CN211086977U - Energy-saving water treatment control system - Google Patents

Energy-saving water treatment control system Download PDF

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Publication number
CN211086977U
CN211086977U CN201921578286.6U CN201921578286U CN211086977U CN 211086977 U CN211086977 U CN 211086977U CN 201921578286 U CN201921578286 U CN 201921578286U CN 211086977 U CN211086977 U CN 211086977U
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energy
water treatment
control system
water
water tank
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CN201921578286.6U
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史建新
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Beijing Jinghe Jiaye Environmental Protection Technology Co ltd
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Beijing Jinghe Jiaye Environmental Protection Technology Co ltd
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Abstract

The utility model provides an energy-conserving water treatment control system, including energy-conserving water treatment facilities and energy-conserving water treatment control system, energy-conserving water treatment facilities includes the organism, the former water pipe, the water supply valve, the former water tank, the filter, the water intaking valve, low pressure switch, the high-pressure pump, the stop valve, high pressure switch, anti-infiltration machine, the flushometer, the blow off pipe, pure water case and pure water pipe, former water tank and pure water incasement are equipped with the level detector, the inside sensor that is equipped with of organism, level detector, sensor and energy-conserving water treatment control system are connected, control panel and control center electric connection, control center is connected with the P L C controller, the utility model discloses a set up energy-conserving water treatment system on water treatment facilities, with system operation centralization, each monitoring point centralized control ization, low distribution high pressure energy-conservation, digital display and quality of water and system connection, the warning automatic shutdown that appears, solved current control system bulky, the space area is many, the inconvenient.

