CN111082343B - Dehumidification cooling block terminal - Google Patents

Abstract

The invention discloses a dehumidification and cooling distribution box, which comprises a distribution cavity arranged in a main machine body, wherein a driving cavity is arranged at the rear side of the distribution cavity, a push-out device for pushing a distribution device out of the distribution cavity when the distribution device needs debugging or maintenance is arranged in the distribution cavity, a dehumidification device for reducing the humidity in the air in the distribution cavity is arranged at the right side of the distribution cavity, a cooling device for cooling the distribution device in the distribution cavity is arranged at the right side of the distribution cavity, a driving device is arranged in the driving cavity, and the push-out device comprises a distribution table in the distribution cavity; the invention has simple operation and low manufacturing cost, can reduce the humidity in the distribution box to prevent distribution equipment from being damped and damaged, can also reduce the heat generated by electrical elements when in use, can automatically send the electrical elements out of the distribution box, and is convenient for debugging and maintenance.

Description

Dehumidification cooling block terminal

Technical Field

The invention relates to the technical field of power distribution, in particular to a dehumidification and cooling distribution box.

Background

The block terminal has small, simple installation, and technical performance is special, the rigidity, the configuration function is unique, not restricted by the place, uses more generally, and the operation is reliable and stable, and space utilization is high, takes up an area of less and has the characteristics of environmental protection effect, and electrical components can all give out heat at normal during operation in the block terminal, and the high operating property that can influence electrical components in the block terminal. For example, the frequency converter with higher temperature requirement is not smooth because of ventilation in the distribution box, when leading to its temperature to rise, often can influence the performance of frequency converter, influences the life of frequency converter, simultaneously, when humidity in the distribution box is great, also can corrode electrical components or electric wire equally, not only influences performance and still can appear the potential safety hazard.

Disclosure of Invention

The invention aims to provide a dehumidification cooling distribution box which is used for overcoming the defects in the prior art.

The dehumidification and cooling distribution box comprises a main machine body, wherein a distribution cavity is arranged in the main machine body, a driving cavity is arranged at the rear side of the distribution cavity, a push-out device for pushing the distribution equipment out of the distribution cavity when the distribution equipment needs debugging or maintenance is arranged in the distribution cavity, a dehumidification device for reducing the humidity in the air in the distribution cavity is arranged at the right side of the distribution cavity, a cooling device for cooling the distribution equipment in the distribution cavity is arranged at the right side of the distribution cavity, a driving device is arranged in the driving cavity, the push-out device comprises a distribution table in the distribution cavity, threaded holes are symmetrically formed in the rear side wall of the distribution table at the left and right positions by taking the gravity center of the distribution table as the symmetric center, screw rods matched with the threaded holes and extending into the driving cavity are arranged in the threaded holes, and the front side of the distribution cavity is communicated with the outside of, the front side of the power distribution station is provided with a door, the right side wall of the power distribution cavity is provided with a first auxiliary groove, the lower side wall of the first auxiliary groove is fixedly provided with a first transmission shaft, a first gear and a first belt wheel are fixedly arranged on the transmission shaft from bottom to top in sequence, the right side wall of the power distribution table is provided with teeth partially meshed with the first gear, an auxiliary groove II is formed in the rear side wall of the door, a belt wheel II is rotatably arranged in the auxiliary groove II, a belt I is arranged between the belt wheel II and the belt wheel I in a transmission manner, a third belt wheel is fixedly arranged on the screw rod on the left side in the driving cavity, a fourth belt wheel and a fifth belt wheel are fixedly arranged on the screw rod on the right side in the driving cavity from back to front, a second belt is arranged between the fifth belt wheel and the third belt wheel in a transmission way, a second transmission shaft is rotationally arranged on the front side wall of the driving cavity, and a belt wheel six and a gear two are fixedly arranged on the transmission shaft two from front to back in sequence, and a belt three is arranged between the belt wheel six and the belt wheel four in a transmission manner.

