CN117704530B - Machine room dehumidifier - Google Patents

Abstract

The invention relates to the technical field of machine room dehumidification equipment, in particular to a machine room dehumidifier, which comprises a box body and further comprises: the air inlet mechanism with the multi-angle air capturing function comprises a cover body, a rotary cylinder, a vertical rotary pipe and a driving assembly, wherein the cover body is bolted to the bottom of the box body, and the vertical rotary pipe penetrates through the box body and is communicated with the rotary cylinder; according to the invention, through the arrangement of the semiconductor refrigerating sheets, one side of the semiconductor refrigerating sheets generates heat, the heating assembly is utilized to heat and raise the temperature of the entering air, the other side of the semiconductor refrigerating sheets generates cold energy, the refrigerating assembly is utilized to cool flowing cooling medium, the cooling medium enters the first vertical pipe, the rotating cylinder, the cooling guide sheets, the second vertical pipe and other cooling guide structures and exchanges heat, the air is cooled, the temperature of the entering air is raised firstly and then lowered, the cooling amplitude is far higher than 10 ℃, condensed water is more easily generated, and the dehumidifying effect on the air is improved.

Description

Machine room dehumidifier

Technical Field

The invention relates to the technical field of machine room dehumidification equipment, in particular to a machine room dehumidifier.

Background

The machine room refers to a place dedicated to storing computer equipment and related equipment. The system is generally provided with stable power supply, a good heat dissipation system and a safe network environment, so that the computer equipment can normally operate, meanwhile, the high humidity environment easily causes water accumulation on the surface and inside of the equipment, and further causes faults such as corrosion and short circuit of electronic components, and therefore, a dehumidifier is also required to dehumidify in a machine room.

Most of the existing dehumidifier on the market is used for cooling air entering the dehumidifier through the cooperation of a refrigeration structure and a cold guide structure, so that moisture is cooled to be condensed water, and the condensed water is separated from the air for dehumidification, but when the dehumidifier is used in a machine room, the following defects exist in some dehumidifiers: ① . The air can form condensed water at the temperature difference of about 10 ℃, the larger the temperature difference is, the more easily the condensed water is generated, and air conditioning equipment matched with a dehumidifier is usually arranged in a machine room to cool down, so that the temperature of the air in the machine room is reduced, the temperature of the air entering the dehumidifier cannot exceed 23 ℃, after the air enters the dehumidifier to refrigerate, the temperature difference is about 10 ℃, the condensed water is not easily generated by the air, and the dehumidification effect is to be enhanced; ② . The dust screen is arranged at the inlet of the dehumidifier to intercept dust, and the dust screen is blocked at a plurality of places when being used for a long time, for example, the dust screen is used for more than half a year, so that the air inlet quantity and the efficiency of the dehumidifier are affected; ③ . The air inlet of the dehumidifier faces to one direction mostly, the angle range for capturing air is limited, and the air inlet is one of factors influencing the efficiency of the dehumidifier; ④ . The cold guide structure is contacted with air, and condensed water can be attached to the surface of the cold guide structure with some tiny dust impurities, so that the contact between the air entering subsequently and the cold guide structure is affected, and the cooling effect of the cold guide structure on the air is reduced.

Disclosure of Invention

The invention aims to provide a machine room dehumidifier which can firstly heat up the entering air and then cool down the air, so that the temperature difference of the air is far more than 10 ℃, condensed water is more easily generated, and the dehumidifying effect on the air is improved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a computer lab dehumidifier, includes the box, still includes:

the air inlet mechanism with the multi-angle air capturing function comprises a cover body, a rotary cylinder, a vertical rotating pipe and a driving assembly, wherein the cover body is bolted to the bottom of the box body, the vertical rotating pipe penetrates through the box body and is communicated with the rotary cylinder, and the driving assembly provides rotating power for the vertical rotating pipe;

The dustproof nets are fixed on two sides of the rotary cylinder, and cleaning brushes for cleaning the dustproof nets are arranged on two sides of the inside of the cover body;

the top end of the vertical rotating pipe extends into the connecting pipe and is rotationally connected with the inner wall of the connecting pipe, and two ends of the connecting pipe are communicated with each other and are provided with communicating pipes;

the heating and refrigerating mechanism comprises a heat insulation box, a partition plate, a semiconductor refrigerating sheet, a heating component and a refrigerating component, wherein the heat insulation box is bolted in the box body, the partition plate is bolted in the heat insulation box, the semiconductor refrigerating sheet is arranged on the surface of the partition plate, the heating component heats the entering air, the refrigerating component cools the flowing medium, and the other end of the communicating pipe is mutually communicated with the heat insulation box;

The vertical pipe is communicated with one side of the heat insulation box, the other end of the vertical pipe is communicated with an air outlet cover, and a second fan is fixed in the air outlet cover;

a medium storage circulation mechanism that stores and conveys a medium;

a water storage mechanism for storing condensed water.

