CN113154554A - Refrigeration station system based on prefabricated heat exchange - Google Patents

Abstract

The invention discloses a refrigeration station system based on prefabricated heat exchange, which comprises a cold machine module, a softened water tank, a servo motor, a driving gear and a driving rod, wherein the cold machine module consists of a power distribution device, a cooling water pump, a water chilling unit, a heat exchange unit, a water softening device, a softened water tank, a constant-pressure water supplementing device, a frozen water pump and an automatic medicine adding device, the lower surface of the softened water tank is provided with a sundry outlet, a partition plate is welded and fixed inside the softened water tank, the servo motor is fixed on the upper surface of the softened water tank through a bolt, the output end of the servo motor is welded and fixed with a connecting rod, and the inside of the softened water tank is rotatably connected with a rotating rod. This system based on prefabricated heat transfer refrigeration station is provided with clearance piece, drive gear, stopper, blocks piece, actuating lever and haulage rope, makes the automatic bottom to softening the water tank of clearance piece clear up, and then has reduced staff's work load, also makes the degree of automation of whole device increase simultaneously.

Description

Refrigeration station system based on prefabricated heat exchange

Technical Field

The invention relates to the technical field of heat exchange refrigerating stations, in particular to a refrigerating station system based on prefabricated heat exchange.

Background

In the middle of the present high-rise building, in order to make people more comfortable in office life therein, a prefabricated heat exchange refrigerating station is required to be used, and the indoor temperature is adjusted by placing the whole heat exchange refrigerating station on the roof of the building or on the outdoor flat ground.

Some existing refrigeration station systems based on prefabricated heat exchange have the following problems:

the system has the advantages that firstly, the practicability is poor, and the existing cooling towers based on the prefabricated heat exchange refrigerating station system are not arranged above a cold machine module container, so that the space utilization rate of the whole device is poor, and meanwhile, a natural cold source cannot be reasonably utilized, so that the whole system cannot be used for data centers and application items needing refrigeration all year round;

two, the clearance is convenient inadequately, and some current based on the water softening installation of prefabrication heat transfer refrigerating station system in to the softened water tank soften the processing, because calcium, the magnesium ion of softening processing aquatic form the incrustation scale easily, and because softened water tank volume is great, the work load when staff regularly gets into the clearance is great, and then has increased staff's work load, has also wasted the labour simultaneously.

We have therefore proposed a system based on a prefabricated heat exchange refrigeration station in order to solve the problems set out above.

Disclosure of Invention

The invention aims to provide a refrigeration station system based on prefabricated heat exchange, and the refrigeration station system based on prefabricated heat exchange is used for solving the problems that the existing cooling towers based on the existing refrigeration station system in the market are not arranged above a cold machine module container, so that the space utilization rate of the whole device is poor, and meanwhile, a natural cold source cannot be reasonably utilized, so that the whole system cannot be used for a data center and application items needing refrigeration all the year round.

To achieve the above object, the present invention provides the following techniques: a refrigerating station system based on prefabricated heat exchange comprises a cold machine module, a softened water tank, a servo motor, a driving gear and a driving rod, wherein the cold machine module consists of a power distribution device, a cooling water pump, a cold water machine set, a heat exchange machine set, a water softening device, a softened water tank, a constant-pressure water replenishing device, a frozen water pump and an automatic medicine feeding device, the lower surface of the softened water tank is provided with a sundry port, a partition plate is fixed inside the softened water tank in a welded mode, the servo motor is fixed on the upper surface of the softened water tank in a bolt mode, a connecting rod is fixed at the output end of the servo motor in a welded mode, a rotating rod is connected inside the softened water tank in a rotating mode, a bevel gear is fixed at the tail end of the rotating rod in a welded mode, a connecting rod is connected inside the softened water tank in a rotating mode, a traction rope is fixedly connected to the outer surface of the connecting rod, and a cleaning block is arranged on the outer surface of the connecting rod, the inside welded fastening who softens the water tank also has the stopper, and the inside welded fastening of stopper has the axis of rotation to the surface of axis of rotation is provided with the connecting block, the inside welded fastening of stopper has the stopper.