On the basis of the technical scheme, the dehumidifying device comprises an air suction cavity arranged on the right side of the power distribution cavity, the air suction cavity is provided with a third transmission shaft in the driving cavity, fan blades are fixedly arranged on the third transmission shaft in the air suction cavity, an air inlet groove communicated with the power distribution cavity is formed in the left side wall of the air suction cavity, a heater is arranged in the middle of the air inlet groove, a water tank is arranged on the lower side of the air suction cavity, a first guide pipe is arranged between the air suction cavity and the water tank, a refrigerator is arranged on the first guide pipe, the refrigerator is fixedly arranged on the upper side wall of the water tank, and a seventh belt wheel and an eighth belt wheel are sequentially fixedly arranged on the third transmission shaft from back to front in the driving cavity.

On the basis of the technical scheme, the cooling device comprises a compression cavity arranged at the upper side of the air suction cavity, a transmission shaft IV is rotationally arranged between the compression cavity and the driving cavity, an auxiliary block is fixedly arranged in the compression cavity in an annular array in the circumferential direction on the transmission shaft IV, a first guide groove is formed in the auxiliary block, a scraper is arranged in the first guide groove in a sliding manner, a first spring is fixedly arranged between the scraper and the first guide groove, a second guide pipe is arranged between the compression cavity and the water tank, a water absorbing material is fixedly arranged in the second guide pipe, a first exhaust groove is formed in the left side wall of the compression cavity, a plurality of second exhaust grooves are sequentially arranged in an array from left to right on the upper side wall of the door, a third exhaust groove is formed between the second exhaust groove and the first exhaust groove, a plurality of air outlets communicated with the power distribution cavity are formed in the rear side wall of the third exhaust groove, and a ninth belt wheel is fixedly arranged on, a belt IV is arranged between the belt wheel nine and the belt wheel eight in a transmission way.

On the basis of the technical scheme, the driving device comprises a motor fixedly arranged on the front side wall of the driving cavity, a transmission shaft five is arranged on the rear side wall of the motor, a belt pulley ten is fixedly arranged on the transmission shaft five, a belt fifth is arranged between the belt pulley ten and the belt pulley seven in a transmission manner, a spline groove is formed in the transmission shaft five, a gear three which can be meshed with the gear two is sleeved on the transmission shaft five, a spline which is in sliding fit with the gear three is fixedly arranged on the inner ring of the gear three, an auxiliary plate is further fixedly arranged on the transmission shaft five, an electromagnet is fixedly arranged on the front side wall of the auxiliary plate, and a spring two is fixedly arranged between the electromagnet and the rear side wall of the gear three.

On the basis of the technical scheme, a water discharge opening is formed in the right side wall of the water tank, a second guide groove is formed in the upper side of the water discharge opening, a gate is arranged in the second guide groove, a connecting rod extending into the water tank is fixedly arranged on the left side wall of the gate, a buoy is fixedly arranged on the connecting rod, and a third spring is fixedly arranged between the gate and the second guide groove.

The invention has the beneficial effects that: the invention can drive the power distribution station to move out or pull into the power distribution cavity through the matching between the screw rod and the threaded hole, is convenient for color modulation or maintenance of the power distribution equipment, sucks the air in the power distribution cavity into the water tank through the rotation of the fan blades, the air is used for cooling while being sucked, the moisture in the air is condensed into water drops to be stored in the water tank, when the water level in the water tank reaches a certain level, the gate is opened through the buoy to discharge water, so that the water level in the water tank is kept to be a certain level, the temperature in the water tank is always lower than that of the power distribution cavity, the invention has simple and convenient operation and low manufacturing cost, can reduce the humidity in the block terminal and prevent that distribution equipment from weing and damaging, still can reduce the heat that electrical components produced when using, can be automatic see off electrical components in the block terminal, be convenient for debug the maintenance.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic front view of a dehumidification cooling distribution box according to the present invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is a schematic view of the structure at B-B in FIG. 2;

