supply cabinet body; the mounting seats are sequentially connected to the inner wall of the rear surface of the power cabinet body through bolts from top to bottom; the air inlet is formed in the middle of the bottom end in the power cabinet body; the heat dissipation holes are formed in the upper portion of the left side of the power supply cabinet body; the pluggable air inlet cooling pipe structure is arranged in the middle of the inner part of the upper side of the air inlet hole; the slidable adsorption radiating pipe structure is arranged inside the radiating hole; the observation piece is embedded in the middle of the upper inner part of the cabinet door; the lower ends of the connecting rods are respectively in threaded connection with the middle positions of the left side and the right side of the upper end of the power cabinet body; the upper ends of the connecting rods are respectively welded in the middle of the lower ends of the hoisting rings; the pluggable air inlet cooling pipe structure comprises an air inlet pipe, a stainless steel mesh, an activated carbon adsorption layer, a blower assembly, a rubber ring and a nylon net, wherein the stainless steel mesh is respectively connected to the upper part of the inner wall of the air inlet pipe through screws; the activated carbon adsorption layer is arranged between the stainless steel nets; the blower assembly is sequentially bolted in the middle of the interior of the air inlet pipe from left to right; the rubber ring is sleeved at the lower part of the outer wall of the air inlet pipe; the nylon net screw is connected to the lower part of the inner wall of the air inlet pipe.

Preferably, the slidable adsorption heat dissipation tube structure comprises a fixing frame, an adsorption ring, an inclined T-shaped heat dissipation tube, a heat dissipation fan assembly, an adsorption ring and a magnet ring, wherein the adsorption ring is connected to the right side of the inner wall of the fixing frame through a bolt; the right side of the inclined T-shaped radiating pipe is inserted in the left side of the inside of the fixing frame in a sliding manner; the radiating fan assembly is connected to the middle position of the inner wall of the inclined T-shaped radiating pipe through a bolt; the right side of the inclined T-shaped radiating pipe is connected to the middle position of the left side of the adsorption ring through a bolt; the magnet ring is sleeved on the right side of the outer wall of the inclined T-shaped radiating pipe.

Preferably, the observation sheet is a transparent tempered glass sheet; and a sealing ring is arranged between the power supply cabinet body and the cabinet door.

Preferably, the blower assemblies are respectively arranged at the lower ends of the stainless steel nets; the nylon net is arranged at the lower end of the blower assembly; the air inlet pipe is a T-shaped stainless steel pipe.

Preferably, the lower end of the air inlet pipe is inserted in the middle of the inner part of the upper side of the air inlet hole, and a sealing ring is arranged at the joint; the rubber ring is arranged in the middle of the bottom end in the power cabinet body.

Preferably, the adsorption ring is a magnet ring; the adsorption ring and the adsorption ring are arranged in an adsorption manner; the adsorption ring is an iron ring with a paint layer coated on the surface.

Preferably, the fixing frame is connected to the upper part of the inner wall of the left side of the power cabinet body through bolts and is arranged corresponding to the heat dissipation holes; the inclined T-shaped radiating pipe penetrates through the radiating holes.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, the mount, adsorb the ring, oblique T type cooling tube, the setting of the power cabinet body and louvre is favorable to moving oblique T type cooling tube about through louvre and mount cooperation at the in-process that uses, the work is accomodate to oblique T type cooling tube to the in-process that uses to the convenience.

2. The utility model discloses in, the air-supply line, the rubber circle, the setting of the power cabinet body and fresh air inlet is favorable to pegging graft at the inside intermediate position of upside of fresh air inlet at the in-process that uses through the lower extreme of air-supply line, conveniently carries out air-supply line dismantlement work at the in-process that uses, conveniently clears up and maintains the work to the air-supply line.

3. The utility model discloses in, the air-supply line, the stainless steel net, the active carbon adsorption layer, the nylon wire, the setting of the power cabinet body and fresh air inlet is favorable to making gas filter and adsorb the work through nylon wire and stainless steel net and active carbon adsorption layer at the in-process that uses, falls the dust clearance in the gas, the convenient in-process that uses work of preventing dust, prevents that the dust from getting into the inside influence electrical equipment heat dissipation work of the power cabinet body.

