CN203419952U - Water cooling system - Google Patents
Water cooling system Download PDFInfo
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- CN203419952U CN203419952U CN201320570390.7U CN201320570390U CN203419952U CN 203419952 U CN203419952 U CN 203419952U CN 201320570390 U CN201320570390 U CN 201320570390U CN 203419952 U CN203419952 U CN 203419952U
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Abstract
The utility model provides a water cooling system. The water cooling system comprises a heat preservation box, a temperature control assembly, a pressure control assembly, a flow control assembly, a PLC (Programmable Logic Controller) and a water inlet assembly, wherein the temperature control assembly comprises a steam pipe, a steam pressure gauge, a steam operated valve and a temperature detector; the pressure control assembly comprises a water pumping pipe, a variable-frequency water pump and a water pressure detector; the flow control assembly comprises a water outlet pipe, a backflow pipe, a spraying pipe, a water pumping flowmeter, a backflow flowmeter, a backflow adjusting valve, a water outlet adjusting valve, a backflow pneumatic valve, a water outlet pneumatic valve, multiple spraying flowmeters and multiple spraying adjusting valves. The water cooling system has the advantages that the temperature accuracy and range of the cooling water can adjusted, and meanwhile, the control on the pressure and flow range, accuracy and response time of the cooling water is also accurate.
Description
Technical field
The utility model relates to water cooling technology, particularly relates to a kind of water cooling system that can control a plurality of parameters.
Background technology
At present, national industrial policies actively encourage new metallic material industry to new high-tech product future development, thereby promote developing rapidly of domestic new metallic material industry, product output continuous expansion.Domestic enterprise is also more and more closer to the concern of new metallic material industry, and newly-increased investment is up-trend, and during " 12 ", the major fields of new metallic material industry will become hot issue.New metallic material is mainly used in comprising all respects such as petrochemical complex, mechanical electric power, health care, building materials, household electrical appliances communication, national defense construction, energy development, communications and transportation and high-tech industry.The developing direction of its emphasis, for improving material property, increasing the service life, is being controlled with accurate to structure refinement qualitatively, and the cleanliness factor and the development of uniformity coefficient aspect that improve material.
In the production process of whole material, water cooling treatment process has played conclusive effect to the structure refinement of material and accurate control.But, control to water coolant in traditional water cooling system is simpler, cannot regulate the temperature accuracy of water coolant and scope, the control of the scope of pressure and flow, precision and time of response is also comparatively coarse, controllable parameter is less, to the austenite phase transformation of material and separate out that controllability is poor, means are few, can not meet market to the research and development of type material and produce the demand day by day improving.The current pressure setting range of water cooling system is generally 2~3 times, and flow is 2~5 times, and the dependency of its parameter is stronger, and while changing one of them parameter, another parameter also can change.New metallic material requires its speed of cooling fast, cooling performance is even, also will accurately control cooling terminating point fast, when arriving dynamic phase trasnsition point, stops in time supper-fast cooling, by controlling the segmentation of refrigerating unit, can guarantee the accurate control of final temperature.Yet current water cooling system cannot meet above-mentioned requirements.
Utility model content
Based on this, be necessary for the control to water coolant in traditional water cooling system simpler, cannot regulate the temperature accuracy of water coolant and scope, the control of the scope of pressure and flow, precision and time of response is comparatively coarse problem also, providing a kind of can regulate the temperature accuracy of water coolant and scope, and the comparatively accurate water cooling system of the control of the scope of pressure and flow, precision and time of response.