Preferably, the drive assembly includes driving motor, first gear, second gear and first perpendicular bull stick, driving motor bolt is in the inside of box, and first gear is fixed each other with driving motor's output shaft, first perpendicular bull stick is connected with the inner wall rotation of box, the second gear is fixed at the surface of first perpendicular bull stick and with first gear intermeshing, and is connected through belt drive between first perpendicular bull stick and the perpendicular commentaries on classics pipe, the heating assembly includes square frame, first fan and conducting strip, the inside at the insulation box is fixed to the square frame, the inside at the square frame is fixed to first fan, the conducting strip bolt is on the surface of baffle.

Preferably, the surface of the heat conducting fin is also provided with a through hole in a penetrating way.

Preferably, the refrigeration assembly comprises a bending pipe and a metal clamping piece, the metal clamping piece is bolted to the surface of the partition plate and is far away from one side of the heat conducting fin, the bending pipe penetrates through the inner side of the metal clamping piece, the medium storage circulation mechanism comprises a storage box and a conveying assembly, the other end of the bending pipe is communicated with the conveying pipe, and the conveying assembly conveys cooling medium to the bending pipe.

Preferably, the refrigeration surface of the semiconductor refrigeration piece is contacted with the metal clamping piece, and the heating surface of the semiconductor refrigeration piece is contacted with the heat conducting piece.

Preferably, the cold transfer mechanism includes conveyer pipe, first pipeline swivelling joint spare, first standpipe, sleeve and drive assembly, the both ends of conveyer pipe communicate each other with kink pipe and first pipeline swivelling joint spare respectively, the top of first standpipe communicates each other with the bottom of first pipeline swivelling joint spare, the sleeve runs through the top that sets up at the vertical pipe, first standpipe passes the sleeve and rotates rather than the inner wall and be connected, cold transfer mechanism still includes the intercommunication setting at the rotating cylinder of first standpipe bottom, the surface welding of rotating cylinder has a plurality of cold guide piece, the bottom intercommunication of rotating cylinder is provided with the second standpipe, one side at bin top still communicates and is provided with the return pipe, the other end of return pipe runs through to the inside of vertical pipe and communicates and is provided with second pipeline swivelling joint spare, and the bottom and the second pipeline swivelling joint spare intercommunication each other of second standpipe, drive assembly is given the rotatory power transmission of first standpipe.

Preferably, the transmission assembly comprises a second vertical rotating rod, a third gear and a first transverse plate, wherein the first transverse plate is bolted to the inside of the box body, the second vertical rotating rod is respectively connected with the inner wall of the box body and the surface of the first transverse plate in a rotating mode, the third gear is fixed on the surface of the second vertical rotating rod and meshed with the second gear, the transmission assembly further comprises the second transverse plate and the third vertical rotating rod, the number of the second transverse plates is two, the second transverse plates are bolted to the surface of the inner wall of the box body, the third vertical rotating rod is connected with the surface of the second transverse plate in a rotating mode, the third vertical rotating rod is connected with the second vertical rotating rod through a belt in a transmission mode, a fourth gear is fixed above the surface of the third vertical rotating rod, a fifth gear is fixed above the surface of the first vertical rotating rod, and the fifth gear is meshed with the fourth gear.

Preferably, the conveying assembly comprises a cylinder body, a fourth vertical rotating rod and a helical blade, the conveying pipe is communicated with the cylinder body, the cylinder body penetrates through the surface of the storage box, the bottom end of the cylinder body is in contact with the inner wall of the bottom of the inner cavity of the storage box, an inlet is formed in the lower portion of the surface of the cylinder body, the fourth vertical rotating rod is rotationally connected with the inner wall of the cylinder body, and the top end of the fourth vertical rotating rod extends to the upper portion of the cylinder body and is connected with the third vertical rotating rod through belt transmission.

Preferably, the water storage mechanism comprises a water storage tank and a unidirectional component, the unidirectional component comprises a connecting cylinder which is communicated with the bottom of the vertical pipe and is communicated with the water storage tank, the rotary disk is rotationally connected with the inside of the connecting cylinder, a plurality of grooves are formed in the surface of the rotary disk in a penetrating mode, the unidirectional component further comprises a transmission rod, a first bevel gear and a second bevel gear, the transmission rod is fixed on one side of the surface of the rotary disk, the other end of the transmission rod penetrates through the outside of the connecting cylinder and is mutually fixed with the first bevel gear, the second bevel gear is fixed on the surface of the third vertical rotary rod, and the second bevel gear is mutually meshed with the first bevel gear.

