CN217465475U - Automatic processing device for cold boiled water - Google Patents
Automatic processing device for cold boiled water Download PDFInfo
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- CN217465475U CN217465475U CN202221114602.6U CN202221114602U CN217465475U CN 217465475 U CN217465475 U CN 217465475U CN 202221114602 U CN202221114602 U CN 202221114602U CN 217465475 U CN217465475 U CN 217465475U
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Abstract
An automatic processing device for cold boiled water comprises a tap water tank, a heating water tank, a water cooling water tank, a steam pipeline, a tap water pipeline, a heat exchanger and a conveying pipeline system; the first water pump, the second water pump, the seventh valve and the eighth valve are all electrically connected with the PLC module. The utility model utilizes steam to heat tap water to 90 ℃, and cools hot water to 24-30 ℃ through heat exchange of the heat exchanger, thereby providing cold boiled water at normal temperature for users. The whole process of the utility model controls the tap water delivery regulation and heating and water drying through PCL specific set temperature and pressure to achieve the purpose of automatically delivering the boiled water; the utility model discloses simple structure, convenient to use, the energy saving, low in production cost is honest and clean.
Description
Technical Field
The utility model relates to a water purification unit technical field especially relates to cool boiled water purification system.
Background
At present, a plurality of wheaten food processing plants are arranged in a plurality of industrial parks, the food processing plants have the cold boiled water purification requirements for meeting the national food safety standard, and the cold boiled water automatic processing device is developed for meeting the cold boiled water purification requirements of the food processing plants.
Disclosure of Invention
The utility model aims at meeting the requirements of cold boiled water and purified water in food factories and developing an automatic cold boiled water processing device.
An automatic processing device for cold boiled water comprises a tap water pipeline, a filter, a first check valve, a second valve, a tap water tank, a third valve, a first water pump, a fourth check valve, a fifth valve, a sixth check valve, a seventh valve, a hot water tank, a steam conveying pipeline, an eighth valve, a heating coil, a ninth valve, a second water pump, a tenth check valve, an eleventh valve, a heat exchanger, a water drying tank, a twelfth valve, a third water pump, a thirteenth check valve, a fourteenth valve, a first pipeline, a second pipeline, a third pipeline and a water drainage pipe;
the tap water pipeline is communicated with a tap water tank through a filter, a first one-way valve and a second valve, the tap water tank is communicated with a tap water tank through a pipeline and a first pipeline, the water heater is communicated with a hot water tank through a third valve, a first water pump, a fourth one-way valve, a fifth valve, a sixth one-way valve and a seventh valve, a tap water tank is communicated with a heat exchanger through a pipeline, the third valve, the first water pump, the fourth one-way valve, the fifth valve and a third pipeline to form a loop, a heating coil is positioned in the hot water tank, a steam conveying pipeline is communicated with the heating coil through an eighth valve, the hot water tank is communicated with a second pipeline, the ninth valve, the second water pump, the tenth one-way valve and the eleventh valve are communicated with the heat exchanger, the outlet of the second pipeline is communicated with the water cooling tank, the water cooling tank is provided with a drain pipe, and the twelfth valve, the third water pump, the thirteenth one-way valve and the fourteenth valve are sequentially arranged on the drain pipe.
The second valve is a liquid level ball float valve control switch.
Still include the PLC module, first water pump, second water pump, seventh valve and eighth valve all are connected with the PLC module electricity.
The material of the heat exchanger is 316 stainless steel.
The tap water pipeline, the first pipeline, the second pipeline, the third pipeline and the drain pipe are all made of 316 stainless steel and food-grade ppr pipeline.
