CN203621062U - Water supply system for solar silicon wafer cleaning machine - Google Patents

Abstract

The utility model provides a water supply system for a solar silicon wafer cleaning machine. The water supply system comprises a first water inlet pipe, external power equipment and a first intermediate heat exchanger, wherein the first water inlet pipe is communicated with a water inlet of the solar silicon wafer cleaning machine, the external power equipment comprises a heat energy conveying pipeline, and heat exchange is carried out on the first water inlet pipe and the first section of the heat energy conveying pipeline through the first intermediate heat exchanger. Due to the fact that heat treatment is conduced on first reaction water in the first water inlet pipe through heat energy generated by the external power equipment, electricity used for heating is saved, energy consumption and waste of energy sources are reduced, the heat energy of the external power equipment can be recycled, the energy utilization rate is improved, waste of the energy sources is further reduced, and accordingly production cost is reduced and economic benefits of enterprises are improved. Meanwhile, the water supply system has the advantage of being high in use reliability.

Description

For the water system of solar silicon wafers cleaning machine

Technical field

The utility model relates to technical field of solar batteries, more specifically, relates to a kind of water system for solar silicon wafers cleaning machine.

Background technology

In manufacture of solar cells field, the solar cell of making take single polysilicon chip as matrix always is one of the main product in photovoltaic market.Wafer Cleaning operation is to produce last procedure of silicon chip, mainly uses two kinds of cleaning equipments in this procedure, and one is solar silicon wafers degumming machine (prerinse), and its effect is mainly that the silicon chip after multi-wire saw is done to pre-flushing and degumming process; Another kind is solar silicon wafers cleaning machine, and its effect is mainly to use deionized water and medicament after heating to carry out Ultrasonic Cleaning and drying and processing the silicon chip separating after coming unstuck.

In solar silicon wafers degumming machine, the silicon chip that is stained with mortar need to carry out spray irrigation operation, needs to use a large amount of reaction water (water quality not being had to specific (special) requirements, for example: running water or middle water) in this operation, and reaction water should be warm water.If water temperature is too low, as easy as rolling off a logly after shower occur that silicon chip viscose glue side collapses limit problem, causes heavy losses.After silicon chip after spray irrigation carries out the immersion of degumming tank liquid again, silicon chip separates independently of one another, sends into solar silicon wafers cleaning machine after being then filled to slide cassette by artificial point.

In solar silicon wafers cleaning machine, silicon chip need to pass through the PROCESS FOR TREATMENT of pre-potcher-liquid rinse bath-smart potcher-Drying tunnel (or drying case).Pre-potcher is to wash by vibration of ultrasonic wave the particulate dirt that silicon chip surface is remaining off, and for guaranteeing wash effect, it is the overflow deionized water of 50 degrees Celsius of left and right that this link is used water temperature; Liquid rinse bath is organic impurities dirt and the metal ion that removes silicon chip surface by cleaning agent and ultrasonic wave double action, this link use water temperature be 50 degrees Celsius above without overflow deionized water; It is 50 degrees Celsius of above overflow deionized waters that essence potcher uses water temperature, further to remove the residual cleaning agent of silicon chip surface, organic impurities dirt and metal ion.

In prior art, the water supply of solar energy cleaning machine and solar silicon wafers degumming machine is added to the electrically heated mode of thermal recovery, thereby cause that energy consumption is high, energy waste, problem that production cost is high.

Utility model content

The utility model aims to provide a kind of water system for solar silicon wafers cleaning machine, thereby causes to solve in prior art because water supply adds the electrically heated mode of thermal recovery that energy consumption is high, energy waste, problem that production cost is high.

For solving the problems of the technologies described above, the utility model provides a kind of water system for solar silicon wafers cleaning machine, comprising: the first water inlet pipe, and the first water inlet pipe is communicated with the water inlet of solar silicon wafers cleaning machine; External impetus equipment, external impetus equipment comprises thermal energy transfer duct road; The first Intermediate Heat Exchanger, the first paragraph on the first water inlet pipe and thermal energy transfer duct road is by the first Intermediate Heat Exchanger heat exchange.

Further, water system also comprises first flow valve, and first flow valve is arranged on the first paragraph on thermal energy transfer duct road.