, comprise insulation can, temperature-controlling module, pressure control assembly, flow control assembly, PLC and water inlet component,
Described temperature-controlling module comprises vapour pipe, steam pressure regulator, steam motorized valve and temperature monitor, described vapour pipe is communicated to the inside of described insulation can, described steam pressure regulator, steam motorized valve is connected in series in the pipeline of described vapour pipe, and be electrically connected to respectively described PLC, described temperature monitor is installed on the inside of described insulation can and is electrically connected to described PLC, described temperature monitor detect insulation can inside temperature and by temperature signal real-time transfer to described PLC, temperature in insulation can is during lower than temperature preset value, described PLC controls and opens described steam motorized valve, described steam pressure regulator detects vapor pressure in described vapour pipe and real-time transfers to described PLC, described PLC is according to the aperture of steam motorized valve described in described Steam pressure control, in insulation can, temperature reaches after temperature preset value, close described steam motorized valve,
Described pressure control assembly comprises drinking-water pipe, variable frequency pump and hydraulic pressure detector, one end of the described pipeline that draws water is communicated to the water outlet of described insulation can, described variable frequency pump, hydraulic pressure detector are connected in series in respectively in the pipeline of described drinking-water pipe, and be electrically connected to respectively described PLC, described hydraulic pressure detector detects the hydraulic pressure in described drinking-water pipe and hydraulic signal is transferred to described PLC, and described PLC controls the operating frequency of described variable frequency pump according to described hydraulic signal;
Described flow control assembly comprises rising pipe, return line, shower, under meter draws water, return flow meter, return valve, go out water regulating valve, backflow pneumavalve, water outlet pneumavalve, a plurality of spray flow meters and with described a plurality of spray flow meters a plurality of spray variable valve one to one, the other end of the described pipeline that draws water is communicated to respectively one end of described return line and one end of described rising pipe, the other end of described return line is communicated to the inside of described insulation can, the other end of described rising pipe is communicated to described shower, the described under meter that draws water is connected in series in the pipeline of described drinking-water pipe, described return line has the first backflow branch road and the second backflow branch road being connected in parallel, described return flow meter and described return valve are connected in series in described the first backflow branch road, described backflow pneumavalve is connected in described the second backflow branch road, described water outlet pneumavalve with described in go out in the pipeline that water regulating valve is connected in series in described rising pipe, described a plurality of spray flow meter and a plurality of spray variable valve are installed in the pipeline of described shower, the described under meter that draws water, return flow meter, return valve, go out water regulating valve, backflow pneumavalve, water outlet pneumavalve, a plurality of spray flow meters are electrically connected to respectively described PLC with a plurality of spray variable valve,
Described water inlet component comprises water inlet pipe and water inlet motorized valve, and described water inlet pipe is communicated to described insulation can, and described water inlet motorized valve is connected in the pipeline of described water inlet pipe.
In an embodiment, also comprise drinking-water pipe water temperature detector therein, described drinking-water pipe water temperature detector is connected in the pipeline of described drinking-water pipe and is electrically connected to described PLC.
In an embodiment, on described insulation can, be connected with upflow tube therein, overflow variable valve is installed on described upflow tube.
Above-mentioned water cooling system, can regulate the temperature accuracy of water coolant and scope, and meanwhile, the pressure of water coolant and the control of the scope of flow, precision and time of response are also comparatively accurate.
Accompanying drawing explanation
Fig. 1 is the temperature control principle drawing of the water cooling system of an embodiment;
Fig. 2 is the pressure-controlling schematic diagram of the water cooling system of an embodiment;
Fig. 3 is the flow control schematic diagram of the water cooling system of an embodiment.
Embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is elaborated.
As shown in Figure 1, in one embodiment, a kind of water cooling system, comprises insulation can 110, temperature-controlling module 120, pressure control assembly 130, flow control assembly 140, PLC150 and water inlet component 160.Water inlet component 160 comprises water inlet pipe 162 and water inlet motorized valve 164.Water inlet pipe 162 is communicated to insulation can 110, and water inlet motorized valve 164 is connected in the pipeline of water inlet pipe 162.
Temperature-controlling module 120 comprises vapour pipe 122, steam pressure regulator 124, steam motorized valve 126 and temperature monitor 128.Vapour pipe 122 is communicated to the inside of insulation can 110, steam pressure regulator 124, steam motorized valve 126 is connected in series in the pipeline of vapour pipe 122, and be electrically connected to respectively PLC150, temperature monitor 128 is installed on the inside of insulation can 110 and is electrically connected to PLC150, temperature monitor 128 detect insulation can 110 inside temperature and by temperature signal real-time transfer to PLC150, temperature in insulation can 110 is during lower than temperature preset value, PLC150 controls and opens steam motorized valve 126, steam pressure regulator 124 detects vapor pressure in vapour pipes 122 the real-time PLC150 that transfers to, PLC150 is according to the aperture of Steam pressure control steam motorized valve 126.Concrete adjustment process: detect the water level in attemperater 110 by water level detection switch, under the operating mode of appointment, PLC150 opens into 164 water inlets of water motorized valve, arrives after specified location when water level detection switch detects water level, stops into water; By temperature monitor 128, detected the deviation of water temperature and preset value, if temperature is low, PLC150 is by opening the 126 feedwater heating of steam motorized valve.Simultaneously, steam pressure regulator 124 is set, can monitor intuitively the variation of the vapor pressure in vapour pipe 122 on the one hand, on the other hand, when pressure that can be in vapour pipe 122 is excessive, increase the aperture of steam motorized valve 126, when pressure in vapour pipe 122 is too small, reduce the aperture of steam motorized valve 126, so that the vapor pressure in vapour pipe 122 keeps within the specific limits, in the work-ing life that is conducive to extension steam pipe 122, even can avoid the potential safety hazard because of the excessive generation of vapor pressure in vapour pipe 122.In attemperater, water temperature reaches after temperature preset value, and steam off motorized valve 126 stops heating.