Preferably, the bottom of the water storage tank is also communicated with a drain pipe, the bottom end of the drain pipe penetrates through the lower part of the tank body, and a valve is arranged on the surface of the drain pipe.

Compared with the prior art, the invention has the following beneficial effects:

1. According to the invention, through the arrangement of the semiconductor refrigerating sheets, one side of the semiconductor refrigerating sheets generates heat, the heating assembly is utilized to heat and raise the temperature of the entering air, the other side of the semiconductor refrigerating sheets generates cold energy, the refrigerating assembly is utilized to cool flowing cooling medium, the cooling medium enters the first vertical pipe, the rotating cylinder, the cooling guide sheets, the second vertical pipe and other cooling guide structures and exchanges heat, the air is cooled, the temperature of the entering air is raised firstly and then lowered, the cooling amplitude is far higher than 10 ℃, condensed water is more easily generated, and the dehumidifying effect on the air is improved.

2. According to the invention, the rotary drum and the vertical rotary tube are driven to rotate through the driving assembly, so that the rotary drum faces different directions, air at more azimuth angles is captured, the efficiency of the dehumidifier is improved, meanwhile, the dust screen is utilized to block most dust and impurities from entering, and the rotary drum drives the dust screen to be contacted with the cleaning brush in the cover body in the rotating process, so that the dust screen is cleaned, and the blockage of the dust screen is avoided.

3. According to the invention, through the arrangement of the transmission assembly, the power from the driving assembly can be transmitted to the first vertical pipe to drive the first vertical pipe, the rotating cylinder, the cold guide sheet, the second vertical pipe and other cold guide structures to rotate, so that condensed water and dust impurities are prevented from being attached to the cold guide structures.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the case of the present invention;

FIG. 3 is a schematic view of the structure of the present invention with the case removed;

FIG. 4 is a schematic structural view of an air intake mechanism according to the present invention;

FIG. 5 is a cross-sectional view of the cover of the present invention;

FIG. 6 is a cross-sectional view of a rotary drum and a vertical rotary tube according to the present invention;

FIG. 7 is a schematic view of the heat insulation box and the periphery of the heat insulation box;

FIG. 8 is a cross-sectional view of the insulated housing of the present invention;

FIG. 9 is a schematic diagram of the heating and cooling assemblies of the present invention;

FIG. 10 is a schematic view of a partial construction of a heating assembly and a cooling assembly of the present invention;

FIG. 11 is a schematic view of another view of the barrier of the present invention;

FIG. 12 is a schematic view of a partial structure in the present invention;

FIG. 13 is a schematic view of the structure of the cold transfer mechanism and the water storage mechanism of the present invention;

FIG. 14 is a schematic view of a part of the unidirectional assembly of the present invention;

FIG. 15 is a cross-sectional view of a rotating cartridge of the present invention;

FIG. 16 is a schematic diagram of a medium storage circulation mechanism according to the present invention;

FIG. 17 is a cross-sectional view of a storage tank according to the present invention;

fig. 18 is a cross-sectional view of a cartridge according to the present invention.

In the figure: 1. a case; 2. an air inlet mechanism; 21. a cover body; 22. a rotary drum; 23. a vertical rotating pipe; 24. a drive assembly; 241. a driving motor; 242. a first gear; 243. a second gear; 244. a first vertical bar; 25. a dust screen; 26. cleaning a brush; 27. a connecting sleeve; 28. a communicating pipe; 3. a heating and refrigerating mechanism; 31. a heat insulation box; 32. a partition plate; 33. a semiconductor refrigeration sheet; 34. a heating assembly; 341. a block; 342. a first fan; 343. a heat conductive sheet; 344. a through hole; 35. a refrigeration assembly; 351. bending the tube; 352. a metal clip; 4. a vertical pipe; 5. an air outlet cover; 6. a second fan; 7. a cold transfer mechanism; 71. a pipe; 72. a first pipe swivel connection; 73. a first standpipe; 74. a sleeve; 75. a rotating cylinder; 76. a cold guide plate; 77. a second standpipe; 78. a second pipe swivel connection; 79. a return pipe; 710. a transmission assembly; 7101. a second vertical bar; 7102. a third gear; 7103. a first cross plate; 7104. a second cross plate; 7105. a third vertical rotating rod; 7106. a fourth gear; 7107. a fifth gear; 711. a fastener; 8. a medium storage circulation mechanism; 81. a storage tank; 82. a transport assembly; 821. a cylinder; 822. a fourth vertical rotating rod; 823. a helical blade; 824. an access port; 83. a delivery tube; 9. a water storage mechanism; 91. a water storage tank; 92. a unidirectional component; 921. a connecting cylinder; 922. a rotating disc; 923. a groove; 924. a transmission rod; 925. a first bevel gear; 926. a second bevel gear; 93. a drain pipe; 94. and (3) a valve.

