CN219019339U - Heat dissipation type uninterrupted power source rack - Google Patents

Abstract

The application relates to a heat dissipation type uninterruptible power supply cabinet, it includes the mounting bracket, mounting bracket one side articulates there is the cabinet door, cabinet door one side fixedly connected with first mounting panel is kept away from to the mounting bracket, the equal fixedly connected with curb plate in mounting bracket both sides, two curb plates are close to each other equal fixedly connected with of one side slide bar and lower slide bar, lower slide bar is located slide bar position department under the position, two lower slide bars are smooth being used for rectifying module and inverter module radiating heat abstractor jointly, heat abstractor is located between slide bar and the lower slide bar, the slide outlet that is used for making heat abstractor shift out uninterruptible power supply cabinet has been seted up to first mounting panel. The heat dissipation efficiency of the rectifier module and the inverter module in the uninterruptible power supply cabinet is improved.

Description

Heat dissipation type uninterrupted power source rack

Technical Field

The application relates to the field of power distribution facilities, in particular to a heat dissipation type uninterruptible power supply cabinet.

Background

The uninterrupted power supply is a power supply device with an energy storage device, the energy storage device is usually a storage battery, and the uninterrupted power supply is a constant-voltage constant-frequency power supply device with an inverter as a main component. The uninterruptible power supply cabinet is a power distribution facility for installing an uninterruptible power supply.

The prior uninterrupted power supply cabinet is generally provided with various electric modules, each electric module comprises an inversion module and a rectification module, the interior of the prior uninterrupted power supply cabinet is also provided with a heat dissipation device for reducing the heat of the inversion module and the rectification module and providing heat dissipation for the whole device, the heat dissipation device generally adopts an exhaust fan, and a vent is arranged on a side plate for ventilation and heat dissipation.

For the related art, the inventor finds that the existing uninterruptible power supply cabinet has insufficient heat dissipation level, and particularly an exhaust fan installed in the uninterruptible power supply cabinet is difficult to dissipate heat of the rectifying module and the inverting module, so that the temperature in the uninterruptible power supply cabinet is difficult to reduce effectively.

Disclosure of Invention

In order to improve the radiating efficiency of rectifier module and inverter module in the uninterrupted power supply rack, this application provides a radiating uninterrupted power supply rack.

The application provides a heat dissipation formula uninterrupted power source rack adopts following technical scheme:

the utility model provides a heat dissipation type uninterrupted power source rack, including the mounting bracket, mounting bracket one side articulates there is the cabinet door, mounting bracket keeps away from cabinet door one side fixedly connected with first mounting panel, the equal fixedly connected with curb plate in mounting bracket both sides, two curb plates are close to each other equal fixedly connected with in one side slide bar and lower slide bar, the lower slide bar is located slide bar position department under the position, two lower slide bars are smooth being equipped with jointly and are used for rectifying module and inverter module radiating heat abstractor, heat abstractor is located between slide bar and the lower slide bar, the smooth export that is used for making heat abstractor shift out uninterrupted power source rack has been seted up to first mounting panel.

Through adopting above-mentioned technical scheme, when the user uses, slide out the mouth with heat abstractor along slide bar length direction outside the uninterrupted power source rack down from the first mounting panel, drive rectifier module and inverter module and remove outside the uninterrupted power source rack to improve rectifier module and inverter module and outside air's area of contact to improve inverter module and rectifier module's radiating efficiency.

Optionally, heat abstractor includes two dustproof otter board, and dustproof otter board slides and locates between slide bar and the lower slide bar, fixedly connected with grid board between two dustproof otter boards, rectifier module and contravariant module fixedly connected with grid board top, the common fixedly connected with heating panel in two dustproof otter board bottoms, heating panel fixedly connected with heat dissipation fan.

Through adopting above-mentioned technical scheme, when the user uses, two dustproof otter boards of pulling slide along lower slide bar length direction, outside the roll-off mouth roll-off to uninterrupted power source rack of follow first mounting panel. The dustproof screen plate moves to drive the grid plate, the heat dissipation fan, the rectifying module and the inversion module to move outside the uninterruptible power supply cabinet together, so that the contact area between the rectifying module and the inversion module and the outside air is increased. And the radiating fan is started, and the flowing speed of air around the rectifying module and the inversion module is accelerated, so that the radiating efficiency of the rectifying module and the inversion module is improved, and the fire hazard caused by insufficient radiating is avoided.

