CN115342542B - Take heat recovery frequency conversion industrial chiller based on 5G data transmission - Google Patents

Abstract

The invention discloses a 5G data transmission-based industrial water chilling unit with heat recovery and frequency conversion, which comprises a water chilling unit device, wherein the upper end of the water chilling unit device is provided with a heat radiating device, the water chilling unit device comprises an outer box and a connecting structure, the upper end of the outer box is provided with a data transmission module at the left side of the heat radiating device, and the heat radiating device comprises a first heat radiating box, a second heat radiating box and a two-way pipe. The invention can recycle the heat in the water chilling unit device, realize the effect of resource utilization, avoid wasting, prevent pollution to the atmosphere, has strong environmental protection, wrap the concave pipe, prevent the heat in the concave pipe from losing, further improve the tightness of the concave pipe, further prevent the heat from losing, improve the utilization efficiency of the heat, and secondly, protect the sealing plate, improve the stability of the sealing plate and prolong the service life of the sealing structure.

Description

Take heat recovery frequency conversion industrial chiller based on 5G data transmission

Technical Field

The invention relates to the technical field of water chilling units, in particular to a variable-frequency industrial water chilling unit with heat recovery based on 5G data transmission.

Background

The industrial chiller is one type of chiller, and the chiller may be classified into an air-cooled chiller and a water-cooled chiller. The principle of the water chiller is that a certain amount of water is injected into an internal water tank of the machine, the water is cooled by a chiller refrigerating system, then the low-temperature frozen water is injected into the equipment needing cooling by a water pump in the machine, the frozen water takes away the heat in the machine, and the high-temperature hot water is returned to the water tank again for cooling, so that the effect of cooling the equipment is achieved by circulating exchange cooling.

In the prior art, for example, the Chinese patent number is: an industrial water chiller of CN 112524851A comprises a machine shell, a water cooling and radiating mechanism, an air cooling and radiating mechanism, a hot water tank, a conveying mechanism, an opening and closing control mechanism, a noise reduction mechanism, a heat preservation mechanism, an overhaul mechanism and a foot pad; according to the invention, the water cooling mechanism and the air cooling mechanism are arranged, so that the heat dissipation and cooling effect on the industrial water cooling unit assembly is improved, the service life of the industrial water cooling unit assembly is prolonged, meanwhile, the water cooling mechanism dissipates heat of the industrial water cooling unit assembly, and meanwhile, hot water generated by heat dissipation of the industrial water cooling unit assembly can be stored for workers to use at night, heat generated by the industrial water cooling unit assembly during operation is recycled, waste is avoided, and the environment friendliness is strong; according to the invention, the noise reduction mechanism is arranged to separate noise generated during operation of the industrial water-cooling unit assembly arranged in the unit shell, so that the influence of the noise on other personnel such as residents and staff is reduced.

The existing industrial water chiller can generate more heat in the using and running process, the heat needs to be removed in time, damage to the industrial water chiller component is avoided, the service life of the water chiller component is reduced, the heat is directly discharged, waste on resources is caused, pollution to the atmosphere is caused, and the existing water chiller does not have the frequency conversion function, so that energy waste is caused in many cases.

Disclosure of Invention

The invention aims to provide a variable frequency industrial water chilling unit with heat recovery based on 5G data transmission, which aims to solve the problems that more heat is generated in the using and running processes of the existing industrial water chilling unit, the heat needs to be removed in time, the damage to the industrial water chilling unit component is avoided, the service life of the water chilling unit component is shortened, the heat is directly discharged, the waste of resources is caused, the pollution to the atmosphere is caused, and the energy waste is caused in many cases because the existing water chilling unit does not have the variable frequency function.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a take heat recovery frequency conversion industrial chiller based on 5G data transmission, includes chiller device, chiller device's upper end is provided with heat abstractor, chiller device includes outer case and connection structure, the upper end of outer case and be located heat abstractor's left side department and be provided with data transmission module, heat abstractor includes first radiating box, no. two radiating boxes and two siphunculus, first radiating box and No. two radiating boxes set up the upper end at the outer case one by one from left to right, the both ends of two siphunculus are connected with the rear end of first radiating box and No. two radiating boxes respectively, the one end of two siphunculus is connected with the heat pipe;