Preferably, the outer surface of the connecting rod is inlaid and rotatably connected with a driving gear, the driving gear is connected with the bevel gear in a meshing manner, and a driving rod is fixed on the upper surface of the driving gear in a welding manner.

Preferably, the rotating rod is fixedly connected with the traction rope, the rotating rod forms a transmission structure through the traction rope and the connecting rod, and the transmission structure is in central symmetry distribution about the vertical central axis of the softened water tank.

Preferably, the connection mode between the connecting rod and the cleaning block is threaded connection, and the cleaning block and the softened water tank form a sliding structure.

Preferably, the cleaning blocks correspond to the connecting rods one by one, the cleaning blocks are triangular in shape, and the thread directions of the 2 groups of connecting rods are opposite.

Preferably, the limiting block is in a hollow cylinder shape, and 2 groups of blocking blocks and rotating shafts are symmetrically arranged inside the limiting block.

Preferably, the connecting blocks and the rotating shaft form a rotating structure, the distance between the lower surfaces of the connecting blocks and the driving gear is smaller than the height of the driving rod, and the 2 groups of connecting blocks are distributed in an axial symmetry mode.

Preferably, the distance between the lower end of the blocking block and the lower end of the connecting block is smaller than the length of the connecting block, and the blocking block is not in contact with the driving rod.

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

the refrigerating station system based on prefabricated heat exchange is provided with a refrigerator module, a power distribution device, a cooling water pump, a water chilling unit, a heat exchange unit, a water softening device, a softened water tank, a constant-pressure water replenishing device, a freezing water pump and an automatic medicine adding device, wherein 2 refrigerator modules are arranged to integrate a cold source system, the refrigerating capacity of a refrigerator can be correspondingly adjusted according to the system requirement, the utilization of a natural cold source is realized through the replacement of an embedded plate, a cooling tower can be arranged above a container of the refrigerator module, the space is saved, and the refrigerating pump can also be arranged at other proper positions;

two, this system is provided with the clearance piece based on prefabricated heat transfer refrigerating station, drive gear, the stopper, block the piece, actuating lever and haulage rope, through blocking the piece, the one-way spacing of stopper and actuating lever, can make whole device stir the water in the softened water tank, thereby make water and the more abundant contact of softened water device, and then make the work of whole device more smooth, and through drive gear, the transmission of conical gear and haulage rope, can make the automatic bottom to softened water tank of clearance piece clear up, and then reduced staff's work load, the degree of automation that also makes whole device simultaneously increases, and transmission through the haulage rope, it appears by the condition of incrustation scale interference operation to have reduced whole cleaning device.

Drawings

FIG. 1 is a schematic diagram of a first layer structure of a refrigerating machine module of a refrigeration station system based on prefabricated heat exchange of the present invention;

FIG. 2 is a schematic diagram of a second layer structure of a refrigerating machine module of a refrigerating station system based on prefabricated heat exchange of the present invention;

FIG. 3 is a schematic cross-sectional structural view of a softening water tank of a refrigeration station system based on prefabricated heat exchange;

FIG. 4 is an enlarged schematic view of a refrigeration station system based on prefabricated heat exchange shown in FIG. 3;

FIG. 5 is a schematic view of a top cross-sectional structure of a system drive gear based on a prefabricated heat exchange refrigeration station of the present invention;

fig. 6 is a schematic view of a sectional view of a limiting block of a refrigeration station system based on prefabricated heat exchange.