Detailed Description

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

Referring to fig. 1-18, a machine room dehumidifier, including box 1, this dehumidifier still includes into wind mechanism 2, heating refrigeration mechanism 3, medium storage circulation mechanism 8 and water storage mechanism 9, it includes the cover body 21 to go into wind mechanism 2, rotary drum 22, vertical rotation pipe 23 and actuating unit 24, the bottom at box 1 is bolted to cover body 21, vertical rotation pipe 23 runs through box 1 and communicates with rotary drum 22 each other, vertical rotation pipe 23 rotates with the department of running through of box 1 and is connected, both sides of rotary drum 22 all are fixed with dust screen 25, the inside both sides of cover body 21 all are provided with cleaning brush 26, the inside of box 1 is provided with adapter sleeve 27, the top of vertical rotation pipe 23 extends to the inside of adapter sleeve 27 and rotates with its inner wall and be connected, vertical rotation pipe 23 and the inner wall of adapter sleeve 27 are fixed with each other through the bearing frame, both ends of adapter sleeve 27 all communicate and are provided with communicating pipe 28, heating refrigeration mechanism 3 includes heat-insulating box 31, baffle 32, semiconductor refrigeration piece 33, heating unit 34 and subassembly 35, heat-insulating box 31 is connected at the inside of box 1, the inside of baffle 32 is provided with the air-out cover 5 at the inside of baffle 31, the inside of box 31 is provided with the air-out surface of the air-out 5, the other end is connected with the air-out cover 5, the other end is connected with the air-out 5, the air-out surface is fixed at the inside of the baffle 5, the air-out 5 is connected with the air-out 5, and is connected with the other end of the air-out 5.

The driving assembly 24 comprises a driving motor 241, a first gear 242, a second gear 243 and a first vertical rotating rod 244, the driving motor 241 is bolted in the box body 1, the first gear 242 and the output shaft of the driving motor 241 are mutually fixed, the first vertical rotating rod 244 is rotationally connected with the inner wall of the box body 1, the second gear 243 is fixed on the surface of the first vertical rotating rod 244, the second gear 243 is mutually meshed with the first gear 242, the first vertical rotating rod 244 is in belt transmission connection with the vertical rotating tube 23, the driving motor 241 is started, the output shaft of the driving motor can drive the first vertical rotating rod 244 to rotate through the first gear 242 and the second gear 243, the first vertical rotating rod 244 can drive the vertical rotating tube 23 to rotate through a belt pulley and a belt, and the vertical rotating tube 23 drives the rotating tube 22 below to rotate, so that the rotating tube 22 faces different directions; the semiconductor refrigerating sheet 33 is turned on, one side of the semiconductor refrigerating sheet 33 is refrigerated, the other side of the semiconductor refrigerating sheet is heated, the maximum temperature difference between the cold side and the hot side of the semiconductor refrigerating sheet 33 is greater than 60 ℃, the heating assembly 34 comprises a box 341, a first fan 342 and a heat conducting sheet 343, the box 341 is fixed inside the heat insulation box 31, the first fan 342 is fixed inside the box 341, the heat conducting sheet 343 is bolted on the surface of the partition plate 32, the heat conducting sheet 343 is attached to the heated side of the semiconductor refrigerating sheet 33, silicone grease is smeared between the heat conducting sheets to ensure heat transfer, a plurality of groups of heat conducting sheets 343 are provided, the surface of the heat conducting sheet 343 is also penetrated with through holes 344, the first fan 342 and the second fan 6 are turned on, the outside air passes through the cover 21 and the dust screen 25 to enter the inside of the rotary drum 22, the rotary drum 22 continuously rotates, the dust screen 25 blocks impurity dust in the entering air, the dust screen 25 contacts with the cleaning brush 26 along with the rotation of the rotary drum 22, the cleaning brush 26 continuously intercepts dust on the surface of the dust screen 25 to prevent the dust screen 25 from being blocked, the entering air enters the heat insulation box 31 through the vertical rotary pipe 23, the connecting pipe 27 and the connecting pipe 28, then the air flows at the through holes 344 between the heat conducting sheets 343 under the action of the first fan 342, one surface of the semiconductor refrigerating sheet 33 generating heat transfers the heat to the heat conducting sheets 343, the temperature of the heat conducting sheets 343 is increased, the entering air contacts with the heat conducting sheets 343 to realize heat exchange, the air is heated, and the heated air enters the inside of the vertical pipe 4; the surface of the heat conductive sheet 343 does not touch condensed water, and the heat conductive sheet 343 is close to the first fan 342, so that the surface of the heat conductive sheet 343 is free from dust and foreign matters.