the two-way pipe comprises an outer pipe, a concave pipe, a special-shaped outer sleeve and an arc-shaped outer sleeve, wherein the concave pipe is arranged in the outer pipe, two ends of the outer pipe are respectively fixed with one ends of a first heat dissipation box and a second heat dissipation box, two ends of the concave pipe respectively penetrate into the first heat dissipation box and the second heat dissipation box, three groups of special-shaped outer sleeves are equidistantly distributed on the outer side wall of the concave pipe, a plurality of groups of arc-shaped outer sleeves are uniformly distributed on the upper end and the lower end of the arc-shaped outer sleeve of the outer side wall of the concave pipe, and one end of each push rod is provided with a sealing structure;

seal structure includes push pedal, fixing base and activity vaulting pole, the one end of push pedal is provided with the closing plate, two sets of the equal fixed mounting of one end of fixing base is at the left and right sides both ends of push rod, the lower extreme of closing plate is close to left and right sides edge all is provided with spacing sloping block, the inside of closing plate is provided with leads the sloping block, two sets of the one end that the activity vaulting pole all runs through the push pedal is fixed mutually with the one end of two sets of sloping blocks, the movable part is installed to the one end of activity vaulting pole, the movable mounting of movable part is at the fixing base, the one end of push rod runs through the one end of push pedal and closing plate and is fixed mutually.

Preferably, one end of the first heat dissipation box is provided with an L-shaped pipe, heat collecting pipes are fixedly installed at the lower ends of the first heat dissipation box and the second heat dissipation box, special-shaped arc plates are installed in the first heat dissipation box and the second heat dissipation box, an air connection box is arranged on the left side of the special-shaped arc plates, a fan is arranged in the air connection box, one end of the L-shaped pipe penetrates through the first heat dissipation box and is connected with the special-shaped arc plates, two groups of heat collecting pipes penetrate through the lower ends of the first heat dissipation box and the second heat dissipation box respectively and are connected with the lower ends of the two groups of special-shaped arc plates, and dustproof nets are installed in the first heat dissipation box and the second heat dissipation box.

Preferably, the front end of the outer box is close to the left edge and the right edge, and is provided with a mounting structure, the lower end of the outer box is provided with a supporting frame, the right side of the outer box is provided with a condenser, and one end of the L-shaped pipe is connected with the upper end of the condenser.

Preferably, the front end of condenser is provided with connection structure, the one end of outer case is provided with the cold water tank, the right side of cold water tank is connected with the connecting pipe No. one, the left side of cold water tank is provided with the connecting pipe No. two.

Preferably, one end of the first connecting pipe penetrates through the outer box, and one end of the second connecting pipe is connected with the right side of the condenser.

Preferably, the mounting structure comprises a protection plate and inner hexagon bolts, wherein the front ends of the protection plate are close to the left edge and the right edge, observation windows are formed in the positions, close to the four corners, of the protection plate, and round holes are formed in the front ends of the protection plate in a penetrating mode.

Preferably, the front end of the outer box is close to the left edge and the right edge, long holes are formed in the front end of the outer box in a penetrating mode, threaded holes are formed in the four corners of the front end of the outer box, which are close to the long holes, two groups of protection plates are arranged at one ends of the two groups of long holes respectively, and one ends of the inner hexagon bolts penetrate through the round holes and are in threaded connection with the plurality of groups of threaded holes.

Preferably, the connection structure includes communicating pipe, water pump, aqueduct, evaporimeter, chiller main part, converter, no. one water tank and No. two water tanks, the one end of communicating pipe is connected with the one end of condenser, just the one end of communicating pipe runs through the outer box and is connected with the one end of aqueduct, the left side of water pump is provided with the special-shaped tube, just the other end of special-shaped tube is connected with the one end of No. one water tank, the front end of No. one water tank is provided with the back flow, the other end of back flow is connected with the one end of No. two water tanks, the other end of aqueduct is connected with the one end of water pump.

Preferably, the water pump, the evaporator, the frequency converter and the second water tank are sequentially arranged in the outer box from right to left, the water chiller main body is located at the rear of the evaporator, the first water tank is located at the rear of the frequency converter, and the evaporator and the first water tank are arranged in the outer box.

Preferably, the frequency converter is electrically connected with the water pump, the evaporator, the water chiller main body, the condenser and the water cooling tank, and the frequency converter is electrically connected with the data transmission module.