Further, water system also comprises: the first detector unit, and the first detector unit is arranged on one end of the water inlet of the close solar silicon wafers cleaning machine of the first water inlet pipe, for detection of the first actual water temperature of the first reaction water in the first water inlet pipe; Controller, controller is connected with the first detector unit, first flow valve, for by the first actual water temperature detecting and the comparison of default technique water temperature, regulate the aperture of first flow valve.

Further, thermal energy transfer duct road comprises: main line; The first bye-pass, the two ends of the first bye-pass are all communicated with the first paragraph of main line, and the first water inlet pipe is by the first Intermediate Heat Exchanger and the first bye-pass heat exchange, and first flow valve is arranged on the import department that main line is connected with the first bye-pass.

Further, thermal energy transfer duct road also comprises the second bye-pass, and the two ends of the second bye-pass are all communicated with the second segment of main line, and water system comprises: the second water inlet pipe, and the second water inlet pipe is communicated with the water inlet of solar silicon wafers degumming machine; The second Intermediate Heat Exchanger, the second water inlet pipe is by the second Intermediate Heat Exchanger and the second bye-pass heat exchange; The second flow valve, the second flow valve is arranged on the second segment of main line, and the second flow valve is positioned between the two ends of the second bye-pass.

Further, water system also comprises: the 3rd water inlet pipe, and the 3rd water inlet pipe is communicated with the reaction inlet of cooling tower; The 3rd Intermediate Heat Exchanger, the 3rd water inlet pipe is by the 3rd section of heat exchange on the 3rd Intermediate Heat Exchanger and thermal energy transfer duct road.

Further, water system also comprises the 3rd flow valve, thermal energy transfer duct road comprises the 3rd bye-pass, the two ends of the 3rd bye-pass are all communicated with the 3rd section of main line, the 3rd water inlet pipe is by the 3rd Intermediate Heat Exchanger and the 3rd bye-pass heat exchange, and the 3rd flow valve is arranged on the import department that main line is connected with the 3rd bye-pass.

Further, external impetus equipment comprises the 4th water inlet pipe, the 4th water inlet pipe is communicated with the circulating reflux import of external impetus equipment, the outlet on thermal energy transfer duct road, water system also comprises: the second detector unit, the second detector unit is arranged on one end of the close circulating reflux import of the 4th water inlet pipe, for detection of the second actual water temperature of the interior recirculated cooling water in the 4th water inlet pipe; Controller, controller is connected with the second detector unit, the 3rd flow valve, for the aperture with default safe water temperature comparison, adjusting the 3rd flow valve by the second actual water temperature detecting.

Further, water system also comprises: water pipe, and water pipe is communicated with thermal energy transfer duct road, and water pipe is between the outlet on the 3rd section of thermal energy transfer duct road and thermal energy transfer duct road; Moisturizing valve, moisturizing valve is arranged on water pipe.

The first water inlet pipe in the utility model is communicated with the water inlet of solar silicon wafers cleaning machine, and external impetus equipment comprises thermal energy transfer duct road, and the first paragraph on the first water inlet pipe and thermal energy transfer duct road is by the first Intermediate Heat Exchanger heat exchange.Because the heat energy that external impetus equipment is produced is heat-treated the first reaction water in the first water inlet pipe, thereby save heating electric, energy consumption and energy waste are reduced, and the heat energy that makes external impetus equipment is recycled, improved energy utilization rate, further reduced energy waste, thereby reduce production cost, improved the economic benefit of enterprise.Meanwhile, the water system in the utility model has the advantages that dependability is high.

Accompanying drawing explanation

The accompanying drawing that forms the application's a part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 has schematically shown the flow chart for water heating method in the utility model; And

Fig. 2 has schematically shown the structural representation of the water system in the utility model.

Reference numeral in figure: 10, external impetus equipment; 11, the 4th water inlet pipe; 12, thermal energy transfer duct road; 12a, main line; 12b, the first bye-pass; 12c, the second bye-pass; 12d, the 3rd bye-pass; 20, solar silicon wafers cleaning machine; 21, the first water inlet pipe; 30, solar silicon wafers degumming machine; 31, the second water inlet pipe; 40, cooling tower; 41, the 3rd water inlet pipe; 50, the first Intermediate Heat Exchanger; 51, first flow valve; 52, the first detector unit; 60, the second Intermediate Heat Exchanger; 61, the second flow valve; 70, the 3rd Intermediate Heat Exchanger; 71, the 3rd flow valve; 72, the second detector unit; 80, water pipe; 81, moisturizing valve; 82, nitrogen-sealed water tank; 83, high pure nitrogen; 84, ultra-pure water; 85, overflow water route; 86, ultrapure water pump; 87, except TOC device; 88, polishing mixed bed; 89, ultraviolet sterilizer; 90, ultimate filter; 91, the first water pump; 92, expansion tank; 93, the second water pump; 94, the first Pressure gauge; 95, the second Pressure gauge.