The refrigeration assembly 35 comprises a bending tube 351 and a metal clamping piece 352, the metal clamping piece 352 is bolted on the surface of the partition plate 32 and is far away from one side of the heat conducting sheet 343, the bending tube 351 penetrates through the inner side of the metal clamping piece 352, the metal clamping piece 352 is in contact with one refrigerated surface of the semiconductor refrigeration sheet 33, the metal clamping piece 352 and the semiconductor refrigeration sheet 33 are coated with silicone grease, cold generated by the semiconductor refrigeration sheet 33 is transferred to the bending tube 351 through the metal clamping piece 352, the medium storage circulation mechanism 8 comprises a storage box 81 and a conveying assembly 82, the other end of the bending tube 351 is communicated with the conveying tube 83, an inlet and an outlet are formed in the storage box 81, a cap is arranged on the inlet and the outlet, a sufficient amount of cooling medium is poured into the storage box 81, the cooling medium is heat conducting oil, the heat conducting oil has the characteristics of good heat conducting effect, energy is saved, the conveying and convenient to operate, the working temperature of the heat conducting oil is between-80 ℃ and 400 ℃, the conveying assembly 82 conveys the cooling medium to the bending tube 351, the cooling medium flowing inside the bending tube 351 absorbs the cold and cools down, and the temperature difference between the cooling medium and heated air is far greater than 10 ℃.

The cold transfer mechanism 7 comprises a conveying pipe 71, a first pipeline rotary connecting piece 72, a first vertical pipe 73, a sleeve 74 and a transmission assembly 710, wherein the conveying pipe 71 adopts heat preservation pipes, a cooling medium enters the conveying pipe 71 to prevent the cooling medium flowing in the conveying pipe 71 from absorbing heat in advance, two ends of the conveying pipe 71 are respectively communicated with a bending pipe 351 and the first pipeline rotary connecting piece 72, the top end of the first vertical pipe 73 is communicated with the bottom of the first pipeline rotary connecting piece 72, the sleeve 74 penetrates through the top of the vertical pipe 4, the first vertical pipe 73 penetrates through the sleeve 74 and is in rotary connection with the inner wall of the sleeve 74, the first vertical pipe 73 is fixed with the inner wall of the sleeve 74 through a bearing to realize rotary connection, the cold transfer mechanism 7 also comprises a rotary cylinder 75 which is communicated with the bottom end of the first vertical pipe 73, a plurality of cold guide sheets 76 are welded on the surface of the rotary cylinder 75, the bottom of the rotary cylinder 75 is communicated with a second vertical pipe 77, one side of the top of the storage box 81 is further communicated with a return pipe 79, the other end of the return pipe 79 penetrates into the vertical pipe 4 and is communicated with a second pipeline rotary connecting piece 78, the bottom end of the second vertical pipe 77 is communicated with the second pipeline rotary connecting piece 78, the transmission assembly 710 transmits the power of the rotation of the first vertical rod 244 to the first vertical pipe 73, the cooling medium is cooling oil, after the cooling capacity is absorbed through the bending pipe 351, the cooling capacity is transmitted to the rotating cylinder 75 and the second vertical pipe 77 through the conveying pipe 71, the first pipeline rotary connecting piece 72 and the first vertical pipe 73, the cooling capacity is transmitted to the periphery through the cold guide piece 76, the temperature of the middle part of the vertical pipe 4 is reduced, heated air enters the inside of the vertical pipe 4 and flows upwards under the action of the second fan 6, and when the heated air passes through the second vertical pipe 77, the rotating cylinder 75, the cold guide piece 76 and the first vertical pipe 73, the heated air exchanges heat with the cooling medium flowing in the air, so that the air is cooled, the temperature of the air is greatly higher than 10 ℃, the moisture in the air is more easily separated, condensed water is generated, the condensed water flows downwards, the air is dehumidified, the air is heated and then cooled, the temperature of the air is increased, the condensed water is more easily generated, and the dehumidification effect is improved; the dehumidified air is discharged into a machine room through an air outlet cover 5; the inner wall of the box body 1 is also bolted with a plurality of fasteners 711, and the fasteners 711 are sleeved on the surface of the conveying pipe 71, so that the positioning of the conveying pipe 71 is realized, and the stability of the conveying pipe is improved.