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

1. according to the invention, through arranging the heat dissipation device, hot air in the outer box enters the first heat dissipation box and the second heat dissipation box through the heat collecting pipe, hot air in the condenser enters the first heat dissipation box through the L-shaped pipe, two groups of fans are started, the hot air entering the first heat dissipation box and the second heat dissipation box can be sucked away by suction force generated by the two groups of fans, and the hot air enters the two-way pipe through the air receiving box and is further led out from the heat discharging pipe, so that the heat dissipation and cooling effect on the water chilling unit device assembly is improved, the service life of the water chilling unit assembly in the outer box is prolonged, meanwhile, the heat in the water chilling unit device assembly can be recycled, the effect of resource utilization is realized, waste is avoided, pollution to the atmosphere can be prevented, and the environment friendliness is strong.

2. According to the invention, through arranging the two-way pipe, when hot air enters the two-way pipe, generated heat can be conducted on the side wall of the concave pipe, and under the action of reheating expansion and cold contraction, the interiors of the arc-shaped jackets and the three special-shaped jackets of the two-way pipe are expanded, so that the interiors of the arc-shaped jackets and the three special-shaped jackets are gradually enlarged respectively, the concave pipe can be wrapped, heat loss in the concave pipe is prevented, meanwhile, when the arc-shaped jackets are expanded, the pushing rods at the left end and the right end or the upper end and the lower end push the sealing structures to move in the outer pipe and the heat discharging pipe, and the pushing structures of the two groups are contacted, so that the sealing performance of the concave pipe is further improved, the heat loss is further prevented, and the heat utilization efficiency is improved.

3. According to the sealing structure, the sealing structure is arranged, the push rod can drive the fixed seats on the left side and the right side or the upper side and the lower side to move when moving, the push rod can push the sealing plate to move outwards from the inside of the push plate, the sealing plate can drive the two groups of limiting inclined blocks to move together, the sealing plate is further contacted with the other group of sealing plate, the fixed seat pushes the inclined guide blocks to move in the inside of the push plate through the movable supporting rod, one end of the movable supporting rod rotates in the fixed seat through the movable piece, the two groups of inclined guide blocks can move to the lower ends of the limiting inclined blocks, and then the push plate can be supported, so that the sealing plate can be protected, the stability of the sealing plate is improved, and the service life of the sealing structure is prolonged.

4. According to the invention, through the data transmission module, a user can control the running of the water chilling unit device through equipment, and the frequency converter is arranged, so that the running power of the refrigerant circulation system can be controlled, the energy waste caused by the refrigerant circulation system is avoided, and meanwhile, the running of the water chilling unit device can be remotely controlled by the user through the cooperation of the data transmission module and the frequency converter.

5. According to the invention, the installation structure is arranged, and the inner hexagon bolts are rotated one by one, so that the inner hexagon bolts of a plurality of groups respectively rotate in the threaded holes of a plurality of groups, and are taken out from the threaded holes of a plurality of groups and the round holes of a plurality of groups one by one, so that the two groups of protection plates can be taken out from one end of the outer box, and the maintenance of the industrial water-cooling unit assembly installed in the outer box is facilitated.

Drawings

FIG. 1 is a perspective view of a variable frequency industrial chiller with heat recovery based on 5G data transmission according to the present invention;

FIG. 2 is a rear end perspective view of a variable frequency industrial chiller with heat recovery based on 5G data transmission according to the present invention;

FIG. 3 is a schematic diagram of a condenser and a cold water tank of a variable frequency industrial chiller with heat recovery based on 5G data transmission according to the present invention;

FIG. 4 is a partial bottom view of a heat sink of a variable frequency industrial chiller with heat recovery based on 5G data transmission according to the present invention;

FIG. 5 is a schematic diagram of a left side structure of a second heat radiation box of the variable frequency industrial water chiller with heat recovery based on 5G data transmission;

FIG. 6 is a schematic diagram of the internal structure of a two-way pipe and a heat extraction pipe of the variable frequency industrial chiller with heat recovery based on 5G data transmission;

FIG. 7 is an enlarged detailed schematic diagram of A in FIG. 6 of a variable frequency industrial chiller with heat recovery based on 5G data transmission according to the present invention;

FIG. 8 is a side view of an outer tube and a push rod of the variable frequency industrial chiller with heat recovery based on 5G data transmission of the present invention;

FIG. 9 is a schematic structural view of a sealing structure of a variable frequency industrial chiller with heat recovery based on 5G data transmission according to the present invention;

FIG. 10 is a schematic diagram of a connection structure and a condenser of a variable frequency industrial chiller with heat recovery based on 5G data transmission according to the present invention;

fig. 11 is a schematic diagram of an outer box and an installation structure of a variable frequency industrial water chiller with heat recovery based on 5G data transmission.

