CN217838421U - Softened water supply system - Google Patents
Softened water supply system Download PDFInfo
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- CN217838421U CN217838421U CN202222400486.0U CN202222400486U CN217838421U CN 217838421 U CN217838421 U CN 217838421U CN 202222400486 U CN202222400486 U CN 202222400486U CN 217838421 U CN217838421 U CN 217838421U
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Abstract
The utility model discloses a demineralized water supply system, demineralized water supply system is including demineralizing water ware, high temperature softening water tank and normal atmospheric temperature softening water tank, wherein: the water inlet end of the water softener is communicated with a tap water pipeline, and the water outlet end of the water softener is respectively communicated with the high-temperature softening water tank and the normal-temperature softening water tank; the high-temperature softening water tank is provided with a heating mechanism, and the heating mechanism is used for increasing the water temperature in the high-temperature softening water tank; the high-temperature water outlet end is provided with a high-temperature water pump which is electrically communicated with the high-temperature softened water system control cabinet and is opened or closed according to an opening and closing signal provided by the high-temperature softened water system control cabinet; the water outlet end of the normal temperature softening water tank is provided with a normal temperature water pump, and the normal temperature water pump is opened or closed according to an opening and closing signal provided by the field control cabinet. The softened water supply system realizes multi-system multi-point water supply of one softened water device to different requirements, can meet the water supply requirements of different temperatures and different control modes in the production process, and has low equipment investment and high utilization efficiency.
Description
Technical Field
The utility model relates to a plumbing field especially relates to a demineralized water supply system.
Background
In the industrial production process, there are multiple equipment simultaneously that need the demineralized water to supply water in the mill, and also various to the temperature of supplying water and the demand of water supply time, some require water supply temperature high, some require water supply temperature low, some equipment require on-the-spot manual continuous water supply, some require to receive switch board signal automatic water supply. At present, when the prior art realizes high-low temperature water supply, a separate heater is required to be arranged so as to adjust the water temperature; if the water supply is realized on site manually and automatically at the same time, equipment such as a voltage stabilizer needs to be added on a water supply pipeline. Under the condition of limited space and funds, the existing water supply device cannot meet the water supply requirements of various modes.
SUMMERY OF THE UTILITY MODEL
To foretell not enough, the utility model provides a demineralized water supply system for only provide the demineralized water of different temperatures under the condition of a demineralized water ware, demineralized water supply system includes demineralized water ware, high temperature softening water tank and normal atmospheric temperature softening water tank, wherein:
the water inlet end of the water softener is communicated with a tap water pipeline, and the water outlet end of the water softener is respectively communicated with the high-temperature softened water tank and the warm softened water tank;
the high-temperature softening water tank is provided with a heating mechanism, and the heating mechanism is used for increasing the water temperature in the high-temperature softening water tank; the water outlet end of the high-temperature softening water tank is provided with a high-temperature water pump which is electrically communicated with the high-temperature softening water system control cabinet and is opened or closed according to an opening and closing signal provided by the high-temperature softening water system control cabinet;
the water outlet end of the normal-temperature softening water tank is provided with a normal-temperature water pump, and the normal-temperature water pump is opened or closed according to an opening and closing signal provided by the field control cabinet.
In specific implementation, the water inlet ends of the high-temperature softening water tank and the normal-temperature softening water tank are provided with ball float valves.
In specific implementation, the heating mechanism is arranged outside the high-temperature softening water tank, and two ends of the heating mechanism are communicated with the high-temperature softening water tank so as to heat softened water sucked out of the tank and then circulate back to the tank.
In specific implementation, the heating mechanism comprises a boiler energy-saving water pump and a boiler energy saver which are sequentially connected in series.
In specific implementation, the boiler energy-saving water pump is electrically communicated with the high-temperature water softening system control cabinet, and the high-temperature water softening system control cabinet is used for providing an opening and closing signal to control the opening and closing of the boiler energy-saving water pump.
In specific implementation, the local control box is respectively electrically communicated with the normal-temperature water supply system control cabinet 12 and the field control switch so as to acquire an opening and closing signal sent by the normal-temperature water supply system control cabinet 12 and/or the field control switch.