4. The utility model discloses in, the mount, adsorb the ring, T type cooling tube to one side, adsorb the setting of circle and magnet circle, be favorable to adsorbing the setting through adsorbing the ring and adsorbing the circle at the in-process that uses, adsorb the mount through the magnet circle simultaneously, the in-process that conveniently uses carries out T type cooling tube fixed work to one side, prevents to slide the influence work at the in-process that uses T type cooling tube to one side.

5. The utility model discloses in, the air-supply line, the stainless steel net, the active carbon adsorption layer, the hair-dryer subassembly, the setting of rubber circle and nylon wire is favorable to the in-process that uses blowing work to the inside of the power cabinet body through the power that the hair-dryer subassembly during operation produced, the convenience increases the cooling effect that gas flow is favorable to improving electrical equipment at work.

6. The utility model discloses in, the mount, adsorb the ring, oblique T type cooling tube, the heat dissipation fan subassembly adsorbs the setting of circle and magnet circle, is favorable to the gas outgoing power cabinet body that the power that produces through the during operation of heat dissipation fan subassembly is heated with the internal portion of power cabinet at the in-process that uses, the in-process cooling work that conveniently dispels the heat at the use.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the pluggable air inlet cooling tube structure of the present invention.

Fig. 3 is a schematic structural view of the slidable adsorption heat dissipation tube structure of the present invention.

In the figure:

1. a power supply cabinet body; 2. a support block; 3. a cabinet door; 4. a mounting seat; 5. an air inlet hole; 6. heat dissipation holes; 7. an air inlet cooling pipe structure can be inserted; 71. an air inlet pipe; 72. a stainless steel mesh; 73. an activated carbon adsorption layer; 74. a blower assembly; 75. a rubber ring; 76. a nylon mesh; 8. a slidable adsorption heat dissipation tube structure; 81. a fixed mount; 82. an adsorption ring; 83. an inclined T-shaped radiating pipe; 84. a heat dissipation fan assembly; 85. an adsorption ring; 86. a magnetic ring; 9. an observation sheet; 10. a connecting rod; 11. and (6) hoisting a ring.

Detailed Description

The utility model is described in detail with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, an emergency power cabinet with a heat dissipation air channel structure comprises a power cabinet body 1, a supporting block 2, a cabinet door 3, a mounting seat 4, an air inlet 5, a heat dissipation hole 6, an air inlet cooling pipe structure 7, a slidable adsorption heat dissipation pipe structure 8, an observation sheet 9, a connecting rod 10 and a hoisting ring 11, wherein the supporting block 2 is respectively bolted at four corners of the lower end of the power cabinet body 1; the cabinet door 3 is hinged to the right side of the front surface of the power cabinet body 1; the mounting seat 4 is sequentially connected to the inner wall of the rear surface of the power cabinet body 1 through bolts from top to bottom; the air inlet 5 is formed in the middle of the bottom end in the power cabinet body 1; the heat dissipation hole 6 is formed in the upper portion of the left side of the power cabinet body 1; the pluggable air inlet cooling pipe structure 7 is arranged in the middle of the upper inside of the air inlet 5; the slidable adsorption heat dissipation pipe structure 8 is arranged inside the heat dissipation hole 6; the observation sheet 9 is embedded in the middle position of the upper inside of the cabinet door 3; the lower ends of the connecting rods 10 are respectively in threaded connection with the middle positions of the left side and the right side of the upper end of the power cabinet body 1; the upper ends of the connecting rods 10 are respectively welded in the middle of the lower ends of the hoisting rings 11; the pluggable air inlet cooling pipe structure 7 comprises an air inlet pipe 71, a stainless steel net 72, an activated carbon adsorption layer 73, a blower assembly 74, a rubber ring 75 and a nylon net 76, wherein the stainless steel net 72 is respectively screwed on the upper part of the inner wall of the air inlet pipe 71; the activated carbon adsorption layer 73 is arranged between the stainless steel nets 72; the blower assembly 74 is sequentially bolted at the middle position inside the air inlet pipe 71 from left to right; the rubber ring 75 is sleeved on the lower part of the outer wall of the air inlet pipe 71; the nylon net 76 is connected to the lower part of the inner wall of the air inlet pipe 71 through screws; install power control equipment at the positive surface of mount pad 4 when using, then install power cabinet body 1 in suitable position, the in-process of using is bloied the work to the inside of power cabinet body 1 through hair-dryer subassembly 74, makes the air flow at the in-process of electrical equipment work, and the in-process that flows at the air is cooled down the work to electrical equipment, conveniently cools down the work at the in-process of using, prevents electrical equipment high temperature influence work simultaneously.