In order to prevent the impurities from staying on the surface of the cold guide plate 76, the transmission assembly 710 comprises a second vertical rotating rod 7101, a third gear 7102 and a first transverse plate 7103, wherein the first transverse plate 7103 is bolted inside the box body 1, the second vertical rotating rod 7101 is respectively and rotatably connected with the inner wall of the box body 1 and the surface of the first transverse plate 7103, the third gear 7102 is fixed on the surface of the second vertical rotating rod 7101, the third gear 7102 is meshed with the second gear 243, the transmission assembly 710 also comprises a second transverse plate 7104 and a third vertical rotating rod 7105, the number of the second transverse plates 7104 is two groups and is bolted on the surface of the inner wall of the box body 1, the third vertical rotating rod 7105 is rotatably connected with the surface of the second transverse plate 7104, a fourth gear 7106 is fixed above the surface of the third vertical rotating rod 7105 through a belt, a fifth gear 7107 is fixed above the surface of the first vertical pipe 73, the fifth gear 7107 is meshed with the fourth gear 7106, in the process of rotating the first vertical pipe 244, the second vertical pipe 7101 can be driven to rotate by the second gear 243 and the third gear 7102, then the second vertical pipe 7101 drives the third vertical pipe 7105 to rotate by a belt and a belt pulley, the third vertical pipe 7105 drives the first vertical pipe 73 to rotate by the fourth gear 7106 and the fifth gear 7107, the first vertical pipe 73 drives the rotating cylinder 75, the cold guide piece 76 and the second vertical pipe 77 below to rotate, the first vertical pipe 73, the rotating cylinder 75, the cold guide piece 76, the second vertical pipe 77 and other cold guide structures which are contacted with air and exchange heat are rotated, condensed water and dust impurities which are stained are thrown onto the pipe wall of the vertical pipe 4 under the action of centrifugal force, dust which is prevented from being stopped on the cold guide structure and heat exchange which influences the subsequent entering air are prevented, the dust impurities flow downwards along with the condensed water collected; the first pipe rotating connector 72 and the second pipe rotating connector 78 are arranged, so that the pipe connection is ensured, and meanwhile, the cold guide structure is not hindered from rotating.

After cooling the air, the cooling medium returns to the inside of the storage box 81 again through the second pipeline rotary connector 78 and the return pipe 79 for subsequent circulation, the conveying component 82 comprises a cylinder 821, a fourth vertical rotary rod 822 and a spiral blade 823, the conveying pipe 83 is mutually communicated with the cylinder 821, the cylinder 821 penetrates through the surface of the storage box 81, the bottom end of the cylinder 821 is mutually contacted with the inner wall at the bottom of the inner cavity of the storage box 81, an inlet port 824 is arranged below the surface of the cylinder 821, the fourth vertical rotary rod 822 is rotationally connected with the inner wall of the cylinder 821, the top end of the fourth vertical rotary rod 822 extends to the upper side of the cylinder 821 and is in transmission connection with a third vertical rotary rod 7105 through a belt, single-groove belt pulleys are arranged on the surfaces of the fourth vertical rotary rod 822 and the second vertical rotary rod 7101, double-groove belt pulleys are arranged on the surface of the third vertical rotary rod 7105 through two different single belts, belt transmission is respectively implemented between the second vertical rotating rod 7101 and the fourth vertical rotating rod 822, in the process of rotating the third vertical rotating rod 7105, the fourth vertical rotating rod 822 can drive the fourth vertical rotating rod 822 to rotate, the fourth vertical rotating rod 822 drives the spiral blade 823 arranged on the surface of the fourth vertical rotating rod 822 to rotate, cooling medium in the storage tank 81 can enter the cylinder 821 through the inlet 824, the spiral blade 823 pushes the cooling medium in the cylinder 821 to continuously flow upwards, the cooling medium in the storage tank 81 also continuously enters the cylinder 821, the cooling medium enters the bending pipe 351 through the conveying pipe 83, and then returns to the storage tank 81 again through the conveying pipe 71, the first pipe rotating connector 72, the first vertical pipe 73, the rotating cylinder 75, the second vertical pipe 77, the second pipe rotating connector 78 and the return pipe 79, so that circulation of the cooling medium is realized.