Optionally, the grid board is kept away from cabinet door one end fixedly connected with dust separation otter board, and dust separation otter board covers the smooth export setting, and dust separation otter board is kept away from cabinet door one side fixedly connected with pull rod.

By adopting the technical scheme, when a user uses the device, the pull rod is pulled to drive the dust-isolation net plate to move so as to drive the grid plate, the dust-isolation net plate, the heat dissipation fan, the rectifying module and the inversion module to move, and the device is convenient for the user to use because the device moves outside the uninterrupted power supply cabinet from the sliding outlet of the first mounting plate; meanwhile, when the grid plate is positioned in the uninterruptible power supply cabinet, external air can enter the uninterruptible power supply cabinet through the dust-separation net plate, so that the air flow speed is improved, and dust in the air can be prevented from entering the uninterruptible power supply cabinet.

Optionally, dustproof shade is articulated on dust separation otter board top, and dustproof shade covers the grid plate setting, and dustproof shade can the butt in two dustproof otter board tops.

Through adopting the technical scheme, when a user uses the anti-dust grid device, the grid plate, the dustproof mesh plate and the dustproof mesh plate are moved out of the uninterruptible power supply cabinet, the dustproof mesh plate covers the whole grid plate and is abutted to the top ends of the two dustproof mesh plates, and dust in the air can be prevented from falling into the inversion module and the rectification module on the grid plate; meanwhile, when the user needs to adjust the inversion module and the rectification module, the dustproof screen plate can be opened along the hinged position in a rotating mode, the inversion module and the rectification module are directly adjusted, and the situation that the adjustment is blocked by a staggered line from the direction of the cabinet door is avoided.

Optionally, the first mounting panel is kept away from cabinet door one side and is rotated and be connected with the separation blade, and the separation blade is located first mounting panel and is close to slide outlet position department, and the separation blade can the butt in the dust separation otter board.

Through adopting above-mentioned technical scheme, when the user uses, can rotate the separation blade, make the separation blade keep away from and rotate tie point one end and move to first mounting panel and correspond the slide out position, block contravariant module and rectifier module and shift out in the uninterrupted power source rack, avoid the maloperation to lead to uninterrupted power source rack internal circuit damage during the work use.

Optionally, an exhaust fan is fixedly connected to the position, close to the top, of each side plate.

Through adopting above-mentioned technical scheme, when the user uses, open the air discharge fan, the air discharge fan will uninterrupted power source rack top hot air discharge uninterrupted power source rack, simultaneously under the atmospheric pressure effect, external cold air gets into uninterrupted power source rack from the dust separation otter board in, accelerates the air flow to improve uninterrupted power source rack internal radiating efficiency.

Optionally, every curb plate corresponds equal fixedly connected with right angle blast pipe in exhaust fan position department, and two right angle blast pipes are fixed to be connected in two curb plates direction one side that keeps away from each other respectively, and the air intake of right angle blast pipe is located curb plate and corresponds exhaust fan position department, and the air outlet of right angle blast pipe is vertical to set up downwards.

Through adopting above-mentioned technical scheme, when the user uses, get into the right angle blast pipe by the air intake of exhaust fan exhaust hot air from the right angle blast pipe and discharge by the air outlet again, because the vertical downward setting of air outlet of right angle blast pipe can reduce the dust in the air and fall into uninterruptible power supply rack from the right angle blast pipe, reduce the dust accumulation in the uninterruptible power supply rack, keep clean.

Optionally, each of the right-angle exhaust pipes has an inner wall corresponding to the position of the air outlet and is fixedly connected with a dust screen, and the dust screen covers the air outlet of the right-angle exhaust pipe.

Through adopting above-mentioned technical scheme, when the user uses, exhaust fan exhaust hot air is through dust screen exhaust uninterrupted power source rack from the air outlet of right angle blast pipe, and dust screen can prevent the dust in the air from right angle blast pipe entering uninterrupted power source rack, prevents that the dust in the uninterrupted power source rack from piling up and influencing the heat dissipation.

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

1. the design of the lower slide bar, the heat radiation plate, the heat radiation fan, the dustproof screen plate, the grid plate and the slide outlet increases the contact area between the rectifying module and the inversion module and the outside air, improves the air flow speed around the rectifying module and the inversion module, and effectively improves the heat radiation efficiency;

2. the design of the dustproof screen plate, the dustproof screen plate and the dustproof shade can reduce dust in the air from falling into the inversion module and the rectification module, and keep the inversion module and the rectification module clean;

3. the design of air discharge fan and right angle blast pipe can improve the air flow rate in the uninterrupted power source rack to improve the radiating efficiency in the uninterrupted power source rack.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a cross-sectional view of a right-angle exhaust pipe of an embodiment of the present application;

FIG. 3 is a cross-sectional view of the overall structure of an embodiment of the present application;

FIG. 4 is a schematic view of a baffle structure according to an embodiment of the present application;

fig. 5 is an enlarged view of a portion a in fig. 4.