FIG. 4 is a schematic view of the structure at C-C in FIG. 1;

FIG. 5 is a schematic view of the structure of FIG. 1 at D;

fig. 6 is a schematic structural diagram at E in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 6, a dehumidification and cooling distribution box according to an embodiment of the present invention includes a main body 10, a power distribution cavity 11 is disposed in the main body 10, a driving cavity 12 is disposed at a rear side of the power distribution cavity 11, a push-out device 13 is disposed in the power distribution cavity 11 and pushes out the power distribution equipment 76 into the power distribution cavity 11 when the power distribution equipment 76 needs to be debugged or maintained, a dehumidifying device 14 is disposed at a right side of the power distribution cavity 11 and reduces humidity in air in the power distribution cavity 11, a cooling device 15 is disposed at a right side of the power distribution cavity 11 and cools the power distribution equipment 76 in the power distribution cavity 11, a driving device 16 is disposed in the driving cavity 12 and drives the power distribution box to operate, the push-out device 13 includes a power distribution board 17 in the power distribution cavity 11, threaded holes 18 are symmetrically disposed on a rear side wall of the power distribution board 17 at left and right positions by taking a center of gravity of the power, the portable computer is characterized in that a screw rod 19 which is matched with the portable computer and extends into the driving cavity 12 is arranged in the threaded hole 18, the front side of the power distribution cavity 11 is communicated with the outside of the main body 10, a door 20 is arranged on the front side of the power distribution table 17, a first auxiliary groove 21 is formed in the right side wall of the power distribution cavity 11, a first transmission shaft 22 is fixedly arranged on the lower side wall of the first auxiliary groove 21, a first gear 23 and a first belt wheel 24 are fixedly arranged on the first transmission shaft 22 from bottom to top in sequence, a part of the right side wall of the power distribution table 17 is provided with teeth meshed with the first gear 23, a second auxiliary groove 25 is formed in the rear side wall of the door 20, a second belt wheel 26 is rotatably arranged in the second auxiliary groove 25, a first belt 27 is arranged between the second belt wheel 26 and the first belt wheel 24 in a transmission manner, a third belt wheel 28 is fixedly arranged on the screw rod 19 on the left side in the driving, A belt II 31 is arranged between the belt wheel V30 and the belt wheel III 28 in a transmission manner, a transmission shaft II 32 is arranged on the front side wall of the driving cavity 12 in a rotating manner, a belt wheel VI 33 and a gear II 34 are fixedly arranged on the transmission shaft II 32 from front to back in sequence, and a belt III 35 is arranged between the belt wheel VI 33 and the belt wheel IV 29 in a transmission manner.

In addition, in one embodiment, the dehumidifying device 14 includes an air extracting cavity 36 disposed on the right side of the power distribution cavity 11, a third transmission shaft 37 is rotatably disposed between the air extracting cavity 36 and the driving cavity 12, a fan blade 38 is fixedly disposed on the third transmission shaft 37 in the air extracting cavity 36, an air inlet groove 39 communicated with the power distribution cavity 11 is disposed on the left side wall of the air extracting cavity 36, a heater 40 is disposed at the middle section of the air inlet groove 39, a water tank 41 is disposed on the lower side of the air extracting cavity 36, a first guide pipe 42 is disposed between the air extracting cavity 36 and the water tank 41, a refrigerator 43 is disposed on the first guide pipe 42, the refrigerator 43 is fixedly disposed on the upper side wall of the water tank 41, and the third transmission shaft 37 in the driving cavity 12 is fixedly disposed on a seventh belt pulley 44 and an eighth belt pulley 45 in sequence from back to front; when the third transmission shaft 37 rotates, the air in the power distribution chamber 11 is sucked from the air inlet groove 39 by the fan blades 38, is heated by the heater 40 during the suction process, is discharged into the water tank 41 along the first guide pipe 42 by the fan blades 38, is refrigerated by the refrigerator 43 during the discharge process, and the moisture in the sucked air is rapidly condensed into water drops to flow into the water tank 41 due to the sudden cooling of the hot air.