In the figure: 1. a chiller module; 2. a power distribution device; 3. a cooling water pump; 4. a water chilling unit; 5. a heat exchanger unit; 6. a water softening device; 7. softening the water tank; 8. a constant pressure water replenishing device; 9. a chilled water pump; 10. an automatic dosing device; 11. a sundry outlet; 12. a partition plate; 13. a servo motor; 14. a connecting rod; 15. a drive gear; 16. rotating the rod; 17. a bevel gear; 18. a connecting rod; 19. a hauling rope; 20. cleaning the block; 21. a limiting block; 22. a rotating shaft; 23. connecting blocks; 24. a blocking block; 25. a drive rod.

Detailed Description

The technology in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technique: a refrigeration station system based on prefabricated heat exchange comprises a cold machine module 1, a power distribution device 2, a cooling water pump 3, a cold water machine set 4, a heat exchange machine set 5, a water softening device 6, a softened water tank 7, a constant-pressure water replenishing device 8, a frozen water pump 9, an automatic medicine feeding device 10, an impurity outlet 11, a partition plate 12, a servo motor 13, a connecting rod 14, a driving gear 15, a rotating rod 16, a bevel gear 17, a connecting rod 18, a traction rope 19, a cleaning block 20, a limiting block 21, a rotating shaft 22, a connecting block 23, a blocking block 24 and a driving rod 25, wherein the cold machine module 1 consists of the power distribution device 2, the cooling water pump 3, the cold water machine set 4, the heat exchange machine set 5, the water softening device 6, the softened water tank 7, the constant-pressure water replenishing device 8, the frozen water pump 9 and the automatic medicine feeding device 10, the impurity outlet 11 is formed in the lower surface of the softened water tank 7, the partition plate 12 is welded and fixed inside the softened water tank 7, soften the upper surface bolted fixation of water tank 7 and be equipped with servo motor 13, and servo motor 13's output welded fixation has connecting rod 14, the inside of softening water tank 7 is rotated and is connected with dwang 16, and the terminal welded fixation of dwang 16 has conical gear 17, and the inside of softening water tank 7 is rotated and is connected with linking pole 18, the external fixed surface of linking pole 18 is connected with haulage rope 19, and the surface of linking pole 18 is provided with clearance piece 20, the inside welded fixation of softening water tank 7 also has stopper 21, and the inside welded fixation of stopper 21 has axis of rotation 22, and the surface of axis of rotation 22 is provided with connecting block 23, the inside welded fixation of stopper 21 has stopper 24.

The outer surface of connecting rod 14 inlays to rotate and is connected with drive gear 15, and the connected mode between drive gear 15 and the bevel gear 17 is connected for the meshing to the upper surface welded fastening of drive gear 15 has actuating lever 25, through the transmission of drive gear 15 and bevel gear 17, can make the structure linkage of whole device stronger, makes the structural complexity of whole device reduce.

The connected mode between dwang 16 and the haulage rope 19 is fixed connection, and the dwang 16 constitutes transmission structure through haulage rope 19 and linking pole 18 to this transmission structure is central symmetric distribution about softening the vertical axis of water tank 7, can make whole cleaning device and soften the inside water contact area reduction of water tank 7, thereby can reduce the influence of incrustation scale to whole cleaning structure, and then make better the carrying on work of whole device.

The connection mode between the connecting rod 18 and the cleaning block 20 is threaded connection, the cleaning block 20 and the softened water tank 7 form a sliding structure, the cleaning block 20 can be used for driving the cleaning block 20 to move towards the bottom of the softened water tank 7 in a rotating mode, the whole device connecting rod 18 can be made to rotate, and then the cleaning block 20 can be used for cleaning water scales inside the softened water tank 7, the working strength of workers is reduced, and meanwhile labor waste is also reduced.

Clearance piece 20 and the pole 18 one-to-one that links up, and clearance piece 20's appearance is the triangle-shaped form to 2 groups link up the screw thread between the pole 18 to opposite soon, can make water softening installation 6 be faster soften the water in softening water tank 7, thereby make the softening efficiency of whole device to water higher, improved the work efficiency of whole device.