Reference numerals illustrate; 1. a mounting frame; 2. a top plate; 3. a bottom plate; 4. a cabinet door; 5. a side plate; 51. an upper slide bar; 52. a lower slide bar; 521. a stop block; 6. a first mounting plate; 61. a slide outlet; 62. a baffle; 7. a heat sink; 71. a grid plate; 711. dust-proof screen board; 712. a dust-proof mask; 713. a pull rod; 72. a dust-proof screen; 73. a heat dissipation plate; 74. a heat dissipation fan; 8. an exhaust fan; 81. a right-angle exhaust pipe; 811. a dust-proof net.

Detailed Description

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

The embodiment of the application discloses a heat dissipation type uninterruptible power supply cabinet. Referring to fig. 1 and 2, a heat dissipation type uninterruptible power supply cabinet comprises a mounting frame 1, wherein a top plate 2 is fixedly connected to the top of the mounting frame 1, a bottom plate 3 is fixedly connected to the bottom of the mounting frame 1, a cabinet door 4 is hinged to one side of the mounting frame 1, a first mounting plate 6 is fixedly connected to one side of the mounting frame 1 away from the cabinet door 4, side plates 5 are fixedly connected to two sides of the mounting frame 1, and the side plates 5 are located between the cabinet door 4 and the first mounting plate 6.

Referring to fig. 2, each side plate 5 is close to the top plate 2, the exhaust fan 8 is fixedly connected to the side plate 5 corresponding to the middle position of the side plate, the two exhaust fans 8 are fixedly connected to one sides of the two side plates 5 corresponding to the two side plates 5 in the mutually approaching direction, each side plate 5 is fixedly connected with the right-angle exhaust pipe 81 corresponding to the position of the corresponding exhaust fan 8, the two right-angle exhaust pipes 81 are respectively and fixedly connected to one sides of the mutually separating directions of the two side plates 5, the air inlet of the right-angle exhaust pipe 81 is positioned at the position of the side plate 5 corresponding to the exhaust fan 8, the air outlet of the right-angle exhaust pipe 81 is vertically downwards arranged, the dust screen 811 is fixedly connected to the inner wall of each right-angle exhaust pipe 81, and the dust screen 811 covers the air outlet of the right-angle exhaust pipe 81.

When a user uses the air discharge fan, the air discharge fan 8 is started, hot air in the uninterruptible power supply cabinet is discharged from the right-angle air discharge pipe 81, external cold air flows into the uninterruptible power supply cabinet through the dust separation net plate 711 under the action of air pressure, the air flow speed in the uninterruptible power supply cabinet is accelerated, the heat radiation efficiency is improved, and the overhigh temperature in the uninterruptible power supply cabinet is avoided. The vertical downward setting of right angle blast pipe 81 air outlet can prevent the dust in the air to fall into uninterrupted power source rack along right angle blast pipe 81, and dust screen 811 of right angle blast pipe 81 air outlet position department can reduce the dust that gets into uninterrupted power source rack, keeps the inside cleanness of uninterrupted power source rack, avoids dust to pile up and influences the heat dissipation.

Referring to fig. 3 and 4, an upper slide bar 51 is fixedly connected to one side of each of the two side plates 5 adjacent to each other, the upper slide bar 51 is fixedly connected to the side plate 5 adjacent to the middle position thereof, and the upper slide bar 51 is disposed along the width direction of the side plate 5. One side of each side plate 5 in the mutually approaching direction is fixedly connected with a lower slide bar 52, the lower slide bar 52 is positioned at a position right below the upper slide bar 51 of the same side plate 5, and the lower slide bar 52 is arranged along the width direction of the side plate 5. One end of each lower slide rod 52 close to the cabinet door 4 is fixedly connected with a stop block 521. The two lower slide bars 52 are provided with a heat sink 7 at one side close to the upper slide bar 51, and the heat sink 7 is located between the upper slide bar 51 and the lower slide bar 52. A slide outlet 61 is formed in the first mounting plate 6 at a position corresponding to the position between the upper slide rod 51 and the lower slide rod 52, and the heat sink 7 can slide out from the slide outlet 61.