In the present embodiment, water cooling system, also comprises drinking-water pipe water temperature detector 170.Drinking-water pipe water temperature detector 170 is connected in the pipeline of drinking-water pipe 132 and is electrically connected to PLC150.On insulation can 110, be connected with upflow tube 180, overflow variable valve 182 is installed on upflow tube 180.
The concrete analysis of the temperature of water coolant, pressure and flow control principle is as follows.
Temperature-controlling module is to utilize steam to heat water coolant, and is detected by transmitter input PLC150 by temperature detect switch, controls the switching of steam motorized valve 126 by PLC150, control quantity of steam number, finally make water coolant meet the requirements of temperature.It can reach: the temperature regulating range of controlling water coolant: room temperature~95 ℃; The error of Heating temperature is in ± 3 ℃; Hot steam is directly mixed with water, can not produce extra water coolant.Solved in existing traditional water-cooling system and do not carried out coolant controlled shortcoming, the temperature of water coolant is controlled and can be improved the setup time of the boiling cooling stages of material (both temperature of cooling water was to the time of boiling point), water temperature is higher, and setup time is shorter.Come to life cooling after, this stage material directly contacts with high-temperature water, high-temperature water is in the fierce boiling of material surface, the bubble of constantly overflowing has been taken away a large amount of heats, so the speed of cooling of material is very large.Just the speed of cooling of controlled prepared material from high temperature to water temperature region, provides sharp condition for high speed is cooling thus.
Pressure control assembly is in water system, to increase by a road with the upflow tube 180 of overflow variable valve 182, by the flow in overflow variable valve 182 controlling water kick pipes 180, meanwhile, coordinates the rotating speed of variable frequency pump 134, sets up different pressures in system.Object is to reach: the cooling pressure regulation range 2~20bar that controls water coolant.Solved the narrow defect of water system pressure regulation range in existing traditional water-cooling system.When water coolant is ejected into moment of material surface, can be heated immediately and vaporize, on material 50 surfaces, form one deck steam film.Because the heat conductivility of film is poor, it is very slow that drum is surrounded by it isolated workpiece cooling rate.Initial stage, because material 50 liberated heats are greater than the heat that medium siphons away from steam film, so film constantly thickens.The adjusting of cooling water pressure can rely on the hitting power of water to destroy steam film, thereby makes material enter boiling cooling stages, thereby realizes cooling fast.The increase of pressure regulation range has improved the ability of cooling stages destruction steam film, solves type material speed of cooling is required to high trend.
Flow control assembly is the flow control problem that solves each cooling point in traditional water system.The flow of water coolant each point by the under meter 144 that draws water, return flow meter 145, return valve 146, go out water regulating valve 147, backflow pneumavalve 148, water outlet pneumavalve 149, a plurality of spray flow meter 211 and realize closed-loop control with a plurality of spray variable valve 212.Due to the trial-production at same novel material or in producing, to guarantee cooling homogeneity, thus the required water yield difference of each cooling point in system, by increase the adjusting that corresponding measuring element and regulatory element are realized flow in each cooling point.By flow is controlled, the throughput ratio of the pipeline of same stages can reach 1:2.5, than traditional method, has improved 50%; Single-stage piping flow regulation range reaches 1:10, is 3 times of traditional method; Dynamic responding speed is 2s, than the time of traditional method few 50%.
For widening its subject range, increasing on the basis of the corresponding hardware of first three items, the input parameter of PLC is modified, to guarantee that these three parameters of pressure, flow and temperature can carry out independent adjusting in 90% scope.Thus, enrich greatly the working range of water cooling system, improved the science of technique and the cost performance of equipment.