The water storage mechanism 9 comprises a water storage tank 91 and a one-way assembly 92, the one-way assembly 92 comprises a connecting cylinder 921 which is communicated with the bottom of a vertical pipe 4, the bottom of the connecting cylinder 921 is communicated with the water storage tank 91, a rotating disk 922 is rotatably connected inside the connecting cylinder 921, a plurality of grooves 923 are formed in the surface of the rotating disk 922 in a penetrating mode, the one-way assembly 92 further comprises a transmission rod 924, a first bevel gear 925 and a second bevel gear 926, the transmission rod 924 is fixed on one side of the surface of the rotating disk 922, the other end of the transmission rod 924 penetrates to the outside of the connecting cylinder 921 and is mutually fixed with the first bevel gear 925, the second bevel gear 926 is fixed on the surface of a third vertical rod 7105, the second bevel gear 926 is meshed with the first bevel gear 925, in the rotating process of the third vertical rod 7105, the transmission rod 924 can drive the transmission rod 922 to rotate through the second bevel gear 926 and the first bevel gear 925, the rotating disk 922 drives the grooves 923 on the surface of the rotating disk, the condensed water together with impurities to flow downwards and enter the connecting cylinder 921, and then fall into the grooves 923, when the grooves 923 rotate downwards, the condensed water is poured into the connecting cylinder 91, and the water storage tank 91 can be prevented from entering the vertical pipe 91, and the water storage tank 91 can be prevented from being evaporated, and the water storage tank is simultaneously, and the water storage tank is prevented from entering the inside the vertical pipe 91; the bottom of the water storage tank 91 is also communicated with a drain pipe 93, the bottom end of the drain pipe 93 penetrates to the lower side of the tank body 1, a valve 94 is arranged on the surface of the drain pipe 93, and condensed water stored in the water storage tank 91 can be discharged by opening the valve 94.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

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

Claims (3)

1. The utility model provides a computer lab dehumidifier, includes box (1), its characterized in that still includes:

The air inlet mechanism (2) with the multi-angle air capturing function, wherein the air inlet mechanism (2) comprises a cover body (21), a rotary cylinder (22), a vertical rotary pipe (23) and a driving assembly (24), the cover body (21) is bolted to the bottom of the box body (1), the vertical rotary pipe (23) penetrates through the box body (1) and is communicated with the rotary cylinder (22), and the driving assembly (24) provides rotary power for the vertical rotary pipe (23);

Dust-proof screens (25) fixed on two sides of the rotary cylinder (22), and cleaning brushes (26) for cleaning the dust-proof screens (25) are arranged on two sides of the inside of the cover body (21);

The vertical rotating pipe comprises a connecting sleeve (27) arranged in the box body (1), wherein the top end of the vertical rotating pipe (23) extends into the connecting sleeve (27) and is rotationally connected with the inner wall of the connecting sleeve, and two ends of the connecting sleeve (27) are communicated with each other and provided with a communicating pipe (28);

The heating and refrigerating mechanism (3), the heating and refrigerating mechanism (3) comprises a heat insulation box (31), a partition plate (32), a semiconductor refrigerating sheet (33), a heating component (34) and a refrigerating component (35), wherein the heat insulation box (31) is bolted in the box body (1), the partition plate (32) is bolted in the heat insulation box (31), the semiconductor refrigerating sheet (33) is arranged on the surface of the partition plate (32), the heating component (34) heats the entering air, the refrigerating component (35) cools the flowing medium, and the other end of the communicating pipe (28) is mutually communicated with the heat insulation box (31);

A vertical pipe (4) which is communicated with one side of the heat insulation box (31), wherein the other end of the vertical pipe (4) is communicated with an air outlet cover (5), and a second fan (6) is fixed in the air outlet cover (5);

A medium storage circulation mechanism (8) for storing and transporting a medium;

a water storage mechanism (9) for storing condensed water;

a cold transfer mechanism (7) for transferring cold energy;

the driving assembly (24) comprises a driving motor (241), a first gear (242), a second gear (243) and a first vertical rotating rod (244), wherein the driving motor (241) is bolted in the box body (1), the first gear (242) is mutually fixed with an output shaft of the driving motor (241), the first vertical rotating rod (244) is rotationally connected with the inner wall of the box body (1), the second gear (243) is fixed on the surface of the first vertical rotating rod (244) and is meshed with the first gear (242), the first vertical rotating rod (244) is in belt transmission connection with the vertical rotating pipe (23), the heating assembly (34) comprises a box (341), a first fan (342) and a heat conducting sheet (343), the box (341) is fixed in the heat insulation box (31), the first fan (342) is fixed in the box (341), and the heat conducting sheet (343) is bolted on the surface of the partition plate (32);

The refrigeration assembly (35) comprises a bending tube (351) and a metal clamping piece (352), the metal clamping piece (352) is bolted to the surface of the partition plate (32) and is far away from one side of the heat conducting sheet (343), the bending tube (351) penetrates through the inner side of the metal clamping piece (352), the medium storage circulation mechanism (8) comprises a storage box (81) and a conveying assembly (82), the other end of the bending tube (351) is communicated with the conveying tube (83), and the conveying assembly (82) conveys cooling medium to the bending tube (351);