Referring to fig. 3 and 4, the heat dissipating device 7 includes a mesh plate 71 having a plurality of meshes, both ends of the mesh plate 71 adjacent to the two side plates 5 are fixedly connected with a dust-proof screen 72 having a plurality of meshes, the mesh plate 71 is fixedly connected to a middle position of the dust-proof screen 72, the dust-proof screen 72 is vertically disposed along a width direction of the mesh plate 71, the two dust-proof screens 72 are located at one sides of the two side plates 5 adjacent to each other, the dust-proof screen 72 is slidably disposed between the upper slide bar 51 and the lower slide bar 52, and the dust-proof screen 72 is slidably disposed along a length direction of the lower slide bar 52. The bottoms of the two dustproof net plates 72 are fixedly connected with a radiating plate 73, and the radiating plate 73 is fixedly connected with a radiating fan 74 corresponding to the middle position of the radiating plate 73. The end of the grid plate 71 far away from the cabinet door 4 is fixedly connected with a dust-separating screen plate 711 with a plurality of meshes, the grid plate 71 is fixedly connected to the middle position of the dust-separating screen plate 711, two ends of the dust-separating screen plate 711 are respectively and fixedly connected to one sides of the two dust-separating screen plates 72, which are mutually close to each other, and the dust-separating screen plate 711 is arranged to cover the sliding outlet 61 and can slide out from the sliding outlet 61. The top end of the dust-proof screen 711 is hinged with a dust-proof mask 712, and the dust-proof mask 712 is arranged to cover the grid plate 71 and can be abutted against the two dust-proof screen 72. The rectification module and the inversion module are disposed at positions between the two dust-proof mesh plates 72, the dust-proof mesh plate 711, the mesh plate 71, and the dust-proof mask 712.

When a user uses the device, the movable dust-isolation net plate 711 drives the two dust-isolation net plates 72 to move out of the uninterruptible power supply cabinet, and then drives the grid plate 71, the dust-proof shade 712, the heat dissipation plate 73, the heat dissipation fan 74, the rectifying module and the inversion module to move out of the uninterruptible power supply cabinet, so that the contact range of the rectifying module and the inversion module with the outside air is enlarged. And the radiating fan 74 is started, the radiating fan 74 accelerates the air flow around the rectifying module and the inversion module, and the radiating efficiency of the rectifying module and the inversion module is improved. The grid plate 71 can circulate air flow, so that air flow is prevented from being blocked, and heat dissipation efficiency is improved; the dust-separating screen 711, the two dust-preventing screens 72 and the dust-preventing shade 712 can reduce the falling of dust in the air into the rectifying module and the inverting module, and avoid the damage of the device caused by dust accumulation. Meanwhile, if the user needs to adjust the rectifying module and the inverting module, the heat dissipating device 7 can be moved out of the uninterruptible power supply cabinet, then the dustproof shade 712 is opened for adjustment, so that the blockage of a mixed line is avoided, and the use of the uninterruptible power supply cabinet is facilitated for the user.

Referring to fig. 4 and 5, a pull rod 713 is fixedly connected to a side of the dust-separating screen 711 away from the cabinet door 4, and the length direction of the pull rod 713 is perpendicular to the dust-separating screen 711. The first mounting plate 6 is connected with the separation blade 62 that is used for stopping the heat abstractor 7 to shift out in the rotation of slide outlet 61 position department, and separation blade 62 rotates to be connected in first mounting plate 6 and keeps away from cabinet door 4 one side, and separation blade 62 can the butt in dust screen 711.

When the dust-proof screen is used by a user, the baffle plate 62 is rotated, so that the baffle plate 62 is not abutted against the dust-proof screen 711 any more, the user drives the dust-proof screen 711, the grid 71, the dust-proof screen 72, the heat dissipation plate 73 and the heat dissipation fan 74 to slide along the length direction of the lower slide bar 52 by pulling the pull rod 713, the rectification module and the inversion module slide out along the slide outlet 61, and the pull rod 713 is convenient for the user to pull the dust-proof screen 711. The baffle plate 62 is abutted on the dust-proof screen 711, so that the heat radiator 7 can be prevented from sliding out of the uninterruptible power supply cabinet from the sliding-out port 61, and the heat radiator 7 is prevented from sliding out of the sliding-out port 61 to affect normal use when the uninterruptible power supply cabinet works.