The utility model discloses following beneficial effect has:
1. the softened water supply system can realize water supply of the whole plant only by using one water softener, saves equipment investment and occupies small area.
2. The softened water supply system realizes softened water heating by using the waste heat of the boiler economizer through the boiler energy-saving water pump, and saves energy. Meanwhile, a heating device is not additionally arranged, and equipment investment is reduced.
3. The softened water supply system controls the water pump to be started through the water pump local control box and the field control switch, can meet two modes of automatic control and field manual control of a control cabinet of a water-requiring system, does not need to add a pressure stabilizing device, and saves investment and occupied space.
4. The ball float valve is arranged in the softening water tank, so that automatic water replenishing of the softening water tank can be realized, and the problems of air pumping of the water supply pump and the like are prevented.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts. In the drawings:
FIG. 1 is a schematic view of the overall structure of a softened water supply system according to one embodiment of the invention;
in the figure: 1: a water softener; 2: softening the water tank at a high temperature; 3: softening the water tank at normal temperature; 4: a boiler energy-saving water pump; 5: a high-temperature water pump; 6: a normal temperature water pump; 7: a local control box; 8: a field control switch; 9: a float valve; 10: a boiler economizer; 11: a high-temperature softened water system control cabinet; 12: normal temperature water supply system switch board.
Detailed Description
To make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and obviously, the described exemplary embodiments and the description thereof are only used for explaining the present invention, but not as limiting the present invention.
As shown in figure 1, the utility model provides a demineralized water supply system relies on the boiler can realize supplying water to the equipment that different temperatures required, only uses a demineralized water ware 1 and does not add under the prerequisite of voltage regulator device simultaneously, realizes automatic and two kinds of water supply mode of scene manual, can the project saving fund and take up an area of. This demineralized water supply system includes demineralized water ware 1, high temperature softens water tank 2 and normal atmospheric temperature softens water tank 3, wherein:
the water inlet end of the water softener 1 is communicated with a tap water pipeline, and the water outlet end of the water softener is respectively communicated with the high-temperature softening water tank 2 and the warm softening water tank 3;
the high-temperature softening water tank 2 is provided with a heating mechanism, and the heating mechanism is used for increasing the water temperature in the high-temperature softening water tank 2; the water outlet end of the high-temperature softening water tank 2 is provided with a high-temperature water pump 5, and the high-temperature water pump 5 is electrically communicated with the high-temperature softening water system control cabinet 11 and is opened or closed according to an opening and closing signal provided by the high-temperature softening water system control cabinet 11;
the water outlet end of the normal temperature softening water tank 3 is provided with a normal temperature water pump 6, and the normal temperature water pump 6 is opened or closed according to an opening and closing signal provided by the local control box 7.
In a specific implementation, the water softener 1 is a device for generating softened water; the high-temperature softening water tank 2 receives the softened water generated by the water softener 1 and supplements water for a high-temperature softening water system to realize high-temperature (50-60 ℃) water supply; the normal temperature softening water tank 3 also receives the water generated by the water softener 1 and supplements water for a system needing normal temperature softening, so as to realize water supply at normal temperature (20-30 ℃).
In specific implementation, the water inlet control of the high-temperature softening water tank 2 and the normal-temperature softening water tank 3 can be implemented in various ways. For example, the water inlet ends of the high-temperature softening water tank 2 and the normal-temperature softening water tank 3 are both provided with a ball float valve 9. The automatic water supply of softening the water tank can be realized to ball-cock assembly 9, installs in the softening water tank of 1 rear end of demineralizer inside for softened water keeps in.
In particular embodiments, the heating mechanism may be provided in a variety of embodiments. For example, the heating mechanism is disposed outside the high temperature softening water tank 2, and both ends of the heating mechanism are communicated with the high temperature softening water tank 2, so as to heat the softened water sucked out of the tank and then circulate the heated softened water back into the tank. Further, the heating mechanism comprises a boiler energy-saving water pump 4 and a boiler energy-saving device 10 which are connected in series in sequence. The boiler energy-saving water pump 4 is installed at the rear end of the high-temperature softening water tank 2, and the high-temperature softening water tank 2 can be heated by the boiler energy saver 10, so that the temperature of the softening water tank is maintained at 50-60 ℃. Softened water is heated by the waste heat of the boiler energy-saving water pump 4 through the boiler energy-saving water pump 10, so that energy can be effectively saved. Meanwhile, a heating device is not additionally arranged, and the equipment investment is reduced.