The specific embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

As first aspect of the present utility model, provide a kind of water heating method that supplies for solar silicon wafers cleaning machine.As shown in Figure 1, comprise the first water inlet pipe 21 places that external impetus equipment 10 moved to produced heat energy and is delivered to solar silicon wafers cleaning machine 20 for water heating method, in order to the first reaction water in the first water inlet pipe 21 is preheated to processing, the first water inlet pipe 21 is communicated with the water inlet of solar silicon wafers cleaning machine 20.Because the heat energy that external impetus equipment 10 is produced is heat-treated the first reaction water in the first water inlet pipe 21, thereby save heating electric, energy consumption and energy waste are reduced, and the heat energy that makes external impetus equipment 10 is recycled, improved energy utilization rate, further reduced energy waste, thereby reduce production cost, improved the economic benefit of enterprise.Meanwhile, the water heating method that supplies in the utility model has simple to operate, energy-saving effect outstanding feature.

In embodiment as shown in Figure 1, also comprise for water heating method the heating-up temperature of controlling the first reaction water, the heating-up temperature of controlling the first reaction water comprises: step S1: gather the first actual water temperature after the first reaction water heating; Step S2: the first actual water temperature and default technique water temperature are compared; Step S3: when the first actual water temperature is during lower than default technique water temperature, increase heat energy, in order to improve the first actual water temperature of the first reaction water; Otherwise, reduce heat energy, in order to reduce the first actual water temperature of the first reaction water.Because the first control method can be according to the comparative result of the first actual water temperature of the first reaction water and default technique water temperature, regulate the supply of heat energy, thereby make the first reaction water temperature have the advantages that temperature uniformity is good, thereby make heat energy be able to reasonable utilization, and then guaranteed the operating reliability for water heating method.Preferably, the first reaction water is deionized water.

In embodiment as shown in Figure 1, also comprise the water preheat that supplies to solar silicon wafers degumming machine 30 for water heating method, the water preheat that supplies to solar silicon wafers degumming machine 30 comprises: the waste heat after heat energy is heated the first reaction water is delivered to the second water inlet pipe 31 places of solar silicon wafers degumming machine 30, in order to the second reaction water in the second water inlet pipe 31 is preheated to processing, the second water inlet pipe 31 is communicated with the water inlet of solar silicon wafers degumming machine 30.Because moving produced heat energy, can also heat the second reaction water in the second water inlet pipe 31 of solar silicon wafers degumming machine 30 external impetus equipment 10, thereby further improve the utilization rate of heat energy, effectively make heat energy be recycled, avoid waste, further reduce electric energy loss, thereby improved the operating reliability for water heating method.Preferably, the second reaction water is middle water or running water.

In embodiment as shown in Figure 1, also comprise used heat processing for water heating method, used heat processing comprises: the used heat after waste heat is heated the second reaction water is delivered to the 3rd water inlet pipe 41 places of cooling tower 40, heat so that used heat is dissipated in order to the outer circulation cooling water in the 3rd water inlet pipe 41, the 3rd water inlet pipe 41 is communicated with the water inlet pipe of cooling tower 40.Due to external impetus equipment 10, to move produced heat energy more sufficient, thereby still have enough and to spare after this heat energy is to the first water inlet pipe 21 and the second water inlet pipe 31 heating, now this part used heat is dissipated by cooling tower 40, thereby guaranteed the dependability of external impetus equipment 10 and the operating reliability for water heating method.

In embodiment as shown in Figure 1, also comprise and control normally operation of external impetus equipment 10 for water heating method, control external impetus equipment 10 normally operation (normal duty, load steady operational status) comprising: step S10: the second actual water temperature that gathers the 4th water inlet pipe 11 places of external impetus equipment 10; Step S20: the second actual water temperature and default safe water temperature are compared; Step S30: when the second actual water temperature is during lower than default safe water temperature, reduce used heat the 3rd water inlet pipe 41 is heated, in order to improve the second actual water temperature; Otherwise, increase used heat the 3rd water inlet pipe 41 heated, in order to reduce the second actual water temperature.Because the second control method can be according to second actual water temperature at the 4th water inlet pipe 11 places of external impetus equipment 10 and the comparative result of presetting safe water temperature, regulate the heat exchange degree of external impetus equipment 10 and cooling tower 40, thereby make in the 4th water inlet pipe 11 of external impetus equipment 10, to there is recirculated cooling water in constant temperature, thereby guarantee that external impetus equipment 10 is normal, when safe operation, also there is the feature that energy recovery efficiency is high.