The utility model discloses a working process:
running water passes through the filter, enters the running water tank through the first one-way valve and the second valve, and then enters the hot water tank through the third valve, the first water pump, the fourth one-way valve, the fifth valve, the sixth one-way valve and the seventh valve;
steam enters the heating coil from the steam conveying pipeline through the eighth valve, the tap water in the hot water tank is heated to 90 ℃, the hot water enters the heat exchanger through the ninth valve, the second water pump, the tenth one-way valve and the eleventh valve, the tap water in the tap water tank enters the heat exchanger through the loop, exchanges heat with high-temperature hot water, the high-temperature hot water is conveyed to the water drying tank after exchanging heat, the water in the water drying tank is dried to 24-30 ℃ and conveyed to a user through the twelfth valve, the third water pump, the thirteenth one-way valve and the fourteenth valve, the water quality of the tap water is not polluted, the heat exchanger is 316 stainless steel, the water quality is well protected, and all pipelines are made of 316 stainless steel materials and food-grade ppr pipeline materials.
The third water pump achieves the automatic adjusting function through the pressure of the external network.
The utility model has the advantages that:
1. the utility model discloses whole process is carried through PCL specific settlement temperature and pressure control running water and is adjusted and heating water in the air etc. reaches the purpose that the cold boiled water is automatic to be carried.
2. The utility model discloses simple structure, convenient to use, the energy saving, low in production cost is honest and clean.
Drawings
Fig. 1 is a schematic view of the present invention.
Detailed Description
Referring to fig. 1, an automatic cold boiled water processing device includes a tap water pipe 1, a filter 2, a first check valve 3, a second valve 4, a tap water tank 5, a third valve 6, a first water pump 7, a fourth check valve 8, a fifth valve 9, a sixth check valve 10, a seventh valve 11, a hot water tank 12, a steam delivery pipe 13, an eighth valve 14, a heating coil 15, a ninth valve 16, a second water pump 17, a tenth check valve 18, an eleventh valve 19, a heat exchanger 20, a water cooling tank 21, a twelfth valve 22, a third water pump 23, a thirteenth check valve 24, a fourteenth valve 25, a first pipe 26, a second pipe 27, a pipe 28, a third pipe 29, and a drain pipe 30;
the tap water pipe 1 is communicated with a tap water tank 5 through a filter 2, a first one-way valve 3 and a second valve 4, the tap water tank 5 is communicated with a hot water tank 12 through a pipe 28 and a first pipe 26 via a third valve 6, a first water pump 7, a fourth one-way valve 8, a fifth valve 9, a sixth one-way valve 10 and a seventh valve 11, the tap water tank 5 is communicated with a heat exchanger 20 through a pipe 28, a third valve 6, a first water pump 7, a fourth one-way valve 8, a fifth valve 9 and a third pipe 29 to form a loop, the heating coil 15 is positioned in the hot water tank 12, a steam conveying pipe 13 is communicated with the heating coil 15 through an eighth valve 14, the hot water tank 12 is communicated with the heat exchanger 20 through a second pipe 27 via a ninth valve 16 and a second water pump 17, a tenth one-way valve 18 and an eleventh valve 19, an outlet of the second pipe 27 is communicated with a water airing tank 21, the water tank 21 is provided with a drain pipe 30, and the drain pipe 30 is sequentially provided with a twelfth valve 22, a third water pump 23, a thirteenth check valve 24 and a fourteenth valve 25.
The second valve 4 is a liquid level ball valve control switch.
The water pump system further comprises a PLC module, and the first water pump 7, the second water pump 17, the seventh valve 11 and the eighth valve 14 are electrically connected with the PLC module.
The heat exchanger 20 is made of 316 stainless steel.
The tap water pipeline 1, the pipeline 28, the first pipeline 26, the second pipeline 27, the third pipeline 29 and the drain pipe 30 are all made of 316 stainless steel and food-grade ppr pipeline materials.