In the figure:

1. a water chiller device; 2. a heat sink; 10. an outer case; 11. a mounting structure; 12. a support frame; 13. a condenser; 14. a connection structure; 15. a data transmission module; 16. a cold water tank; 17. a first connecting pipe; 18. a second connecting pipe; 111. a protection plate; 112. an observation window; 113. a round hole; 114. a threaded hole; 115. an inner hexagon bolt; 141. a communicating pipe; 142. a water pump; 143. a water conduit; 144. an evaporator; 145. a water chiller main body; 146. a frequency converter; 147. a first water tank; 148. a second water tank; 21. A first heat radiation box; 22. a second heat dissipation box; 23. two-way pipe; 24. a heat discharging pipe; 25. an L-shaped tube; 26. A heat collecting pipe; 27. a dust screen; 28. a special-shaped arc plate; 29. a wind box is connected; 210. a blower; 231. an outer tube; 232. a concave tube; 233. a special-shaped outer sleeve; 234. an arc-shaped outer sleeve; 235. a push rod; 236. a sealing structure; 2361. a push plate; 2362. a fixing seat; 2363. a sealing plate; 2364. limiting oblique blocks; 2365. a movable stay bar; 2366. a slope guiding block; 2367. a movable member.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. 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. 1-11: the utility model provides a take heat recovery frequency conversion industrial chiller based on 5G data transmission, including chiller device 1, chiller device 1's upper end is provided with heat abstractor 2, chiller device 1 includes outer tank 10 and connection structure 14, the upper end of outer tank 10 and be located the left side department of heat abstractor 2 and be provided with data transmission module 15, heat abstractor 2 includes first radiating tank 21, second radiating tank 22 and two siphunculus 23, first radiating tank 21 and second radiating tank 22 set up the upper end at outer tank 10 one by one from left to right, two siphunculus 23's both ends are connected with the rear end of first radiating tank 21 and second radiating tank 22 respectively, two siphunculus 23's one end is connected with heat extraction pipe 24, through setting up data transmission module 15, the operation of this chiller device 1 can be controlled through equipment to the user through setting up data transmission module 15;

the two-way pipe 23 comprises an outer pipe 231, a concave pipe 232, a special-shaped jacket 233 and an arc-shaped jacket 234, wherein the concave pipe 232 is arranged inside the outer pipe 231, two ends of the outer pipe 231 are respectively fixed with one ends of the first heat dissipation box 21 and the second heat dissipation box 22, two ends of the concave pipe 232 respectively penetrate into the first heat dissipation box 21 and the second heat dissipation box 22, three groups of special-shaped jackets 233 are equidistantly distributed on the outer side wall of the concave pipe 232, a plurality of groups of arc-shaped jackets 234 are uniformly distributed on the upper end and the lower end of the arc-shaped jacket 234 of the outer side wall of the concave pipe 232, push rods 235 are respectively arranged at the upper end and the lower end of the arc-shaped jacket 234 of the outer side wall of the concave pipe 232, one end of each push rod 235 is provided with a sealing structure 236, when hot air enters into the inner part of the two-way pipe 23, heat generated by the hot air is conducted on the side wall of the concave pipe 232, and under the action of cold shrinkage, the inner parts of the arc-shaped jackets 234 and the three groups of the special-shaped jackets 233 are respectively expanded, so that the arc-shaped jackets 234 and the three groups of the special-shaped jackets 233 are respectively gradually enlarged in the inner parts of the two-way jackets 23 and the inner parts of the heat dissipation pipes 24, the concave pipe 232 are respectively, the concave pipe 232 is wrapped, the heat loss of the two-shaped jackets is prevented, and the heat loss of the two heat pipes is further prevented by the sealing structures is further improved by the sealing structures by the two ends of the push rods, and the inner heat loss of the inner ends of the two heat pipe 23 when the heat loss is further improved, and the heat loss is further by the sealing structures;