As second aspect of the present utility model, provide a kind of water system for solar silicon wafers cleaning machine.As shown in Figure 2, water system comprises the first water inlet pipe 21, external impetus equipment 10 and the first Intermediate Heat Exchanger 50, the first water inlet pipe 21 is communicated with the water inlet of solar silicon wafers cleaning machine 20, external impetus equipment 10 comprises that the first paragraph on thermal energy transfer duct road 12, the first water inlet pipes 21 and thermal energy transfer duct road 12 is by the first Intermediate Heat Exchanger 50 heat exchanges.Because the first paragraph on the first water inlet pipe 21 and thermal energy transfer duct road 12 passes through the first Intermediate Heat Exchanger 50 heat exchanges, thereby the first reaction water of the first water inlet pipe 21 is heated, save heating electric, reduced energy consumption and energy waste, and make external impetus equipment 10 move produced heat energy and recycled, improved energy utilization rate, further reduced energy waste, thus guaranteed water system dependability, reduced production cost, improved the economic benefit of enterprise.

In embodiment as shown in Figure 2, water system also comprises first flow valve 51, and first flow valve 51 is arranged on the first paragraph on thermal energy transfer duct road 12.Owing to being provided with first flow valve 51, thereby by regulating first flow valve 51 can change the heat exchange degree of thermal energy transfer duct road 12 and the first water inlet pipe 21, thereby make the temperature of the first reaction water in the first water inlet pipe 21 controlled.

In embodiment as shown in Figure 2, water system also comprises the first detector unit 52 and controller, the first detector unit 52 is arranged on one end of the water inlet of the close solar silicon wafers cleaning machine of the first water inlet pipe 21, for detection of the first actual water temperature of the first reaction water in the first water inlet pipe 21; Controller is connected with the first detector unit 52, first flow valve 51, for by the first actual water temperature detecting and the comparison of default technique water temperature, regulate the aperture of first flow valve 51.Owing to being provided with the first detector unit 52 and detecting the first actual water temperature of the first reaction water in the first water inlet pipe 21, thereby when this first actual water temperature and default technique water temperature relatively after, controller can regulate according to this comparative result the aperture of first flow valve 51, namely regulate the supply of heat energy, thereby change the heat exchange degree of thermal energy transfer duct road 12 and the first water inlet pipe 21, and then the water temperature of the first reaction water temperature is realized and being controlled, guarantee the dependability of water system.Preferably, default technique water temperature is 50 degrees Celsius.Preferably, the first detector unit 52 is temperature sensor.

In embodiment as shown in Figure 2, thermal energy transfer duct road 12 comprises main line 12a and the first bye-pass 12b, the two ends of the first bye-pass 12b are all communicated with the first paragraph of main line 12a, the first water inlet pipe 21 is by the first Intermediate Heat Exchanger 50 and the first bye-pass 12b heat exchange, and first flow valve 51 is arranged on the import department that main line 12a is connected with the first bye-pass 12b.Because first flow valve 51 is arranged on the import department that main line 12a is connected with the first bye-pass 12b, thereby by regulating the aperture of first flow valve 51, can control the proportion of flow of heat energy in main line 12a and the first bye-pass 12b, thereby the achieve effective controls such as the organic efficiency of the water temperature to the first reaction water, the exchange rate of heat energy, heat energy, and then further improve the dependability of water system.