The limiting block 21 is in a hollow cylindrical shape, and 2 groups of blocking blocks 24 and rotating shafts 22 are symmetrically arranged inside the limiting block 21, so that the whole device can automatically switch the automatic stirring of water in the softened water tank cover 7 and the automatic cleaning of water scales through unidirectional rotation, and the automation degree of the whole device is improved.

The connecting blocks 23 and the rotating shaft 22 form a rotating structure, the distance between the lower surface of the connecting blocks 23 and the driving gear 15 is smaller than the height of the driving rod 25, and the 2 groups of connecting blocks 23 are distributed in an axial symmetry manner, so that the driving rod 25 can control the steering of the driving gear 15, and the water in the softened water tank 7 can not be stirred by the connecting rod 14.

The distance that blocks between 24's lower extreme and the connecting block 23 lower extreme is less than connecting block 23's length, and blocks 24 and actuating lever 25 each other contactless, can make block 24 carry on spacingly in, can not influence the rotation of actuating lever 25 to can not influence drive gear 15 and drive the rotation of conical gear 17, and then can not influence the influence of clearance piece 20 incrustation scale in to softening water tank 7.

The working principle of the embodiment is as follows: when the prefabricated heat exchange-based refrigerating station system is used, firstly, as shown in fig. 1-2, two groups of cold machine modules 1, a power distribution device 2, a cooling water pump 3, a cold water machine set 4, a heat exchange machine set 5, a water softening device 6, a softening water tank 7, a constant pressure water supplementing device 8, a refrigerating water pump 9 and an automatic medicine adding device 10 are arranged, a building is refrigerated through a cold machine in summer, and a mechanical refrigeration mode is adopted at the moment; in a transition season, preliminarily precooling the chilled water by a matched cooling tower, and refrigerating by a refrigerator, wherein the pre-cooling mode is adopted; when winter or outdoor weather satisfy natural cooling, the refrigerated water is cooled through the evaporation heat dissipation and the geomantic omen heat transfer of cooling tower, get into the natural cooling mode, and the module of prefabricating has moreover integrated cooling water set 4, heat exchanger unit 5, chilled water pump 9, cooling water pump 3, water softener 6, softened water tank 7, level pressure moisturizing device 8, automatic reagent feeding device 10 etc. equipment, this system is applicable to data center and the application project that needs refrigeration throughout the year, the utilization to the natural cold source is realized to the built-in board trade. The cooling tower can be arranged above the container of the refrigerator module 1, so that the space is saved, and the cooling tower can also be arranged at other suitable positions, the container module is integrated and arranged in a customized mode, each refrigerator module 1 consists of 2 transportation modules with the size of 12000 x 3500 x 3800mm, the cold source system is integrated by taking the refrigerator of 800RT-1200RT as a template, the refrigerating capacity of the refrigerator can be correspondingly adjusted according to the system requirement, and the number of the refrigerator modules 1 can be increased or decreased according to the quantity of the cold load so as to meet the requirement of the system;

according to the illustration in fig. 3-6, when the softened water tank 7 is required to work, the servo motor 13 is turned on, so that the servo motor 13 rotates reversely, because the distance between the lower end of the blocking block 24 and the lower end of the connecting block 23 is smaller than the length of the connecting block 23, the blocking block 24 is not in contact with the driving rod 25, the connecting block 23 and the rotating shaft 22 form a rotating structure, the distance between the lower surface of the connecting block 23 and the driving gear 15 is smaller than the height of the driving rod 25, and 2 groups of connecting blocks 23 are distributed in axial symmetry, so that the connecting rod 14 rotates without driving the driving gear 15 to rotate, and the connecting rod 14 stirs water in the softened water tank 7, thereby improving the water softening efficiency in the softened water tank 7;