The realization of water cooling system of the present utility model can be according to the existing different flexible configuration changes of constituent parts, and only needing that existing water system is carried out to certain innovative approach meets greatly new requirement.Less fund be can drop into, research and development and throughput just increased substantially.For example, can increase separately temperature adjusting or pressure and regulate, also can in system, singly add software, original system is optimized.
The water cooling system scope of application of the present utility model: metallic substance comprises the water cooling of the metals such as iron and steel, copper, aluminium; Material width: 200~450mm; Material thickness: 5~80mm; The maximum speed of cooling of material: 100 ℃/s; Surface cool temperature deviation: T ± 2.5%.
Being of wide application of water cooling system of the present utility model, for example: the controlled rolling and controlled cooling of hot-rolled steel sheet, the surface cleaning of cold-reduced sheet, the solution treatment of freight container tank body end socket are, the pressure of steel rolling working roll is cooling, all need water cooling link in the production technique of the production of iron and steel high-abrasive material, aluminium casting-rolling technology, secondary aluminum and copper annealing process.So the water cooling system of multivariable control extends in above-mentioned technique, research and develop and produce more novel material.
The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.
Claims (3)
1. a water cooling system, is characterized in that, comprises insulation can, temperature-controlling module, pressure control assembly, flow control assembly, PLC and water inlet component,
Described temperature-controlling module comprises vapour pipe, steam pressure regulator, steam motorized valve and temperature monitor, described vapour pipe is communicated to the inside of described insulation can, described steam pressure regulator, steam motorized valve is connected in series in the pipeline of described vapour pipe, and be electrically connected to respectively described PLC, described temperature monitor is installed on the inside of described insulation can and is electrically connected to described PLC, described temperature monitor detect insulation can inside temperature and by temperature signal real-time transfer to described PLC, temperature in insulation can is during lower than temperature preset value, described PLC controls and opens described steam motorized valve, described steam pressure regulator detects vapor pressure in described vapour pipe and real-time transfers to described PLC, described PLC is according to the aperture of steam motorized valve described in described Steam pressure control, in insulation can, temperature reaches after temperature preset value, close described steam motorized valve,
Described pressure control assembly comprises drinking-water pipe, variable frequency pump and hydraulic pressure detector, one end of the described pipeline that draws water is communicated to the water outlet of described insulation can, described variable frequency pump, hydraulic pressure detector are connected in series in respectively in the pipeline of described drinking-water pipe, and be electrically connected to respectively described PLC, described hydraulic pressure detector detects the hydraulic pressure in described drinking-water pipe and hydraulic signal is transferred to described PLC, and described PLC controls the operating frequency of described variable frequency pump according to described hydraulic signal;
Described flow control assembly comprises rising pipe, return line, shower, under meter draws water, return flow meter, return valve, go out water regulating valve, backflow pneumavalve, water outlet pneumavalve, a plurality of spray flow meters and with described a plurality of spray flow meters a plurality of spray variable valve one to one, the other end of the described pipeline that draws water is communicated to respectively one end of described return line and one end of described rising pipe, the other end of described return line is communicated to the inside of described insulation can, the other end of described rising pipe is communicated to described shower, the described under meter that draws water is connected in series in the pipeline of described drinking-water pipe, described return line has the first backflow branch road and the second backflow branch road being connected in parallel, described return flow meter and described return valve are connected in series in described the first backflow branch road, described backflow pneumavalve is connected in described the second backflow branch road, described water outlet pneumavalve with described in go out in the pipeline that water regulating valve is connected in series in described rising pipe, described a plurality of spray flow meter and a plurality of spray variable valve are installed in the pipeline of described shower, the described under meter that draws water, return flow meter, return valve, go out water regulating valve, backflow pneumavalve, water outlet pneumavalve, a plurality of spray flow meters are electrically connected to respectively described PLC with a plurality of spray variable valve,
Described water inlet component comprises water inlet pipe and water inlet motorized valve, and described water inlet pipe is communicated to described insulation can, and described water inlet motorized valve is connected in the pipeline of described water inlet pipe.
2. water cooling system according to claim 1, is characterized in that, also comprises drinking-water pipe water temperature detector, and described drinking-water pipe water temperature detector is connected in the pipeline of described drinking-water pipe and is electrically connected to described PLC.