In embodiment as shown in Figure 2, thermal energy transfer duct road 12 also comprises the second bye-pass 12c, the two ends of the second bye-pass 12c are all communicated with the second segment of main line 12a, water system comprises the second water inlet pipe 31, the second Intermediate Heat Exchanger 60 and the second flow valve 61, the second water inlet pipe 31 is communicated with the water inlet of solar silicon wafers degumming machine 30, and the second water inlet pipe 31 is by the second Intermediate Heat Exchanger 60 and the second bye-pass 12c heat exchange; The second flow valve 61 is arranged on the second segment of main line 12a, and the second flow valve 61 is between the two ends of the second bye-pass 12c.Because the second water inlet pipe 31 is by the second Intermediate Heat Exchanger 60 and the second bye-pass 12c heat exchange, thereby make external impetus equipment 10 move produced heat energy can also to heat the second reaction water in the second water inlet pipe 31 of solar silicon wafers degumming machine 30, further improve the utilization rate of heat energy, effectively make heat energy be recycled, avoid waste, further reduce electric energy loss, thereby improved the dependability of water system.Owing to being provided with the second flow valve 61, thereby can regulate the proportion of flow of heat energy in the second bye-pass 12c and main line 12a, thus the achieve effective control such as exchange rate, the organic efficiency of heat energy of the water temperature to the second reaction water, heat energy.Generally, the heat energy second bye-pass 12c that all flows through, heats the second reaction water of the second water inlet pipe 31, thereby makes heat energy recycling as much as possible, has effectively avoided energy dissipation.Preferably, the second flow valve is hand-operated valve.

Certainly, the second reaction water that water system can also only be used solar silicon wafers degumming machine 30 heats, and the first reaction water that solar silicon wafers cleaning machine is used is used electrically heated mode to carry out heat treated.

In embodiment as shown in Figure 2, water system also comprises the 3rd water inlet pipe 41 and the 3rd Intermediate Heat Exchanger 70, the 3rd water inlet pipe 41 is communicated with the reaction inlet of cooling tower 40, and the 3rd water inlet pipe 41 is the 3rd section of heat exchange with thermal energy transfer duct road 12 by the 3rd Intermediate Heat Exchanger 70.The 3rd section of heat exchange with thermal energy transfer duct road 12 by the 3rd Intermediate Heat Exchanger 70 due to the 3rd water inlet pipe 41, thereby after prime heat exchange, still have the heat energy of enough and to spare to dissipate by cooling tower 40, thus guarantee the dependability of water system.Because prime is used thermal energy transfer duct road 12 interior heat, the first reaction water and the/the second reaction water are heated, thereby consumed most heat energy, thereby reduced the used heat dissipation pressure of cooling tower 40, thereby guaranteed that water system normally moves.

In enforcement as shown in Figure 2, water system also comprises the 3rd flow valve 71, thermal energy transfer duct road 12 comprises the 3rd bye-pass 12d, the two ends of the 3rd bye-pass 12d are all communicated with the 3rd section of main line 12a, the 3rd water inlet pipe 41 is by the 3rd Intermediate Heat Exchanger 70 and the 3rd bye-pass 12d heat exchange, and the 3rd flow valve 71 is arranged on the import department that main line 12a is connected with the 3rd bye-pass 12d.Because the 3rd flow valve 71 is arranged on the import department that main line 12a is connected with the 3rd bye-pass 12d, thereby by regulating the aperture of the 3rd flow valve 71, can control the proportion of flow of heat energy in main line 12a and the 3rd bye-pass 12d, thereby the externally achieve effective control such as water temperature, the exchange rate of heat energy of recirculated cooling water, and then further improve the dependability of water system.

In embodiment as shown in Figure 2, external impetus equipment 10 comprises the 4th water inlet pipe 11, the 4th water inlet pipe 11 is communicated with the circulating reflux import of external impetus equipment 10, the outlet on thermal energy transfer duct road 12, water system also comprises: the second detector unit 72 and controller, the second detector unit 72 is arranged on one end of the close circulating reflux import of the 4th water inlet pipe 11, for detection of the second actual water temperature of the interior recirculated cooling water in the 4th water inlet pipe 11; Controller is connected with the second detector unit 72, the 3rd flow valve 71, for the aperture with default safe water temperature comparison, adjusting the 3rd flow valve 71 by the second actual water temperature detecting.By regulating the aperture of the 3rd flow valve 71 can change the proportion of flow of heat energy in main line 12a and the 3rd bye-pass 12d, thereby change the temperature of the interior recirculated cooling water in the 4th water inlet pipe 11, make it meet the instructions for use of external impetus equipment 10.Because the second detector unit 72 detects the second actual water temperature of the 4th water inlet pipe 11 interior recirculated cooling waters, thereby when this second actual water temperature and default safe water temperature relatively after, controller can regulate according to this comparative result the aperture of the 3rd flow valve 71, namely regulate the heat exchange situation of heat energy and the 3rd bye-pass 12d, thereby internally the second actual water temperature of recirculated cooling water is controlled, and has guaranteed the dependability of water system.Preferably, the second detector unit 72 is temperature sensor.