The utility model discloses a working process:
tap water passes through the filter 2, enters the tap water tank 5 through the first check valve 3 and the second check valve 4, and then enters the hot water tank 12 through the third check valve 6, the first water pump 7, the fourth check valve 8, the fifth valve 9, the sixth check valve 10 and the seventh check valve 11; steam enters the heating coil 15 through the eighth valve 14 from the steam conveying pipeline 13, the tap water in the hot water tank 12 is heated to 90 ℃, the hot water enters the heat exchanger 20 through the ninth valve 16, the second water pump 17, the tenth one-way valve 18 and the eleventh valve 19, the tap water in the tap water tank 5 enters the heat exchanger 20 through a loop, exchanges heat with the high-temperature hot water, the high-temperature hot water is conveyed to the water airing tank 21 after exchanging heat, the water in the water airing tank 21 is aired to 24-30 ℃, the water is conveyed to a user through the twelfth valve 22, the third water pump 23, the thirteenth one-way valve 24 and the fourteenth valve 25, the water quality of the tap water is not polluted, the heat exchanger 20 is 316 stainless steel, the water quality is well protected, and all pipelines are made of 316 stainless steel materials and food-grade ppr pipeline materials.
The third water pump 23 achieves the automatic adjusting function through the pressure of the external network.
Claims (4)
1. The utility model provides a cool boiled water automatic processing device which characterized in that: the water heater comprises a tap water pipeline (1), a filter (2), a first check valve (3), a second valve (4), a tap water tank (5), a third valve (6), a first water pump (7), a fourth check valve (8), a fifth valve (9), a sixth check valve (10), a seventh valve (11), a hot water tank (12), a steam conveying pipeline (13), an eighth valve (14), a heating coil (15), a ninth valve (16), a second water pump (17), a tenth check valve (18), an eleventh valve (19), a heat exchanger (20), a water drying tank (21), a twelfth valve (22), a third water pump (23), a thirteenth check valve (24), a fourteenth valve (25), a first pipeline (26), a second pipeline (27), a pipeline (28), a third pipeline (29) and a drain pipe (30);
the tap water pipeline (1) is communicated with a tap water tank (5) through a filter (2), a first one-way valve (3) and a second valve (4), the tap water tank (5) is communicated with a hot water tank (12) through a pipeline (28) and a first pipeline (26) via a third valve (6), a first water pump (7), a fourth one-way valve (8), a fifth valve (9), a sixth one-way valve (10) and a seventh valve (11), the tap water tank (5) is communicated with a heat exchanger (20) through a pipeline (28), the third valve (6), the first water pump (7), the fourth one-way valve (8), the fifth valve (9) and the third pipeline (29) to form a loop, a heating coil (15) is positioned in the hot water tank (12), a steam conveying pipeline (13) is communicated with the heating coil (15) through an eighth valve (14), and the hot water tank (12) is communicated with the second pipeline (27), the tenth one-way valve (18) and the eleventh valve (19) are communicated with the heat exchanger (20) through the ninth valve (16) and the second water pump (17), the outlet of the second pipeline (27) is communicated with the water cooling water tank (21), the water cooling water tank (21) is provided with a drain pipe (30), and the drain pipe (30) is sequentially provided with a twelfth valve (22), a third water pump (23), a thirteenth one-way valve (24) and a fourteenth valve (25).
2. The automatic processing device for cold boiled water according to claim 1, characterized in that: the second valve (4) is a liquid level floating ball valve control switch.
3. The automatic processing device for cold boiled water according to claim 1, characterized in that: still include the PLC module, first water pump (7), second water pump (17), seventh valve (11) and eighth valve (14) all are connected with the PLC module electricity.
4. The automatic processing device for cold boiled water, according to claim 1, is characterized in that: the heat exchanger (20), the tap water pipeline (1), the pipeline (28), the first pipeline (26), the second pipeline (27), the third pipeline (29) and the drain pipe (30) are all made of 316 stainless steel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221114602.6U CN217465475U (en) | 2022-05-11 | 2022-05-11 | Automatic processing device for cold boiled water |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221114602.6U CN217465475U (en) | 2022-05-11 | 2022-05-11 | Automatic processing device for cold boiled water |
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CN217465475U true CN217465475U (en) | 2022-09-20 |
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CN202221114602.6U Active CN217465475U (en) | 2022-05-11 | 2022-05-11 | Automatic processing device for cold boiled water |
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CN (1) | CN217465475U (en) |
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2022
- 2022-05-11 CN CN202221114602.6U patent/CN217465475U/en active Active
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