The cold transfer mechanism (7) comprises a conveying pipe (71), a first pipeline rotary connecting piece (72), a first vertical pipe (73), a sleeve (74) and a transmission assembly (710), wherein two ends of the conveying pipe (71) are respectively communicated with a bending pipe (351) and the first pipeline rotary connecting piece (72), the top end of the first vertical pipe (73) is communicated with the bottom of the first pipeline rotary connecting piece (72), the sleeve (74) penetrates through the top of the vertical pipe (4), the first vertical pipe (73) penetrates through the sleeve (74) and is rotationally connected with the inner wall of the sleeve, the cold transfer mechanism (7) further comprises a rotating cylinder (75) which is communicated with the bottom end of the first vertical pipe (73), a plurality of cold guide sheets (76) are welded on the surface of the rotating cylinder (75), a second pipe (77) is arranged at the bottom of the rotating cylinder (75), one side of the top of the storage box (81) is also communicated with a return pipe (79), the other end of the return pipe (79) penetrates through the inside the vertical pipe (4) and is rotationally connected with the second pipe (78) and is communicated with the bottom end of the second vertical pipe (77), the transmission assembly (710) transmits the power of the rotation of the first vertical rod (244) to the first vertical pipe (73);

The transmission assembly (710) comprises a second vertical rotating rod (7101), a third gear (7102) and a first transverse plate (7103), the first transverse plate (7103) is bolted to the inside of the box body (1), the second vertical rotating rod (7101) is respectively in rotary connection with the inner wall of the box body (1) and the surface of the first transverse plate (7103), the third gear (7102) is fixed on the surface of the second vertical rotating rod (7101) and is meshed with the second gear (243), the transmission assembly (710) further comprises a second transverse plate (7104) and a third vertical rotating rod (7105), the number of the second transverse plates (7104) is two, the second transverse plates (7104) are bolted to the surface of the inner wall of the box body (1), the third vertical rotating rod (7105) is in rotary connection with the surface of the second transverse plate (7104), the third vertical rotating rod (7105) is in rotary connection with the surface of the second transverse plate (7101) through a belt, the fourth gear (7106) is fixed on the surface of the third vertical rotating rod (7105), and the fifth gear (7107) is meshed with the fourth gear (7107);

The conveying assembly (82) comprises a cylinder (821), a fourth vertical rotating rod (822) and spiral blades (823), the conveying pipe (83) is communicated with the cylinder (821), the cylinder (821) penetrates through the surface of the storage box (81), the bottom end of the cylinder (821) is in contact with the inner wall of the bottom of the inner cavity of the storage box (81), an inlet (824) is formed in the lower portion of the surface of the cylinder (821), the fourth vertical rotating rod (822) is connected with the inner wall of the cylinder (821) in a rotating mode, and the top end of the fourth vertical rotating rod (822) extends to the upper portion of the cylinder (821) and is connected with the third vertical rotating rod (7105) through belt transmission;

The water storage mechanism (9) comprises a water storage tank (91) and a one-way assembly (92), the one-way assembly (92) comprises a connecting cylinder (921) which is communicated with the bottom of a vertical pipe (4), the bottom of the connecting cylinder (921) is communicated with the water storage tank (91), a rotating disk (922) is rotationally connected inside the connecting cylinder (921), a plurality of grooves (923) are formed in the surface of the rotating disk (922) in a penetrating mode, the one-way assembly (92) further comprises a transmission rod (924), a first bevel gear (925) and a second bevel gear (926), the transmission rod (924) is fixed on one side of the surface of the rotating disk (922), the other end of the transmission rod (924) penetrates through the outside of the connecting cylinder (921) and is fixed with the first bevel gear (925), the second bevel gear (926) is fixed on the surface of a third vertical pipe (7105), and the second bevel gear (926) is meshed with the first bevel gear (925) in a penetrating mode;

the bottom of storage water tank (91) still communicates and is provided with drain pipe (93), the bottom of drain pipe (93) runs through to the below of box (1), the surface mounting of drain pipe (93) has valve (94).

2. A machine room dehumidifier according to claim 1, wherein: the surface of the heat conduction sheet (343) is also provided with a through hole (344) in a penetrating way.

3. A machine room dehumidifier as claimed in claim 2, wherein: the cooling surface of the semiconductor cooling plate (33) is in contact with the metal clamping piece (352), and the heating surface of the semiconductor cooling plate (33) is in contact with the heat conducting plate (343).