In this embodiment, referring to fig. 3, the slidable adsorption heat dissipation tube structure 8 includes a fixing frame 81, an adsorption ring 82, an inclined T-shaped heat dissipation tube 83, a heat dissipation fan assembly 84, an adsorption ring 85 and a magnet ring 86, wherein the adsorption ring 82 is bolted to the right side of the inner wall of the fixing frame 81; the right side of the inclined T-shaped radiating pipe 83 is inserted in the left side of the inside of the fixed frame 81 in a sliding manner; the heat dissipation fan assembly 84 is bolted to the middle position of the inner wall of the inclined T-shaped heat dissipation pipe 83; the right side of the inclined T-shaped radiating pipe 83 is bolted at the middle position of the left side of the adsorption ring 85; the magnet ring 86 is sleeved on the right side of the outer wall of the inclined T-shaped radiating pipe 83; the inclined T-shaped radiating pipe 83 is pulled to the left side in the process of cooling the electrical equipment, the radiating fan assembly 84 is made to work, hot air inside the power cabinet body 1 is discharged through the inclined T-shaped radiating pipe 83, and the radiating work is conveniently carried out in the working process.

In this embodiment, specifically, the observation sheet 9 is a transparent tempered glass sheet; and a sealing ring is arranged between the power cabinet body 1 and the cabinet door 3.

In this embodiment, specifically, the blower assemblies 74 are respectively disposed at the lower ends of the stainless steel nets 72; the nylon mesh 76 is arranged at the lower end of the blower assembly 74; the air inlet pipe 71 is a T-shaped stainless steel pipe.

In this embodiment, specifically, the lower end of the air inlet pipe 71 is inserted into the middle position inside the upper side of the air inlet hole 5, and a sealing ring is arranged at the connection position; the rubber ring 75 is arranged in the middle of the bottom end inside the power cabinet body 1.

In this embodiment, specifically, the adsorption ring 82 is a magnet ring; the adsorption ring 82 and the adsorption ring 85 are arranged in an adsorption manner; the adsorption ring 85 is an iron ring with a paint layer coated on the surface.

In this embodiment, specifically, the fixing frame 81 is bolted to the upper part of the inner wall of the left side of the power cabinet 1 and is disposed corresponding to the heat dissipation hole 6; the inclined T-shaped heat dissipation pipe 83 penetrates through the heat dissipation hole 6.

Principle of operation

The utility model discloses in, install power control equipment at the positive surface of mount pad 4 when using, then install power cabinet body 1 in suitable position, the in-process of using is through the work of blowing of hair-dryer subassembly 74 to power cabinet body 1's inside, in-process at electrical equipment work makes the air flow, in-process at the air flow carries out the work of cooling down to electrical equipment, the work of cooling down is carried out to convenient in-process at the use, prevent electrical equipment high temperature influence work simultaneously, the in-process that cools down is carried out to electrical equipment draws oblique T type cooling tube 83 to the left side, and make heat dissipation fan subassembly 84 work, discharge the steam of power cabinet body 1 inside through oblique T type cooling tube 83, the work of conveniently dispelling the heat at the in-process of work.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (7)