In addition, in one embodiment, the cooling device 15 includes a compression chamber 46 disposed on the upper side of the air pumping chamber 36, a transmission shaft four 47 is rotatably disposed between the compression chamber 46 and the driving chamber 12, an auxiliary block 48 is fixedly disposed on the transmission shaft four 47 in the compression chamber 46 in an annular arrangement manner in a circumferential direction, a first guide groove 49 is disposed on the auxiliary block 48, a scraper 50 is slidably disposed in the first guide groove 49, a first spring 51 is fixedly disposed between the scraper 50 and the first guide groove 49, a second conduit 52 is disposed between the compression chamber 46 and the water tank 41, a water absorbing material 53 is fixedly disposed in the second conduit 52, a first exhaust groove 54 is disposed on the left side wall of the compression chamber 46, a plurality of second exhaust grooves 55 are sequentially arranged on the upper side wall of the door 20 from left to right, a third exhaust groove 56 is disposed between the second exhaust groove 55 and the first exhaust groove 54, a plurality of air outlets 57 communicated with the power distribution chamber 11 are disposed on the rear side wall of the third exhaust groove 56, a belt wheel nine 58 is fixedly arranged on the transmission shaft four 47 in the driving cavity 12, and a belt four 59 is arranged between the belt wheel nine 58 and the belt wheel eight 45 in a transmission manner; the transmission shaft IV 47 drives the auxiliary block 48 to rotate, so that the scraper 50 is always contacted with the inner wall of the compression cavity 46 under the action of the spring I51 in the rotating process, the compression cavity 46 is oval, therefore, the air in the water tank 41 is sucked into the compression cavity 46 along the guide pipe II 52, the moisture in the air is filtered through the water absorbing material 53 in the sucking process, the air in the compression cavity 46 is discharged into the power distribution cavity 11 through the air outlet 57 along the exhaust groove I54, the exhaust groove II 55 and the exhaust groove III 56 through compression, and the power distribution in the power distribution cavity 11 is cooled.

In addition, in one embodiment, the driving device 16 includes a motor 60 fixedly disposed on the front side wall of the driving cavity 12, a transmission shaft five 61 is mounted on the rear side wall of the motor 60, a pulley ten 62 is fixedly disposed on the transmission shaft five 61, a belt five 63 is disposed between the pulley ten 62 and the pulley seven 44, a spline groove 64 is disposed on the transmission shaft five 61, the transmission shaft five 61 is sleeved with a gear three 65 capable of meshing with the gear two 34, a spline 66 slidably engaged with the gear three 65 is fixedly disposed on an inner ring of the gear three 65, an auxiliary plate 67 is further fixedly disposed on the transmission shaft five 61, an electromagnet 68 is fixedly disposed on the front side wall of the auxiliary plate 67, and a spring two 69 is fixedly disposed between the electromagnet 68 and the rear side wall of the gear three 65; the motor 60 can drive the transmission shaft five 61 to rotate, the transmission shaft five 61 drives the dehumidifying device 14 and the cooling device 15 to operate through the belt pulley ten 62, the belt pulley seven 44 and the belt five 63, when the pushing-out device 13 needs to operate, the electromagnet 68 is electrified, so that the gear three 65 is meshed with the gear two 34, and the pushing-out device 13 is driven to move through the belt pulley six 33, the belt pulley four 29 and the belt three 35.