the sealing structure 236 comprises a push plate 2361, a fixed seat 2362 and a movable supporting rod 2365, wherein one end of the push plate 2361 is provided with a sealing plate 2363, one ends of the two groups of fixed seats 2362 are fixedly arranged at the left end and the right end of the push rod 235, limiting inclined blocks 2364 are arranged at the lower end of the sealing plate 2363 close to the left edge and the right edge, an inclined guide block 2366 is arranged in the sealing plate 2363, two groups of movable supporting rods 2365 penetrate through one end of the push plate 2361 and one ends of the two groups of inclined guide blocks 2366 to be fixed, one end of the movable supporting rod 2365 is provided with a movable piece 2367, the movable mounting of the movable piece 2367 is arranged on the fixed seat 2362, one end of the push rod 235 penetrates through the push plate 2361 and one end of the sealing plate 2363 to be fixed, by arranging the sealing structure 236, the push rod 235 can drive the fixed seat 2362 on the left side and the right side or the upper side and the lower side to move when moving, the push rod 235 can push the sealing plate 2363 to move outwards from the inside of the push plate 2361, the sealing plate 2363 can drive the two groups of limiting inclined blocks 2364 to move together, the sealing plate 2363 can be further contacted with the other group of sealing plate 2363, the fixed seat 2362 pushes the inclined guide block 2366 to move in the inside of the push plate 2361 through the movable supporting rod 2365, one end of the movable supporting rod 2365 rotates in the inside of the fixed seat 2362 through the movable piece 2367, the two groups of inclined guide blocks 2366 can move to the lower end of the limiting inclined blocks 2364, and then the push plate 2361 can be supported, so that the sealing plate 2363 can be protected, the stability of the sealing plate 2363 is improved, and the service life of the sealing structure 236 is prolonged.

As shown in fig. 2, 4, 5 and 6, one end of the first heat dissipation box 21 is provided with an L-shaped tube 25, the lower ends of the first heat dissipation box 21 and the second heat dissipation box 22 are fixedly provided with heat collecting tubes 26, the interiors of the first heat dissipation box 21 and the second heat dissipation box 22 are provided with special-shaped arc plates 28, the left side of the special-shaped arc plates 28 is provided with a wind receiving box 29, the inside of the wind receiving box 29 is provided with a fan 210, one end of the L-shaped tube 25 penetrates the first heat dissipation box 21 to be connected with the special-shaped arc plates 28, one ends of the two groups of heat collecting tubes 26 penetrate the lower ends of the first heat dissipation box 21 and the second heat dissipation box 22 to be connected with the lower ends of the two groups of special-shaped arc plates 28 respectively, the interiors of the first heat dissipation box 21 and the second heat dissipation box 22 are provided with dustproof nets 27, hot air enters the interiors of the first heat dissipation box 21 and the second heat dissipation box 22 through the heat collecting tubes 26 by arranging the heat dissipation device 2, and inside steam of condenser 13 enters into the inside of cooling box 21 through L type pipe 25 to start two sets of fans 210, the suction that two sets of fans 210 produced can be with entering into the inside steam of cooling box 21 and No. two cooling boxes 22 and walk, and enter into the inside of two siphunculus 23 through connecing bellows 29, and then derive from the heat extraction pipe 24, thereby improved the cooling effect of dispelling the heat to cooling water set device 1 subassembly, prolonged the inside life of cooling water set subassembly of outer tank 10, simultaneously, can carry out recycle to cooling water set device 1 inside heat, realize the effect of resource utilization, avoid causing the waste, can also prevent to cause the pollution to the atmosphere, the feature of environmental protection is strong, can block the foreign matter through the dust screen 27 that sets up, cooling device 2 life has been improved.

As shown in fig. 1, 2 and 11, the front end of the outer box 10 is provided with a mounting structure 11 near the left and right edge positions, the lower end of the outer box 10 is provided with a supporting frame 12, the right side of the outer box 10 is provided with a condenser 13, one end of an L-shaped pipe 25 is connected with the upper end of the condenser 13, the condenser 13 can separate hot air in hot water from water through the arrangement of the condenser 13, and the separated hot air can be discharged through the L-shaped pipe 25.

