RU114948U1 - WATER TREATMENT UNIT - Google Patents

Abstract

1. An apparatus for water purification, including a working container, means for freezing water and melting ice, containing, respectively, an evaporator and a heater located around the working container, a thermostatted casing installed with a gap around the working container with an evaporator and a heater, and a unit for draining the cleaned and contaminated water, characterized in that the gap between the casing and the working container is filled with a layer of material that provides an average coefficient of thermal conductivity from the evaporator or heater to the internal volume of the working container in the range from 0.1 to 0.6 W / (m ° C) and the speed crystallization front from 2 to 10 mm / h at a given temperature on the evaporator. ! 2. Apparatus according to claim 1, characterized in that the layer of material in the gap between the casing and the working container is made of pentelast, and the working container is made of fluoroplastic, or polycarbonate, or stainless steel.

Description

The utility model relates to household water purification devices that improve its biological properties by removing soluble organic impurities, salts, carcinogenic and mutagenic substances and gases by phase separation of the source water with impurities, by crystallization by freezing in a closed volume into clean water and water with impurities and can be used in everyday life, food industry and medicine.

A known installation for water purification, containing a container for untreated water, a heat exchanger installed in the tank for heat removal and ice freezing, means for heating and thawing ice, a freezing unit with a cooling system, a pipeline with a valve for draining water with impurities, a pipeline with a valve for drain of melt water (RF patent No. 2274607, IPC С02F 1/22, publ. 04/20/2006). The heat exchanger is made in the form of a multi-stage coil located in the upper part of the tank at a height of approximately 1/3 ÷ 2/3 of the tank height at a distance of 2 ÷ 5 cm relative to the upper base of the tank and symmetrically relative to its side surface with a gap that allows volumetric freezing of ice in water around the coil to a size that does not overlap this gap during ice crystallization. The tank is equipped with a heat-insulating cover and a seal, the pipeline for draining water with impurities is installed in the cross section of the conical bottom of the tank, the pipeline for draining melt water is installed at the bottom of the conical bottom of the tank by 0.5 ÷ 2 cm. The unit is equipped with a fine filter with a drain pipe with a valve and a pump for circulating and pumping melt water under pressure through a fine filter.

However, in this installation, part of the usable volume in the working tank for freezing water is occupied by a heat exchanger made in the form of a coil, which reduces the volume of treated water. In addition, the device has insufficient reliability due to the fact that the ice frozen on the coil can damage its integrity and the resulting refrigerant will contaminate the water being cleaned, which makes it difficult to use the inventive installation in domestic conditions.

A known apparatus for water purification (patent for utility model No. 99477, IPC C02F 1/22, published on November 20, 2010), including a working tank, means for freezing water and melting ice with thermocouples and a unit for draining purified and contaminated water. The side wall of the working tank is made monolithic or with an annular cavity inside, filled with or having the possibility of filling it with a liquid with a freezing temperature lower than the freezing temperature of water and has a thermal conductivity not lower than the thermal conductivity of the water being purified, and thermocouples of means for freezing water and melting ice are located on the outer surface of the side wall working capacity, either inside her body, or inside her annular cavity. The side wall of the working tank, made in monolithic or with a cavity filled with liquid, has a mass of at least 1/2 the mass of the treated water. The liquid in the annular cavity of the side wall of the working vessel has a freezing point of no higher than minus 10 ° C. The device has a thermostated casing located around the working tank and is equipped with an electronic control unit for freezing water, melting ice and draining water, connected to the electromagnetic valves of the unit for draining purified and contaminated water and switches for freezing water and melting ice.

The main disadvantages of this apparatus are its high material consumption and weight in the case of manufacturing the walls of the tank monolithic from metal or the technological complexity of manufacturing the side walls of the tank hollow with the placement of cooling and heating elements.

The closest analogue (prototype) is a device for producing by method of near-wall crystallization high-quality drinking water with a reduced concentration of dissolved salts and an improved oxygen-rich water structure (Utility Model Patent No. 51612, IPC C02F 1/22, published February 27, 2006 ), consisting of a vertically arranged cylindrical metal hermetic tank for water, from the outer sides of which, without contact with the tank, a refrigerating unit coil and heating unit blocks are installed, closed Tucked on the outside with both heat-shielding and outer shells, the tank in the upper part is equipped with an inlet pipe for water leaving the mechanical water treatment unit, and a removable sealed lid with an outlet pipe with a valve and a water flow switch mounted in it is installed in the lower part of the tank.