when the scale at the bottom of the softened water tank 7 needs to be cleaned, the servo motor 13 is rotated reversely, so that the driving rod 25 is not interfered by the connecting block 23 and the blocking block 24, the connecting rod 14 can drive the driving gear 15 and the bevel gear 17 to rotate, and further the rotating rod 16 rotates, so that the rotating rod 16 winds the traction rope 19, and further the connecting rod 18 rotates, because the connecting mode between the connecting rod 18 and the cleaning block 20 is threaded, and the cleaning block 20 and the softened water tank 7 form a sliding structure, the cleaning block 20 can clean the scale at the bottom of the softened water tank 7, which is the working principle based on the prefabricated heat exchange refrigeration station system, and the content which is not described in detail in the description belongs to the prior art known by the technical personnel in the field.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the above embodiments and/or equivalent changes in some features of the embodiments may be made, and any changes, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides a based on prefabricated heat transfer refrigerating station system, includes cold quick-witted module (1), softens water tank (7), servo motor (13), drive gear (15) and actuating lever (25), its characterized in that: the refrigerator module (1) consists of a power distribution device (2), a cooling water pump (3), a water chilling unit (4), a heat exchange unit (5), a water softening device (6), a softened water tank (7), a constant-pressure water replenishing device (8), a chilled water pump (9) and an automatic medicine feeding device (10), wherein a sundry port (11) is formed in the lower surface of the softened water tank (7), a partition plate (12) is welded and fixed inside the softened water tank (7), a servo motor (13) is fixed on the upper surface of the softened water tank (7) through a bolt, a connecting rod (14) is welded and fixed at the output end of the servo motor (13), a rotating rod (16) is connected to the softened water tank (7) in a rotating mode, a bevel gear (17) is welded and fixed at the tail end of the rotating rod (16), a linking rod (18) is connected to the softened water tank (7) in a rotating mode, a traction rope (19) is, and the surface that links up pole (18) is provided with clearance piece (20), the inside welded fastening of softening water tank (7) also has stopper (21), and the inside welded fastening of stopper (21) has axis of rotation (22) to the surface of axis of rotation (22) is provided with connecting block (23), the inside welded fastening of stopper (21) has stopper piece (24).

2. The system of claim 1, wherein the system comprises: the outer surface of connecting rod (14) is inlayed and is rotated and be connected with drive gear (15), and the connected mode between drive gear (15) and conical gear (17) is connected for the meshing to the upper surface welded fastening of drive gear (15) has actuating lever (25).

3. The system of claim 1, wherein the system comprises: the connection mode between dwang (16) and haulage rope (19) is fixed connection, and dwang (16) constitute transmission structure through haulage rope (19) and linking pole (18), and this transmission structure is central symmetry distribution about the vertical axis of softening water tank (7).

4. The system of claim 1, wherein the system comprises: the connecting mode between the connecting rod (18) and the cleaning block (20) is threaded connection, and the cleaning block (20) and the softened water tank (7) form a sliding structure.

5. The system of claim 1, wherein the system comprises: the cleaning blocks (20) correspond to the connecting rods (18) one by one, the cleaning blocks (20) are triangular in shape, and the thread directions of the 2 groups of connecting rods (18) are opposite.

6. The system of claim 1, wherein the system comprises: the limiting block (21) is in a hollow cylindrical shape, and 2 groups of blocking blocks (24) and rotating shafts (22) are symmetrically arranged inside the limiting block (21).

7. The system of claim 2, wherein the system comprises: the connecting block (23) and the rotating shaft (22) form a rotating structure, the distance between the lower surface of the connecting block (23) and the driving gear (15) is smaller than the height of the driving rod (25), and the 2 groups of connecting blocks (23) are distributed in an axial symmetry mode.

8. The system of claim 2, wherein the system comprises: the distance between the lower end of the blocking block (24) and the lower end of the connecting block (23) is smaller than the length of the connecting block (23), and the blocking block (24) is not in contact with the driving rod (25).

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