As shown in fig. 3 and 10, the front end of the condenser 13 is provided with a connection structure 14, one end of the outer tank 10 is provided with a cold water tank 16, the right side of the cold water tank 16 is connected with a first connection pipe 17, the left side of the cold water tank 16 is provided with a second connection pipe 18, water enters the cold water tank 16 through the first connection pipe 17, the second connection pipe 18 and the cold water tank 16 through the second connection pipe 18, and water inside the cold water tank 16 flows out through the first connection pipe 17.

As shown in fig. 2, one end of the first connecting pipe 17 penetrates into the outer case 10, one end of the second connecting pipe 18 is connected to the right side of the condenser 13, and the condenser 13 and the second connecting pipe 18 are provided, so that water in the condenser 13 can flow into the second connecting pipe 18.

As shown in fig. 11, the mounting structure 11 includes a protection plate 111 and an inner hexagon bolt 115, the front ends of the two groups of protection plates 111 are close to the left and right edge positions and are all provided with observation windows 112, the front ends of the protection plates 111 are close to the four corners and are all provided with round holes 113 in a penetrating way, by being provided with the mounting structure 11, the inner hexagon bolt 115 is rotated one by one, so that a plurality of groups of inner hexagon bolts 115 are respectively rotated in a plurality of groups of threaded holes 114, the inner hexagon bolts 115 are respectively taken out from the interiors of a plurality of groups of threaded holes 114 and a plurality of groups of round holes 113 one by one, and then the two groups of protection plates 111 can be taken off from one end of the outer box 10, thereby facilitating maintenance of an industrial water-cooling unit component mounted inside the outer box 10.

As shown in fig. 11, long holes are all formed through the front end of the outer box 10 near the left and right edge positions, threaded holes 114 are formed through the front end of the outer box 10 near the four corners of the long holes, two sets of protection plates 111 are respectively arranged at one ends of the two sets of long holes, one ends of a plurality of sets of hexagon socket bolts 115 penetrate through the round holes 113 and are in threaded connection with the plurality of sets of threaded holes 114, and the hexagon socket bolts 115 can rotate in the threaded holes 114 through the cooperation of the hexagon socket bolts 115 and the threaded holes 114.

As shown in fig. 10, the connection structure 14 includes a communicating pipe 141, a water pump 142, a water conduit 143, an evaporator 144, a chiller main body 145, a frequency converter 146, a first water tank 147 and a second water tank 148, one end of the communicating pipe 141 is connected with one end of the condenser 13, one end of the communicating pipe 141 penetrates through the outer tank 10 to be connected with one end of the water conduit 143, a special pipe is arranged on the left side of the water pump 142, the other end of the special pipe is connected with one end of the first water tank 147, a return pipe is arranged at the front end of the first water tank 147, the other end of the return pipe is connected with one end of the second water tank 148, the other end of the water conduit 143 is connected with one end of the water pump 142, hot air in the entered water can be sucked away through the arrangement of the first water tank 147 and the second water tank 148, and the water can be stored for continuous cold-heat conversion.

As shown in fig. 10, the water pump 142, the evaporator 144, the inverter 146 and the water tank No. two 148 are disposed inside the outer tank 10 in this order from right to left, the water chiller main body 145 is located behind the evaporator 144, the water tank No. one 147 is located behind the inverter 146, and both the evaporator 144 and the water tank No. one 147 are disposed inside the outer tank 10, and by providing the water pump 142, the water pump 142 can introduce water into the inside of the communicating pipe 141 through the water guide pipe 143.

As shown in fig. 2 and 10, the frequency converter 146 is electrically connected with the water pump 142, the evaporator 144, the chiller main body 145, the condenser 13 and the cold water tank 16, the frequency converter 146 is electrically connected with the data transmission module 15, and the frequency converter 146 is arranged, so that the frequency converter 146 can control the water pump 142, the evaporator 144, the chiller main body 145, the condenser 13 and the cold water tank 16 to operate, the operation power of the refrigerant circulation system can be controlled, the energy waste caused by the refrigerant circulation system is avoided, and meanwhile, the operation of the chiller device 1 can be remotely controlled by a user through the cooperation of the data transmission module 15 and the frequency converter 146.