In embodiment as shown in Figure 2, water system also comprises water pipe 80 and moisturizing valve 81, and water pipe 80 is communicated with thermal energy transfer duct road 12, and water pipe 80 is between the outlet on the 3rd section of thermal energy transfer duct road 12 and thermal energy transfer duct road 12; Moisturizing valve 81 is arranged on water pipe 80.Owing to being provided with water pipe 80, thus in the time of interior recirculated cooling water water shortage in the 4th water inlet pipe 11, can be by the method for moisturizing, the interior recirculated cooling water of fast repairing sufficient quantity, thus guarantee normally operation of external impetus equipment 10.

Preferably, first flow valve 51 and the 3rd flow valve 71 are triple valve.

Controller in the utility model is also connected with the second flow valve 61.Preferably, controller is PLC controller.Preferably, external impetus equipment 10 is air compressor and/or refrigeration machine.Preferably, external impetus equipment 10, thermal energy transfer duct road 12, the 4th water inlet pipe 11 are as interior circulating cooling water cooling system.

Preferably, cooling tower 40 and the 3rd water inlet pipe 41 are as outer circulation water quench system.

In embodiment as shown in Figure 2, water system also comprises nitrogen-sealed water tank 82, and nitrogen-sealed water tank 82 is successively by ultrapure water pump 86, be communicated with the first water inlet pipe 21 except TOC device 87, polishing mixed bed 88, ultraviolet sterilizer 89, ultimate filter 90.In nitrogen-sealed water tank 82, pass into high pure nitrogen 83 and ultra-pure water 84.Nitrogen-sealed water tank 82 is communicated with overflow water route 85.The first water pump 91 is communicated with the entrance of the 3rd water inlet pipe 41.Thermal energy transfer duct road 12 is communicated with the 4th water inlet pipe 11 by expansion tank 92, the second water pump 93.The first Pressure gauge 94 is arranged on the rear end of ultimate filter 90, and the second Pressure gauge 95 is arranged on the front end of expansion tank 92.

Workflow is as follows:

1. the heat energy being produced by external impetus equipment 10 conducts through thermal energy transfer duct road 12 by the mode of intensification cooling water flow;

2. the interior recirculated cooling water after heating up carries out High Efficiency Thermal exchange at the first Intermediate Heat Exchanger 50 places with the first reaction water (deionized water), makes the heated default technique water temperature (it is 50 degrees Celsius that default technique water temperature requires) that moves closer to of deionized water in normal temperature;

3. the first actual water temperature of the first reaction water is detected by the first detector unit 52, the first temperature signal passback controller, end gradually by controller s operation control first flow valve 51 current (heat energy) that enter in the first Intermediate Heat Exchanger 50, and aperture control the first actual water temperature of controlling first flow valve 51 to remain on as far as possible default fresh water (FW) warm water flat;

4. the interior recirculated cooling water in the interior main line 12a in thermal energy transfer duct road 12 can all flow into (common the 3rd flow valve 71 is closed condition) in the second bye-pass 12c all the time at the second Intermediate Heat Exchanger 60 places, thereby making the second reaction water greatly limit absorb heat energy heats up (because the required water supply of solar silicon wafers degumming machine is discontinuous, thereby the absorption of the second Intermediate Heat Exchanger 60 heat that interior recirculated cooling water is carried is also discontinuous, so just need secure outer circulation water quench system to dispel the heat to control return water temperature as auxiliary security);

5. in the time that interior recirculated cooling water is back to the 4th water inlet pipe 11 place, the second actual water temperature of recirculated cooling water in the second detector unit 72 detects, the second temperature signal passback controller, learn the second actual water temperature and the difference condition of presetting safe water temperature by controller computing, when the second actual water temperature lower than and while approaching gradually default safe water temperature, controller control the 3rd flow valve 71 is opened the current that enter in the 3rd Intermediate Heat Exchanger 70 gradually, and regulate continuously the aperture of the 3rd flow valve 71, so that the interior recirculated cooling water water temperature in the 4th water inlet pipe 11 remains lower than default safe water temperature.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (9)

1. for a water system for solar silicon wafers cleaning machine, it is characterized in that, comprising:

The first water inlet pipe (21), described the first water inlet pipe (21) is communicated with the water inlet of solar silicon wafers cleaning machine (20);

External impetus equipment (10), described external impetus equipment (10) comprises thermal energy transfer duct road (12);

The first Intermediate Heat Exchanger (50), the first paragraph on described the first water inlet pipe (21) and described thermal energy transfer duct road (12) is by described the first Intermediate Heat Exchanger (50) heat exchange.