The implementation principle of the heat dissipation type uninterruptible power supply cabinet provided by the embodiment of the application is as follows: when a user uses the air discharge fan 8, hot air in the uninterruptible power supply cabinet is discharged from the right-angle exhaust pipe 81, and meanwhile, external cold air enters the uninterruptible power supply cabinet from the dust separation net plate 711, and the air discharge fan 8 plays a role in accelerating air flow and improving heat dissipation efficiency in the cabinet. When the temperature of the inversion module and the rectification module in the uninterruptible power supply cabinet is too high, a user rotates the baffle plate 62 to enable the baffle plate 62 to move out of the sliding outlet 61 of the mounting plate, the pull rod 713 is pulled to drive the dust-isolation net plate 711, the dust-proof shade 712 and the two dust-proof net plates 72 to move, the two dust-proof net plates 72 slide between the upper sliding rod 51 and the lower sliding rod 52 on two sides respectively, the grid plate 71, the rectification module, the inversion module, the heat dissipation plate 73 and the heat dissipation fan 74 are driven to move out of the uninterruptible power supply cabinet, and the contact area between the rectification module and the inversion module and the outside air is increased. The heat dissipation fan 74 is turned on to accelerate the air flow speed around the rectifying module and the inverting module, improve the heat dissipation efficiency of the rectifying module and the inverting module, and can dissipate heat in a targeted manner under the condition that more heat is generated when the rectifying module and the inverting module work.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a heat dissipation type uninterrupted power source rack, includes mounting bracket (1), and mounting bracket (1) one side articulates there is cabinet door (4), and mounting bracket (1) is kept away from cabinet door (4) one side fixedly connected with first mounting panel (6), and equal fixedly connected with curb plate (5) in mounting bracket (1) both sides, its characterized in that: two curb plates (5) are all fixedly connected with top slide bar (51) and lower slide bar (52) each other near one side, and lower slide bar (52) are located top slide bar (51) position department directly under, and two lower slide bar (52) are equipped with the heat abstractor (7) that are used for rectifying module and contravariant module heat dissipation jointly, and heat abstractor (7) are located between top slide bar (51) and lower slide bar (52), and slide outlet (61) that are used for making heat abstractor (7) shift out uninterrupted power source rack have been seted up to first mounting panel (6).

2. The heat dissipation type uninterruptible power supply cabinet of claim 1, wherein: the heat abstractor (7) includes two dustproof otter board (72), and dustproof otter board (72) slide locates between upper slide bar (51) and lower slide bar (52), fixedly connected with grid board (71) between two dustproof otter board (72), rectifier module and contravariant module fixedly connected with grid board (71) top, and two dustproof otter board (72) bottom fixedly connected with heating panel (73) jointly, heating panel (73) fixedly connected with heat dissipation fan (74).

3. The heat dissipation type uninterruptible power supply cabinet of claim 2, wherein: one end of the grid plate (71) far away from the cabinet door (4) is fixedly connected with a dust-separating screen plate (711), the dust-separating screen plate (711) is arranged to cover the sliding outlet (61), and one side of the dust-separating screen plate (711) far away from the cabinet door (4) is fixedly connected with a pull rod (713).

4. A heat dissipation type uninterruptible power supply cabinet according to claim 3, wherein: dust separation otter board (711) top articulates has dustproof shade (712), and dustproof shade (712) cover grid board (71) setting, and dustproof shade (712) can butt in two dustproof otter board (72) tops.

5. The heat dissipation type uninterruptible power supply cabinet of claim 1, wherein: the first mounting plate (6) is connected with a baffle (62) in a rotating way on one side far away from the cabinet door (4), the baffle (62) is located at the position of the first mounting plate (6) close to the sliding outlet (61), and the baffle (62) can be abutted to the dust-proof screen (711).

6. The heat dissipation type uninterruptible power supply cabinet of claim 1, wherein: and the position, close to the top, of each side plate (5) is fixedly connected with an exhaust fan (8).

7. The heat dissipation type uninterruptible power supply cabinet of claim 1, wherein: every curb plate (5) corresponds air discharge fan (8) position department equal fixedly connected with right angle blast pipe (81), and two right angle blast pipes (81) are fixed respectively to be connected in two curb plate (5) direction one side that keeps away from each other, and the air intake of right angle blast pipe (81) is located curb plate (5) and corresponds air discharge fan (8) position department, and the air outlet of right angle blast pipe (81) is vertical to set up downwards.

8. The heat dissipation type uninterruptible power supply cabinet of claim 7, wherein: and a dust screen (811) is fixedly connected to the position of the inner wall of each right-angle exhaust pipe (81) corresponding to the air outlet, and the dust screen (811) covers the air outlet of the right-angle exhaust pipe (81).

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