However, such a water purification device has large dimensions associated with the circulation of cooled or heated air in the cavity located around the working vessel with water, as well as the insufficient efficiency of using the thermal energy of the evaporator and heater, respectively, when freezing water and melting ice due to the fact that heat transfer is through a layer of air having low thermal conductivity. As a result, the time for obtaining purified melt water is lengthened.

The technical result of the claimed utility model is to reduce the time of water purification due to an increase in the efficiency of using the thermal energy of the evaporator and heater, respectively, when freezing water and melting ice due to heat transfer through materials with higher thermal conductivity and also reducing the dimensions of the apparatus.

The specified technical result is achieved by the fact that in the apparatus for water purification, including a working tank, means for freezing water and melting ice, respectively containing an evaporator (refrigerator) and a heater located around the working tank, a thermostatic casing, installed with a gap around the working tank with the evaporator and a heater and a unit for draining purified and contaminated water, according to a utility model, the gap between the casing and the working tank is filled with a layer of material that provides an average coefficient heat conduction from the evaporator or the heater to the internal volume of the working capacity in the range of 0.1 to 0.6 W / (m · ° C) and the speed of the crystallization front from 2 to 10 mm / hour.

The layer of material in the gap between the casing and the working capacity is made of pentelast, and the working capacity is made of fluoroplastic, or polycarbonate, or stainless steel.

To ensure the necessary removal of thermal power at a certain value of the average coefficient of thermal conductivity, the value of which lies in the specified range from 0.1 to 0.6 W / (m · ° C), an appropriate layer of material 7 is installed between the evaporator, heater and the tank wall. All this, together with useful cooling capacity, heater power, as well as the program algorithm of the electronic control unit, allows us to provide: the speed of the crystallization front from 2 to 10 mm / hour; maximum water temperature during ice melting is not higher than + 8-10 ° С.

Figure 1 shows a diagram of an apparatus for water purification.

The apparatus for water purification includes a thermostatic casing 1, a working container 2 located in a thermostatic casing 1, means for freezing water with an evaporator 3, made in the form of a copper tube-evaporator, means for melting ice 4, made in the form of a heating element and node 5 for discharge of purified and contaminated water. The evaporator 3 and the heater 4 are located outside around the side wall 6 of the tank 2. Thermostatic casing 1 is installed with a gap around the working tank 2 with the evaporator 3 and the heater 4.

The gap between the casing 1 and the working capacity 2 is filled with a layer 7 of material that provides an average coefficient of thermal conductivity from the evaporator 3 or heater 4 to the internal volume of the working capacity 2 in the range from 0.1 to 0.6 W / (m ° C) and front speed crystallization from 2 to 10 mm / hour.

The material layer 7 in the gap between the casing 1 and the working capacity 2 is made, for example, of pentelast, and the working capacity 2 is made, for example, of fluoroplastic, or polycarbonate, or stainless steel.

The apparatus is equipped with an electronic control unit 8 for freezing water, melting ice and draining water, connected to electric valves 9 and 10 of unit 5 for draining purified and contaminated water, respectively, and controls the means for freezing water and melting ice according to the program algorithm.

The node 5 is equipped with a tank 11 for draining purified water and a tank 12 for draining contaminated water. The tube of the evaporator 3 with freon means for freezing water is hydraulically connected to the capillary 13, the filter drier 14, the condenser 15, the compressor 16 and the accumulator 17 of liquid refrigerant. In addition, the electronic control unit 8 is equipped with sensors 18 (for indirect determination of water temperature) and 19 (for monitoring the cooling capacity) of temperature, respectively installed outside the bottom of the tank 2 and its wall 6.

The electronic control unit 8 is designed to implement the algorithm of the program for the preparation of melt water. The electronic control unit 8 has an interface for dialogue with the consumer. The electronic unit 8 controls the compressor 16 and the heater 4 according to the timer, taking into account the temperatures of the sensors 18 and 19.