2. water system according to claim 1, is characterized in that, described water system also comprises first flow valve (51), and described first flow valve (51) is arranged on the described first paragraph on described thermal energy transfer duct road (12).

3. water system according to claim 2, is characterized in that, described water system also comprises:

The first detector unit (52), described the first detector unit (52) is arranged on one end of the water inlet of the close described solar silicon wafers cleaning machine (20) of described the first water inlet pipe (21), for detection of the first actual water temperature of the first reaction water in described the first water inlet pipe (21);

Controller, described controller is connected with described the first detector unit (52), described first flow valve (51), for by described the first actual water temperature detecting and the comparison of default technique water temperature, regulate the aperture of described first flow valve (51).

4. water system according to claim 3, is characterized in that, described thermal energy transfer duct road (12) comprising:

Main line (12a);

The first bye-pass (12b), the two ends of described the first bye-pass (12b) are all communicated with the first paragraph of described main line (12a), described the first water inlet pipe (21) is by described the first Intermediate Heat Exchanger (50) and described the first bye-pass (12b) heat exchange, and described first flow valve (51) is arranged on the import department that described main line (12a) is connected with described the first bye-pass (12b).

5. water system according to claim 4, it is characterized in that, described thermal energy transfer duct road (12) also comprises the second bye-pass (12c), and the two ends of described the second bye-pass (12c) are all communicated with the second segment of described main line (12a), and described water system comprises:

The second water inlet pipe (31), described the second water inlet pipe (31) is communicated with the water inlet of solar silicon wafers degumming machine (30);

The second Intermediate Heat Exchanger (60), described the second water inlet pipe (31) is by described the second Intermediate Heat Exchanger (60) and described the second bye-pass (12c) heat exchange;

The second flow valve (61), described the second flow valve (61) is arranged on the described second segment of described main line (12a), and described the second flow valve (61) is positioned between the two ends of described the second bye-pass (12c).

6. water system according to claim 4, is characterized in that, described water system also comprises:

The 3rd water inlet pipe (41), described the 3rd water inlet pipe (41) is communicated with the reaction inlet of cooling tower (40);

The 3rd Intermediate Heat Exchanger (70), described the 3rd water inlet pipe (41) is the 3rd section of heat exchange with described thermal energy transfer duct road (12) by described the 3rd Intermediate Heat Exchanger (70).

7. water system according to claim 6, it is characterized in that, described water system also comprises the 3rd flow valve (71), described thermal energy transfer duct road (12) comprises the 3rd bye-pass (12d), the two ends of described the 3rd bye-pass (12d) are all communicated with the 3rd section of described main line (12a), described the 3rd water inlet pipe (41) is by described the 3rd Intermediate Heat Exchanger (70) and described the 3rd bye-pass (12d) heat exchange, and described the 3rd flow valve (71) is arranged on the import department that described main line (12a) is connected with described the 3rd bye-pass (12d).

8. water system according to claim 7, it is characterized in that, described external impetus equipment (10) comprises the 4th water inlet pipe (11), described the 4th water inlet pipe (11) is communicated with the outlet on the circulating reflux import of described external impetus equipment (10), described thermal energy transfer duct road (12), and described water system also comprises:

The second detector unit (72), described the second detector unit (72) is arranged on one end of the close described circulating reflux import of described the 4th water inlet pipe (11), for detection of the second actual water temperature of the interior recirculated cooling water in described the 4th water inlet pipe (11);

Controller, described controller is connected with described the second detector unit (72), described the 3rd flow valve (71), for by described the second actual water temperature detecting and default safe water temperature comparison, regulate the aperture of described the 3rd flow valve (71).

9. water system according to claim 7, is characterized in that, described water system also comprises:

Water pipe (80), described water pipe (80) is communicated with described thermal energy transfer duct road (12), and described water pipe (80) is positioned between the outlet on the 3rd section of described thermal energy transfer duct road (12) and described thermal energy transfer duct road (12);

Moisturizing valve (81), described moisturizing valve (81) is arranged on described water pipe (80).

Images