In specific implementation, the control of the boiler energy-saving water pump 4 can have various embodiments. For example, the boiler energy-saving water pump 4 may also be electrically connected to the high-temperature softened water system control cabinet 11, and the high-temperature softened water system control cabinet 11 is configured to provide an opening/closing signal to control the opening/closing of the boiler energy-saving water pump 4. The high-temperature softening water system control cabinet 11 can control the high-temperature water pump 5 and the boiler energy-saving water pump 4 at the same time, and adjust the heating speed of the water temperature according to the water outlet speed of the high-temperature softening water tank 2, so that the water supply temperature of the high-temperature softening water tank 2 can be always maintained between 50 ℃ and 60 ℃.
In particular, the acquisition of the signal from the local control box 7 can be carried out in a plurality of embodiments. For example, the local control box 7 is electrically connected to the normal temperature water supply system control cabinet 12 and the field control switch 8 respectively to obtain the on-off signal sent by the normal temperature water supply system control cabinet 12 and/or the field control switch 8. Namely, the normal temperature softened water can be started manually or automatically conveyed to a normal temperature water using point. Specifically, the field control switch 8 has three switch positions of "manual on the field", "automatic" and "off". When the field control switch 8 is turned to 'field manual', the normal-temperature water pump 6 can continuously start water supply; when the field control switch 8 is turned to 'automatic', the normal-temperature water pump 6 receives a signal of the normal-temperature water supply system control cabinet 12 to start and stop; when the field control switch 8 is turned off, the normal-temperature water pump 6 cannot be started.
Example 1: when the softened water supply system is applied to a kitchen waste treatment plant, the water consumption point of the softened water in the plant is the water consumption point of a boiler (high-temperature water supply), the water consumption point of a biological reaction tank (normal-temperature water supply) and the water consumption point of a medicament dissolution tank (normal-temperature water supply). The water softener 1 firstly feeds softened water to the high-temperature softened water tank 2 and the normal-temperature softened water tank 3, when the two water tanks are full of water, the water inlet is closed by the ball float valve 9, and when the high-temperature water pump 5 and the normal-temperature water pump 6 respectively pump away water in the corresponding softened water tanks, the ball float valve 9 is opened, and the softened water tanks feed water again until the water is full.
Boiler water point: the boiler system control cabinet controls the automatic control boiler energy-saving water pump 4 and the high-temperature water pump 5 to respectively heat the high-temperature softening water tank 2 and supply water to the boiler.
Water spot for bioreactor and water spot for drug dissolution: the field control switch 8 is arranged near the reagent dissolving water point, when water is needed, the field control switch 8 is turned to a 'field manual' position, a control signal is transmitted to the local control box 7, and the water pump is continuously started to supply water to the reagent dissolving water point. After the water consumption of the reagent dissolving water point is finished, the field control switch 8 is driven to an 'automatic' position, at the moment, when the bioreactor needs to use water, a control signal of a bioreactor control cabinet is firstly transmitted to the water consumption point valve, the valve is opened, then the signal is transmitted to the on-site control box 7, the normal-temperature water pump 6 is automatically opened to supply water to the bioreactor, after the water supply is finished, the control signal of the bioreactor control cabinet is transmitted to the on-site control box 7 to control the normal-temperature water pump 6 to automatically stop, then the signal is transmitted to the water consumption point valve, and the valve is closed.
To sum up, the utility model discloses following beneficial effect has:
1. the softened water supply system can realize water supply of the whole plant only by using one water softener, saves equipment investment and occupies small area.
2. The softened water supply system realizes softened water heating by using the waste heat of the boiler economizer through the boiler energy-saving water pump, and saves energy. Meanwhile, a heating device is not additionally arranged, and equipment investment is reduced.