1. The emergency power supply cabinet with the heat dissipation air channel structure is characterized by comprising a power supply cabinet body (1), supporting blocks (2), a cabinet door (3), a mounting seat (4), an air inlet hole (5), heat dissipation holes (6), an air inlet cooling pipe structure (7), a slidable adsorption heat dissipation pipe structure (8), an observation piece (9), a connecting rod (10) and a hoisting ring (11), wherein the supporting blocks (2) are respectively bolted at four corners of the lower end of the power supply cabinet body (1); the cabinet door (3) is hinged to the right side of the front surface of the power supply cabinet body (1); the mounting seat (4) is sequentially connected to the inner wall of the rear surface of the power cabinet body (1) through bolts from top to bottom; the air inlet hole (5) is formed in the middle of the bottom end in the power cabinet body (1); the heat dissipation holes (6) are formed in the upper portion of the left side of the power supply cabinet body (1); the pluggable air inlet cooling pipe structure (7) is arranged in the middle of the upper inner part of the air inlet hole (5); the slidable adsorption heat dissipation pipe structure (8) is arranged inside the heat dissipation hole (6); the observation sheet (9) is embedded in the middle position inside the upper side of the cabinet door (3); the lower ends of the connecting rods (10) are respectively in threaded connection with the middle positions of the left side and the right side of the upper end of the power cabinet body (1); the upper ends of the connecting rods (10) are respectively welded in the middle of the lower ends of the hoisting rings (11); the pluggable air inlet cooling pipe structure (7) comprises an air inlet pipe (71), a stainless steel net (72), an activated carbon adsorption layer (73), a blower assembly (74), a rubber ring (75) and a nylon net (76), wherein the stainless steel net (72) is respectively connected to the upper part of the inner wall of the air inlet pipe (71) through screws; the activated carbon adsorption layer (73) is arranged between the stainless steel nets (72); the blower assembly (74) is sequentially bolted at the middle position inside the air inlet pipe (71) from left to right; the rubber ring (75) is sleeved at the lower part of the outer wall of the air inlet pipe (71); the nylon net (76) is connected to the lower part of the inner wall of the air inlet pipe (71) through screws.

2. The emergency power cabinet with the heat dissipation air channel structure as claimed in claim 1, wherein the slidable adsorption heat dissipation tube structure (8) comprises a fixing frame (81), an adsorption ring (82), an inclined T-shaped heat dissipation tube (83), a heat dissipation fan assembly (84), an adsorption ring (85) and a magnet ring (86), wherein the adsorption ring (82) is bolted to the right side of the inner wall of the fixing frame (81); the right side of the inclined T-shaped radiating pipe (83) is inserted in the left side of the inside of the fixed frame (81) in a sliding manner; the radiating fan assembly (84) is connected to the middle position of the inner wall of the inclined T-shaped radiating pipe (83) through bolts; the right side of the inclined T-shaped radiating pipe (83) is connected to the middle position of the left side of the adsorption ring (85) through a bolt; the magnet ring (86) is sleeved on the right side of the outer wall of the inclined T-shaped radiating pipe (83).

3. The emergency power cabinet with the heat dissipation air duct structure as claimed in claim 1, wherein the observation plate (9) is a transparent tempered glass plate; and a sealing ring is arranged between the power supply cabinet body (1) and the cabinet door (3).

4. The emergency power cabinet with the heat dissipation air channel structure as claimed in claim 1, wherein the blower assemblies (74) are respectively disposed at lower ends of the stainless steel nets (72); the nylon net (76) is arranged at the lower end of the blower assembly (74); the air inlet pipe (71) is a T-shaped stainless steel pipe.

5. The emergency power cabinet with the heat dissipation air duct structure as claimed in claim 1, wherein the lower end of the air inlet pipe (71) is inserted in the middle of the inside of the upper side of the air inlet hole (5) and a sealing ring is arranged at the joint; the rubber ring (75) is arranged in the middle of the bottom end of the power cabinet body (1).

6. The emergency power cabinet with the heat dissipation air duct structure as claimed in claim 2, wherein the adsorption ring (82) is a magnet ring; the adsorption ring (82) and the adsorption ring (85) are arranged in an adsorption way; the adsorption ring (85) is an iron ring with a paint layer coated on the surface.

7. The emergency power cabinet with the heat dissipation air duct structure as claimed in claim 2, wherein the fixing frame (81) is bolted to the upper portion of the inner wall of the left side of the power cabinet body (1) and is arranged corresponding to the heat dissipation holes (6); the inclined T-shaped radiating pipe (83) penetrates through the radiating hole (6).

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