In addition, in one embodiment, a water outlet 70 is formed in the right side wall of the water tank 41, a second guide groove 71 is formed in the upper side of the water outlet 70, a gate 72 is arranged in the second guide groove 71, a connecting rod 73 extending into the water tank 41 is fixedly arranged on the left side wall of the gate 72, a float 74 is fixedly arranged on the connecting rod 73, and a third spring 75 is fixedly arranged between the gate 72 and the second guide groove 71; when the water level in the water tank 41 is higher than the set water level, the float 74 is raised, and the gate 72 is opened to discharge the water in the water tank 41.

When the dehumidifier starts to work, the motor 60 is started to drive the transmission shaft five 61 to rotate, the transmission shaft five 61 drives the transmission shaft three 37 to rotate through the belt wheel ten 62, the belt five 63 and the belt wheel seven 44, and the transmission shaft three 37 rotates to drive the dehumidifying device 14 to operate, so that the humidity in the power distribution cavity 11 is reduced.

When cooling, transmission shaft three 37 passes through eight 45 of band pulley nine 58 with four 59 drives of belt four 47 of transmission shaft rotate, four 47 of transmission shaft rotate and drive heat sink 15 functions, will pass through behind the air compression in the water tank 41 gas outlet 57 is discharged in the distribution chamber 11, it is right in the distribution chamber 11 distribution equipment 76 cools down.

When the distribution equipment 76 needs to be debugged or repaired, the electromagnet 68 is energized to pull the gear III 65 backwards to be meshed with the gear II 34, so that the transmission shaft II 32 rotates, the transmission shaft II 32 drives the right-side screw rod 19 to rotate through the belt wheel III 33, the belt wheel IV 29 and the belt III 35, the right-side screw rod 19 drives the left-side screw rod 19 to synchronously rotate through the belt wheel V30, the belt wheel III 28 and the belt II 31, so that the distribution board 17 moves forwards through matching with the threaded hole 18 and moves out of the distribution cavity 11, the right-side tooth of the distribution board 17 is meshed with the gear I23 to drive the transmission shaft I22 to rotate while moving, and the transmission shaft I22 drives the door 20 to open through the belt wheel I24, the belt I27 and the belt wheel II 26, after commissioning or maintenance, the motor 60 reverses to pull the distribution board 17 back into the distribution chamber 11, while the door 20 closes.

The invention has the beneficial effects that: the invention can drive the power distribution station to move out or pull into the power distribution cavity through the matching between the screw rod and the threaded hole, is convenient for color modulation or maintenance of the power distribution equipment, sucks the air in the power distribution cavity into the water tank through the rotation of the fan blades, the air is used for cooling while being sucked, the moisture in the air is condensed into water drops to be stored in the water tank, when the water level in the water tank reaches a certain level, the gate is opened through the buoy to discharge water, so that the water level in the water tank is kept to be a certain level, the temperature in the water tank is always lower than that of the power distribution cavity, the invention has simple and convenient operation and low manufacturing cost, can reduce the humidity in the block terminal and prevent that distribution equipment from weing and damaging, still can reduce the heat that electrical components produced when using, can be automatic see off electrical components in the block terminal, be convenient for debug the maintenance.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and scope of the present invention are intended to be included therein.

Claims (1)