3. The softened water supply system can meet two modes of automatic control and field manual control of a control cabinet of a water-requiring system by controlling the water pump to be started through the field control box and the field control switch without adding a pressure stabilizer, thereby saving investment and occupied space.
4. The ball float valve is installed in the softening water tank, so that automatic water replenishing of the softening water tank can be realized, and the problems of emptying of the water supply pump and the like are prevented.
It should be understood that the terms left, right, up, down, front, back, and the like in the embodiments of the present invention are only relative terms or references to the normal practical state of the product, i.e., the traveling direction of the product, and should not be construed as limiting.
It should be understood that the dynamic terms such as "relative movement" mentioned in the embodiments of the present invention include not only the change in position, but also the movement in which the position is not changed relatively, such as rotation and rolling, but the state is changed.
It will be understood that when an element is referred to as being "on" or "disposed to" another element, it can be on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.
Finally, it should be noted that the above description is only an example of the present application, and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.
Claims (6)
1. The utility model provides a demineralized water supply system, characterized in that demineralized water supply system includes demineralizer (1), high temperature softens water tank (2) and normal atmospheric temperature softens water tank (3), wherein:
the water inlet end of the water softener (1) is communicated with a tap water pipeline, and the water outlet end of the water softener is respectively communicated with the water inlet ends of the high-temperature softening water tank (2) and the warm softening water tank (3);
the high-temperature softening water tank (2) is provided with a heating mechanism, and the heating mechanism is used for increasing the water temperature in the high-temperature softening water tank (2); the water outlet end of the high-temperature softening water tank (2) is provided with a high-temperature water pump (5), and the high-temperature water pump (5) is electrically communicated with the high-temperature softening water system control cabinet (11) and is opened or closed according to an opening and closing signal provided by the high-temperature softening water system control cabinet (11);
the water outlet end of the normal-temperature softening water tank (3) is provided with a normal-temperature water pump (6), and the normal-temperature water pump (6) is opened or closed according to an opening and closing signal provided by the local control box (7).
2. The softened water supply system according to claim 1, characterized in that the water inlet ends of the high-temperature softened water tank (2) and the normal-temperature softened water tank (3) are provided with ball float valves (9).
3. The softened water supply system according to claim 2, wherein the heating mechanism is disposed outside the high-temperature softened water tank (2), and both ends of the heating mechanism are communicated with the high-temperature softened water tank (2) to heat the softened water sucked out of the tank and then circulate the heated softened water back into the tank.
4. A softened water supply system according to claim 2, characterized in that said heating means comprises a boiler economizer water pump (4) and a boiler economizer (10) in series in succession.
5. The softened water supply system according to claim 4, characterized in that the boiler energy-saving water pump (4) is electrically connected with the high-temperature softened water system control cabinet (11), and the high-temperature softened water system control cabinet (11) is used for providing an opening and closing signal to control the opening and closing of the boiler energy-saving water pump (4).
6. The softened water supply system according to claim 1, characterized in that the local control box (7) is respectively in electric communication with a normal temperature water supply system control cabinet (12) and a field control switch (8) to obtain the on-off signal sent by the normal temperature water supply system control cabinet (12) and/or the field control switch (8).
Priority Applications (1)
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CN202222400486.0U CN217838421U (en) | 2022-09-09 | 2022-09-09 | Softened water supply system |
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CN202222400486.0U CN217838421U (en) | 2022-09-09 | 2022-09-09 | Softened water supply system |
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CN217838421U true CN217838421U (en) | 2022-11-18 |
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CN202222400486.0U Active CN217838421U (en) | 2022-09-09 | 2022-09-09 | Softened water supply system |
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Address after: 100120 1001-5, unit 1, 10 / F, building 36, Deshengmenwai street, Xicheng District, Beijing (Desheng Park) Patentee after: Zhongcheng Institute (Beijing) Environmental Technology Co.,Ltd. Address before: 100120 1001-5, unit 1, 10 / F, building 36, Deshengmenwai street, Xicheng District, Beijing (Desheng Park) Patentee before: Zhongchengyuan (Beijing) Environmental Technology Co.,Ltd. |
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