The working principle of the invention is as follows: when in use, firstly, a user transmits data to be set to the data transmission module 15 through equipment, the data transmission module 15 can control the operation of the frequency converter 146, the frequency converter 146 can control the operation of the water pump 142, the evaporator 144, the chiller main body 145, the condenser 13 and the cold water tank 16, then when the chiller device 1 operates, a large amount of hot air is generated in the outer box 10, the hot air in the outer box 10 enters the first heat dissipation box 21 and the second heat dissipation box 22 through the heat collecting pipe 26, the hot air in the condenser 13 enters the first heat dissipation box 21 through the L-shaped pipe 25, the two groups of fans 210 are started, the suction force generated by the two groups of fans 210 can suck the hot air entering the first heat dissipation box 21 and the second heat dissipation box 22, the hot air entering the two through the air receiving box 29, and the hot air is led out from the heat dissipation pipe 24, thereby improving the heat radiation and cooling effects on the components of the water chilling unit device 1, prolonging the service life of the water chilling unit components in the outer box 10, simultaneously, recycling the heat in the water chilling unit device 1, realizing the effect of resource utilization, avoiding waste, preventing pollution to the atmosphere, having strong environmental protection, blocking foreign matters through the dustproof net 27, improving the service life of the heat radiation device 2, wherein when the hot air enters the two-way pipe 23, the generated heat is conducted on the side wall of the concave pipe 232, and under the action of reheating and expanding and shrinking, the interiors of the arc-shaped jackets 234 and the three special-shaped jackets 233 of the heat radiation device are expanded, so that the interiors of the arc-shaped jackets 234 and the three special-shaped jackets 233 of the heat radiation device are gradually enlarged respectively in the two-way pipe 23 and the heat radiation pipe 24, thereby wrapping the concave pipe 232, prevent that heat in the concave pipe 232 from taking place to run off, simultaneously, a plurality of groups of arc overcoat 234 when the inflation, can promote seal structure 236 at the inside removal of outer tube 231 and heat extraction pipe 24 through push rod 235 of left and right sides or upper and lower both ends, and then make two sets of promotion structures contact, thereby further improved the leakproofness to concave pipe 232, further prevented the loss of heat, improved the utilization efficiency to the heat, finally, push rod 235 can drive the fixing base 2362 of left and right sides or upper and lower both sides when removing, and push rod 235 can promote closing plate 2363 and outwards remove from the inside of push pedal 2361, and closing plate 2363 can drive two sets of spacing sloping block 2364 and remove together, and then can make closing plate 2363 and another set of closing plate 2363 contact, and fixing base 2362 promotes the sloping block 2366 at the inside removal of push pedal 2361 through movable stay 2367 at the inside rotation of fixing base 2362, two sets of sloping block 2366 can remove the lower extreme of spacing sloping block 2364, and then can support the push plate 2361, thereby the effect of closing plate 2363 has been improved to this seal structure, and the stability has been improved.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The utility model provides a take heat recovery frequency conversion industrial chiller based on 5G data transmission, includes chiller device (1), its characterized in that: the upper end of the water chilling unit device (1) is provided with a heat dissipation device (2), the water chilling unit device (1) comprises an outer box (10) and a connecting structure (14), a data transmission module (15) is arranged at the left side of the heat dissipation device (2) at the upper end of the outer box (10), the heat dissipation device (2) comprises a first heat dissipation box (21), a second heat dissipation box (22) and two through pipes (23), the first heat dissipation box (21) and the second heat dissipation box (22) are arranged at the upper end of the outer box (10) one by one from left to right, two ends of the two through pipes (23) are respectively connected with the rear ends of the first heat dissipation box (21) and the second heat dissipation box (22), and one end of the two through pipes (23) is connected with a heat dissipation pipe (24);

the two-way pipe (23) comprises an outer pipe (231), a concave pipe (232), a special-shaped jacket (233) and an arc-shaped jacket (234), wherein the concave pipe (232) is arranged inside the outer pipe (231), two ends of the outer pipe (231) are respectively fixed with one ends of a first radiating box (21) and a second radiating box (22), two ends of the concave pipe (232) respectively penetrate through the interiors of the first radiating box (21) and the second radiating box (22), three groups of special-shaped jackets (233) are equidistantly distributed on the outer side wall of the concave pipe (232), a plurality of groups of arc-shaped jackets (234) are uniformly distributed at the upper end and the lower end of the arc-shaped jacket (234) of the outer side wall of the concave pipe (232), and one end of the push rod (235) is provided with a sealing structure (236);