1. The utility model provides a dehumidification cooling block terminal, includes the host computer body, its characterized in that: the main machine body is internally provided with a power distribution cavity, the rear side of the power distribution cavity is provided with a driving cavity, the power distribution cavity is internally provided with a push-out device which pushes out the power distribution equipment in the power distribution cavity when the power distribution equipment needs debugging or maintenance, the right side of the power distribution cavity is provided with a dehumidifying device which reduces the humidity in the air in the power distribution cavity, the right side of the power distribution cavity is provided with a cooling device which cools the power distribution equipment in the power distribution cavity, the driving cavity is internally provided with a driving device, the push-out device comprises a power distribution table in the power distribution cavity, the power distribution table is symmetrically provided with threaded holes at left and right positions on the rear side wall of the power distribution table by taking the gravity center of the power distribution table as a symmetric center, the threaded holes are internally provided with screw rods which are matched with the threaded holes and extend into the driving cavity, the front side of the power, a first transmission shaft is fixedly arranged on the lower side wall of the auxiliary groove, a first gear and a first belt wheel are fixedly arranged on the first transmission shaft from bottom to top in sequence, teeth meshed with the first gear are arranged on the right side wall of the power distribution table, a second auxiliary groove is formed in the rear side wall of the door, a second belt wheel is rotatably arranged in the second auxiliary groove, a first belt is arranged between the second belt wheel and the first belt wheel in a transmission manner, a third belt wheel is fixedly arranged on the screw rod on the left side in the driving cavity, a fourth belt wheel and a fifth belt wheel are fixedly arranged on the screw rod on the right side in the driving cavity from back to front in sequence, a second belt is arranged between the fifth belt wheel and the third belt wheel in a transmission manner, a second transmission shaft is rotatably arranged on the front side wall of the driving cavity, a sixth belt wheel and a second gear are fixedly arranged; the dehumidifying device comprises an air suction cavity arranged on the right side of the power distribution cavity, a third transmission shaft is rotatably arranged between the air suction cavity and the driving cavity, fan blades are fixedly arranged on the third transmission shaft in the air suction cavity, an air inlet groove communicated with the power distribution cavity is formed in the left side wall of the air suction cavity, a heater is arranged in the middle of the air inlet groove, a water tank is arranged on the lower side of the air suction cavity, a first guide pipe is arranged between the air suction cavity and the water tank, a refrigerator is arranged on the first guide pipe and fixedly arranged on the upper side wall of the water tank, and a seventh belt wheel and an eighth belt wheel are fixedly arranged on the third transmission shaft in the driving cavity from back to front in sequence; the cooling device comprises a compression cavity arranged at the upper side of the air suction cavity, a transmission shaft IV is rotationally arranged between the compression cavity and the driving cavity, an auxiliary block is fixedly arranged in the compression cavity in an annular array in the circumferential direction on the transmission shaft IV, a first guide groove is formed in the auxiliary block, a scraper is slidably arranged in the first guide groove, a first spring is fixedly arranged between the scraper and the first guide groove, a second guide pipe is arranged between the compression cavity and the water tank, a water absorbing material is fixedly arranged in the second guide pipe, a first exhaust groove is formed in the left side wall of the compression cavity, a plurality of second exhaust grooves are sequentially arranged in an array from left to right on the upper side wall of the door, a third exhaust groove is formed between the second exhaust groove and the first exhaust groove, a plurality of air outlets communicated with the power distribution cavity are formed in the rear side wall of the third exhaust groove, and a ninth belt wheel is fixedly arranged on the fourth transmission shaft, a belt IV is arranged between the belt wheel IV and the belt wheel VIII in a transmission way; the driving device comprises a motor fixedly arranged on the front side wall of the driving cavity, a transmission shaft five is arranged on the rear side wall of the motor, a belt wheel ten is fixedly arranged on the transmission shaft five, a belt five is arranged between the belt wheel ten and the belt wheel seven in a transmission manner, a spline groove is formed in the transmission shaft five, a gear three which can be meshed with the gear two is sleeved on the transmission shaft five, a spline which is in sliding fit with the gear three is fixedly arranged on the inner ring of the gear three, an auxiliary plate is further fixedly arranged on the transmission shaft five, an electromagnet is fixedly arranged on the front side wall of the auxiliary plate, and a spring two is fixedly arranged between the electromagnet and the rear side wall of the gear three; the water tank is characterized in that a water outlet is formed in the right side wall of the water tank, a second guide groove is formed in the upper side of the water outlet, a gate is arranged in the second guide groove, a connecting rod extending into the water tank is fixedly arranged on the left side wall of the gate, a buoy is fixedly arranged on the connecting rod, and a third spring is fixedly arranged between the gate and the second guide groove.

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