3. water cooling system according to claim 1, is characterized in that, on described insulation can, is connected with upflow tube, and overflow variable valve is installed on described upflow tube.
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CN201320570390.7U CN203419952U (en) | 2013-09-02 | 2013-09-02 | Water cooling system |
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CN201320570390.7U CN203419952U (en) | 2013-09-02 | 2013-09-02 | Water cooling system |
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Cited By (10)
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CN103861879A (en) * | 2014-03-28 | 2014-06-18 | 东北大学 | Online cooling device and control method for moderate-thickness plate |
CN104328486A (en) * | 2014-11-22 | 2015-02-04 | 刘瑜 | Cooling water pressure closed-loop control system of kyropoulos sapphire crystal growth equipment |
CN106834634A (en) * | 2017-02-17 | 2017-06-13 | 东北大学 | Quenching experimental device and quenching assay method |
CN107537867A (en) * | 2017-08-04 | 2018-01-05 | 北京首钢股份有限公司 | A kind of monitoring method and system of collector valve response time |
CN109577923A (en) * | 2018-12-03 | 2019-04-05 | 重庆大学 | It is a kind of for measure coal-bed gas exploitation test when reverse irrigation amount device |
WO2019174826A1 (en) | 2018-03-12 | 2019-09-19 | Sms Group Gmbh | Cooling unit of a laminar cooling device |
CN110806052A (en) * | 2019-11-20 | 2020-02-18 | 陈力群 | Cooling circulating water system |
CN111978996A (en) * | 2020-07-30 | 2020-11-24 | 哈尔滨锅炉厂有限责任公司 | Bed temperature control device and method for biomass gasification furnace |
CN112958620A (en) * | 2021-02-03 | 2021-06-15 | 广东韶钢松山股份有限公司 | Control method and control equipment of water cooling system and water cooling control system |
CN115420045A (en) * | 2022-08-30 | 2022-12-02 | 江苏沙钢集团有限公司 | Pre-fogging type aerial fog cooling system and air-water control method |
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2013
- 2013-09-02 CN CN201320570390.7U patent/CN203419952U/en not_active Expired - Lifetime
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103861879A (en) * | 2014-03-28 | 2014-06-18 | 东北大学 | Online cooling device and control method for moderate-thickness plate |
CN104328486A (en) * | 2014-11-22 | 2015-02-04 | 刘瑜 | Cooling water pressure closed-loop control system of kyropoulos sapphire crystal growth equipment |
CN104328486B (en) * | 2014-11-22 | 2016-10-19 | 宁波晶工晶体科技有限公司 | A kind of cooling water pressure closed-loop control system of kyropoulos sapphire crystallization equipment |
CN106834634A (en) * | 2017-02-17 | 2017-06-13 | 东北大学 | Quenching experimental device and quenching assay method |
CN107537867B (en) * | 2017-08-04 | 2019-07-12 | 北京首钢股份有限公司 | A kind of monitoring method and system collecting the tube valve response time |
CN107537867A (en) * | 2017-08-04 | 2018-01-05 | 北京首钢股份有限公司 | A kind of monitoring method and system of collector valve response time |
WO2019174826A1 (en) | 2018-03-12 | 2019-09-19 | Sms Group Gmbh | Cooling unit of a laminar cooling device |
US11745237B2 (en) | 2018-03-12 | 2023-09-05 | Sms Group Gmbh | Cooling unit of a laminar cooling device |
CN109577923A (en) * | 2018-12-03 | 2019-04-05 | 重庆大学 | It is a kind of for measure coal-bed gas exploitation test when reverse irrigation amount device |
CN110806052A (en) * | 2019-11-20 | 2020-02-18 | 陈力群 | Cooling circulating water system |
CN111978996A (en) * | 2020-07-30 | 2020-11-24 | 哈尔滨锅炉厂有限责任公司 | Bed temperature control device and method for biomass gasification furnace |
CN112958620A (en) * | 2021-02-03 | 2021-06-15 | 广东韶钢松山股份有限公司 | Control method and control equipment of water cooling system and water cooling control system |
CN115420045A (en) * | 2022-08-30 | 2022-12-02 | 江苏沙钢集团有限公司 | Pre-fogging type aerial fog cooling system and air-water control method |
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Granted publication date: 20140205 |