seal structure (236) include push pedal (2361), fixing base (2362) and activity vaulting pole (2365), the one end of push pedal (2361) is provided with closing plate (2363), two sets of the one end of fixing base (2362) is equal fixed mounting at the left and right sides both ends of push rod (235), the lower extreme department that is close to left and right sides edge of closing plate (2363) all is provided with spacing sloping block (2364), the inside of closing plate (2363) is provided with leads sloping block (2366), two sets of the one end that all runs through push pedal (2361) is fixed with the one end of two sets of sloping blocks (2366), movable part (2367) are installed to the one end of activity vaulting pole (2365), movable mounting of movable part (2367) is fixed mutually at fixing base (2362), the one end of push rod (235) runs through push pedal (2361) and closing plate (2363).

2. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 1, wherein: the utility model discloses a heat dissipation box, including heat dissipation box (21), heat dissipation box (22), heat collecting pipe (26), abnormal shape arc board (28) are all installed to the inside of heat dissipation box (21) and heat dissipation box (22), the left side of abnormal shape arc board (28) is provided with connects bellows (29), the inside of wind connection box (29) is provided with fan (210), the one end of L type pipe (25) runs through heat dissipation box (21) and is connected with abnormal shape arc board (28), two sets of heat collecting pipe (26) one end runs through heat dissipation box (21) and heat dissipation box (22) lower extreme respectively and is connected with the lower extreme of two sets of abnormal shape arc boards (28), internally mounted of heat dissipation box (21) and heat dissipation box (22) has dust screen (27).

3. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 2, wherein: the front end of outer case (10) is close to left and right sides edge department all is provided with mounting structure (11), support frame (12) are installed to the lower extreme of outer case (10), the right side of outer case (10) is provided with condenser (13), the one end of L type pipe (25) is connected with the upper end of condenser (13).

4. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 3, wherein: the front end of condenser (13) is provided with connection structure (14), the one end of outer case (10) is provided with cold water tank (16), the right side of cold water tank (16) is connected with connecting pipe (17), the left side of cold water tank (16) is provided with connecting pipe No. two (18).

5. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 4, wherein: one end of the first connecting pipe (17) penetrates into the outer box (10), and one end of the second connecting pipe (18) is connected with the right side of the condenser (13).

6. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 3, wherein: the mounting structure (11) comprises a protection plate (111) and inner hexagon bolts (115), wherein observation windows (112) are formed in the positions, close to the left edge and the right edge, of the front ends of the protection plate (111), and round holes (113) are formed in the positions, close to the four corners, of the front ends of the protection plate (111) in a penetrating mode.

7. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 6, wherein: the front end of the outer box (10) is close to the left edge and the right edge, long holes are formed in the front end of the outer box (10) in a penetrating mode, threaded holes (114) are formed in the four corners of the outer box, which are close to the long holes, the two groups of protection plates (111) are arranged at one ends of the two groups of long holes respectively, and one ends of a plurality of groups of inner hexagon bolts (115) penetrate through the round holes (113) and are in threaded connection with the plurality of groups of threaded holes (114).

8. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 4, wherein: connection structure (14) are including communicating pipe (141), water pump (142), aqueduct (143), evaporimeter (144), chiller main part (145), converter (146), no. one water tank (147) and No. two water tanks (148), the one end of communicating pipe (141) is connected with the one end of condenser (13), just the one end of communicating pipe (141) runs through outer case (10) and is connected with the one end of aqueduct (143), the left side of water pump (142) is provided with the mechanical tubes, just the other end of mechanical tubes is connected with the one end of No. one water tank (147), the front end of No. one water tank (147) is provided with the back flow, the other end of back flow is connected with the one end of No. two water tanks (148), the other end of aqueduct (143) is connected with the one end of water pump (142).

9. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 8, wherein: the water pump (142), the evaporator (144), the frequency converter (146) and the second water tank (148) are sequentially arranged in the outer box (10) from right to left, the water chiller main body (145) is located at the rear of the evaporator (144), the first water tank (147) is located at the rear of the frequency converter (146), and the evaporator (144) and the first water tank (147) are both arranged in the outer box (10).

10. The variable frequency industrial chiller with heat recovery based on 5G data transmission of claim 9, wherein: the frequency converter (146) is electrically connected with the water pump (142), the evaporator (144), the water chiller main body (145), the condenser (13) and the cold water tank (16), and the frequency converter (146) is electrically connected with the data transmission module (15).