The liquid refrigerant storage battery 17 on the suction side is designed to store the excess part of the refrigerant and protect the compressor from water hammer while reducing the refrigeration capacity on the evaporator during the refrigeration cycle operation cycle. In addition, a controlled supply of heat (for example, electric heating) to the battery is an additional means of regulating the useful cooling capacity of the evaporator and serves as one of the factors ensuring the speed of the crystallization front in a predetermined range from 2 to 10 mm / hour.

Apparatus for water purification works as follows.

The working tank 2 is filled with water, pre-filtered from solids, and include a control unit 8. Automatically, the control unit 8 includes a compressor 16. The water in the vessel 2 is gradually cooled through a layer 7 of material, for example, from pentelast, and a side wall 6 (from PTFE, or polycarbonate, or stainless steel), followed by its freezing. The above combination of materials of layer 7 and wall 6 of vessel 2 (at a given temperature on the evaporator) provides a crystallization front speed of 2 to 10 mm / h, as a result of which the freezing process with the formation of pure wall ice lasts about 3.5-4.5 hours and is controlled by sensors 18 and 19 of the temperature, the data from which are supplied to the electronic control unit 8.

After water freezing, the control unit 8 includes an electric valve 10 and unfrozen contaminated water, i.e. water with a high content of salts (brine) is discharged into the tank 12. Next, the control unit 8 turns off the means for freezing water and turns on the means for melting ice, the heater 4 of which has a temperature of no higher than + 35 ° C. Thanks to the layer 7 of material, the temperature in the tank 2 in the ice melting zone reaches no higher than + 10 ° С, which corresponds to the natural conditions of the gradual ice melting. In this case, pure ice melts. Full melting of ice is carried out in 2.5-4.5 hours. The full cycle of obtaining melt water is 7-8 hours.

In the process of experimental study of the properties of the water - ice system in the inventive apparatus, the special importance of the speed of the crystallization front was established. The speed of the crystallization front influences such characteristics as: the degree of melt water purification from impurities (including dissolved gases), the redox potential and pH (the changed values of these two parameters of melt water remain for several hours after its preparation until the initial equilibrium state between water and the environment), the optical properties of ice (transparency), the order of the crystal lattice of ice. It was found that melt water quality improves with a decrease in the speed of the crystallization front. The optimal ratio between the quality of melt water and the plant productivity lies in the range of the crystallization front speed from 2 to 10 mm / h, depending on the initial state of the water (degree of contamination, temperature, etc.). When using melt water obtained in this installation, a subjective improvement in taste was noted, at its temperature not higher than + 8-10 ° С.

Technical characteristics of the device.

1. The volume of the poured water is 1.5-2.0 liters.

2. The amount of melt water obtained is 1.0-1.3 liters.

3. The time of freezing water is 3.5-4.5 hours.

4. Ice melting time 2.5-4.5 hours.

5. Maximum power consumption of 150 watts.

6. The average power consumption when preparing 1 liter of melt water is 90-110 watts.

7. Dimensions of the installation no more than 450 × 400 × 300 mm.

Thus, compared with the prototype, the claimed utility model provides a reduction in the time of water purification by 1.4-1.6 times. In addition, compared with the prototype, the dimensions of the apparatus are reduced by 20-25%.

Claims (2)

1. Apparatus for water purification, including a working tank, means for freezing water and melting ice, respectively containing an evaporator and a heater located around the working tank, a thermostatic casing installed with a gap around the working tank with an evaporator and heater, and a unit for draining and contaminated water, characterized in that the gap between the casing and the working capacity is filled with a layer of material that provides an average coefficient of thermal conductivity from the evaporator or heater to the internal volume Static preparation capacitance in the range from 0.1 to 0.6 W / (m · ° C) and the crystallization front velocity of 2 to 10 mm / h at a given temperature on the evaporator. 2. The apparatus according to claim 1, characterized in that the layer of material in the gap between the casing and the working capacity is made of pentelast, and the working capacity is made of fluoroplastic, or polycarbonate, or stainless steel.