Description

Energy-saving water treatment control system
Technical Field
The utility model relates to a water treatment technical field specifically is an energy-conserving water treatment control system.
Background
The urbanization promotes the rapid development of social economy, brings various conveniences for people to enjoy modern life, but brings negative effects such as the pollution of urban domestic sewage to the environment and the shortage of water resources which troubles the production and life of human beings. Water resource problems have become one of the most important issues of concern. More than about 70% of the earth's surface is covered by water, and the rest of the land, which accounts for about 30% of the earth's surface, also has water, but only 2.53% of the water is fresh water for human use. Seawater, deep groundwater, ice and snow solid fresh water, etc. have been difficult to be directly utilized up to now due to development difficulties or technical economic limitations. The 1995 survey report by world bank states: 80 countries, 40% of the world population, are facing the water crisis, with about 10 million people in developing countries not drinking clean water, 17 million people without good sanitary facilities, and about 2500 million people dying from drinking unclean water each year. United nations expect that nearly half of the world's population will live in water-deficient areas by 2025. The water crisis has severely restricted the sustainable development of human beings. Therefore, at present, limited available water resources are required to be fully utilized, the efficiency of a water treatment plant is improved, and the service life of the water treatment plant is prolonged.
The energy-saving water treatment equipment mainly aims at removing substances such as sodium ions, calcium ions, chloride ions, oxygen molecules and the like which are not expected to exist in water. The control system of the existing energy-saving water treatment equipment has large volume, large space area and inconvenient power distribution maintenance, thereby causing the waste of water and electricity and increasing the operation cost. In addition, although the similarity of the industrial water treatment processes is high, only a small part of the programs are different due to different applicable objects, the whole program needs to be recompiled and debugged for each treatment, and a large amount of time cost is wasted.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an energy-conserving water treatment control system, through setting up miniature control system, with energy-conserving water treatment facilities and control system integration to solve the problem that proposes among the above-mentioned background art.
In order to achieve the above object, the utility model provides an energy-saving water treatment control system, including energy-conserving water treatment facilities and energy-conserving water treatment control system, energy-conserving water treatment facilities includes organism, former water pipe, moisturizing valve, former water tank, filter, water intaking valve, low pressure switch, high-pressure pump, stop valve, anti-infiltration machine, flushometer, blow off pipe, pure water case and pure water pipe, former water pipe with former water tank is connected, the moisturizing valve is located former water pipe with between the former water tank, the filter is located former water tank rear end, the filter with be equipped with water intaking valve, low pressure switch, high-pressure pump, stop valve and high pressure switch between the anti-infiltration machine in proper order, anti-infiltration machine below is equipped with the flushometer, the flushometer rear end is connected with the blow off pipe, anti-infiltration machine rear end is connected with the pure water case, pure water case rear end is connected with the pure water pipe, former water tank with pure water incasement is equipped with level detector, the organism is inside is equipped with level detector, sensor with energy-conserving water treatment control system is connected, energy-conserving water treatment control system includes control transformer 3556, control center panel, electrical property connection alarm and PC 6326, high-pressure control transformer and high-pressure control transformer are connected with the control panel PC 6335, L, high-pressure control transformer and high-pressure control transformer are connected with the control transformer.
Preferably, the filter includes a quartz sand filter, an activated carbon filter, a cation softener, and a salt box.
Preferably, the right side of the machine body is further provided with a heat dissipation plate, and a plurality of heat dissipation holes are uniformly distributed in the heat dissipation plate.
Preferably, a relay is further arranged in the machine body, and the relay is used for controlling the concentrated micro-electricity driven high-power electric appliance.
Preferably, the surface above the machine body is also provided with an emergency stop switch which can be opened by clockwise rotation.
Preferably, a signal input end and a signal output end are arranged in the control panel, the signal input end is connected with the energy-saving water treatment equipment, and the signal output end is connected with the control center.
Preferably, the control center comprises a control module, a data receiving module and a data processing module, the control module is connected with the PC L controller, the data receiving module is connected with the sensor and the liquid level detector, and the data processing module is connected with a signal output end in the control panel.
Preferably, the control panel is provided with a raw water tank water level display, a pure water tank water level display, an operation lamp display, a parameter setting display, an operation mode selection and a process flow display, the raw water tank water level display and the pure water tank water level display are connected with the liquid level detector, the operation lamp display is connected with the sensor and the alarm, and the operation mode selection comprises manual selection and automatic selection.
Preferably, the parameter setting display comprises the setting of the delayed starting time of the water inlet valve, the setting of the flushing time of the flushing valve and the setting of the delayed starting time of the high-pressure pump.
Preferably, the process flow displays the operation state of each part of the energy-saving water treatment equipment.
Compared with the prior art, the beneficial effects of the utility model are that:
(1) the utility model discloses a set up energy-conserving water processing system on energy-conserving water treatment facilities, with the system operation centralization, each surveillance point centralized control ization, low join in marriage high pressure energy-conservation, digital display and quality of water and system connection ization, the warning self-closing that goes wrong, long service life etc. it is great to have solved current control system volume, area in space is many, the inconvenient problem of distribution maintenance, reach higher control demand through this system, elegant appearance moreover, can satisfy higher market needs.
(2) The utility model discloses a set up a plurality of filters in the organism, carry out the three-layer filtration to the raw water, increased the clean dynamics of raw water.
(3) The utility model discloses a set up the heating panel on the organism right side, can distribute away the louvre on the heating panel with the heat of equipment operation in-process.
(4) The utility model discloses a set up the relay in the organism, can reduce the electric quantity and use, reduce artifical distribution time and usable floor area.
(5) The utility model discloses a set up the scram switch on organism top surface, when meetting emergency, can stop equipment immediately.
(6) The utility model discloses a be connected each control assembly in control center and control panel, PC L controller, the energy-conserving water treatment facilities, can whole control to energy-conserving water treatment control system, the automatic alarm that goes wrong, to each control point zonulae occludens of energy-conserving water treatment system, make the probability that energy-conserving water treatment system goes out the problem in normal work fall to minimumly.
(7) The utility model discloses a former water tank water level that shows on the control panel shows, pure water tank water level shows, operation lamp shows, parameter setting shows, operation mode selects and process flow shows, can monitor and control each process of energy-conserving water treatment facilities.
(8) The utility model discloses a former water tank water level demonstration and pure water tank water level demonstration on control panel prove that the water level is in the water shortage state when the water level of former water tank is low, proves that the water level is in the high water level state when former water tank water level is full.
(9) The utility model discloses a running light on the control panel shows, including operation, low pressure, the three kinds of state lamps of high pressure, clearly know the running state in the energy-conserving water treatment facilities.
(10) The utility model discloses a parameter setting on the control panel shows, can adjust the reasonable parameter of water intaking valve, flashing valve and high-pressure pump, guarantees energy-conserving water treatment facilities's normal operating.
(11) The utility model discloses an operation mode on the control panel selects, can select automatic still manual, has increased the feasibility of control system operation.
(12) The utility model discloses a process flow on the control panel shows, and the running state at each position of energy-conserving water treatment facilities can be seen to the display interface, makes things convenient for operating personnel to observe the state.
Drawings
FIG. 1 is a structural diagram of an energy-saving water treatment apparatus;
FIG. 2 is an overall structure diagram of the energy-saving water control system;
FIG. 3 is a view showing the structure of a control panel;
fig. 4 is a diagram showing the structure of the filter.
Detailed Description
The technical solutions in 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 it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1 and 4, the present invention provides a technical solution: an energy-saving water treatment control system comprises an energy-saving water treatment device 1 and an energy-saving water treatment control system 2, wherein the energy-saving water treatment device 1 comprises a machine body 3, a raw water pipe 4, a water supplementing valve 5, a raw water tank 6, a filter 7, a water inlet valve 8, a low-pressure switch 9, a high-pressure pump 10, a stop valve 11, a high-pressure switch 12, a reverse osmosis machine 13, a flushing valve 14, a sewage discharge pipe 15, a pure water tank 16 and a pure water pipe 17, the raw water pipe 4 is connected with the raw water tank 6, the water supplementing valve 5 is arranged between the raw water pipe 4 and the raw water tank 6, the filter 7 is arranged at the rear end of the raw water tank 6, the filter 7 comprises a quartz sand filter 71, an activated carbon filter 72, a cation softener 73 and a salt tank 74, the raw water is filtered by arranging a plurality of filters in the machine body 3 in three layers, the cleaning power of, A low-voltage switch 9, a high-voltage pump 10, a stop valve 11 and a high-voltage switch 12, a flushing valve 14 is arranged below an anti-osmosis machine 13, a sewage discharge pipe 15 is connected at the rear end of the flushing valve 14, a pure water tank 16 is connected at the rear end of the anti-osmosis machine 13, a pure water pipe 17 is connected at the rear end of the pure water tank 16, a heat dissipation plate 18 is also arranged at the right side of the machine body 3, a plurality of heat dissipation holes are uniformly distributed on the heat dissipation plate 18, the heat generated in the operation process of the equipment can be dissipated through the heat dissipation holes on the heat dissipation plate 18 by arranging the heat dissipation plate 18 at the right side of the machine body 3, a relay 19 is also arranged in the machine body 3, the relay 19 is used for controlling a centralized micro-electricity-driven high-power electric appliance, the electricity consumption can be reduced by arranging the relay 19 in the machine body 3, the manual power distribution time and the, the device can be stopped immediately upon encountering an emergency.
Referring to fig. 2, a liquid level detector 22 is arranged in an original water tank 6 and a pure water tank 16, a sensor 21 is arranged in a machine body 3, the liquid level detector 22 and the sensor 21 are connected with an energy-saving water treatment control system 2, the energy-saving water treatment control system 2 comprises a control panel 23, a control center 24, a transformer 25, a control circuit 26, a PC L controller 27 and an alarm 28, the control panel 23 is arranged above the machine body 3, a signal input end and a signal output end are arranged in the control panel 23, the signal input end is connected with the energy-saving water treatment device 1, the signal output end is connected with the control center 24, the control center 24 comprises a control module 29, a data receiving module 30 and a data processing module 31, the control module 29 is connected with the PC 2 controller 27, the data receiving module 30 is connected with the sensor 21 and the liquid level detector 22, the data processing module 31 is connected with a signal output end in the control panel 23, the control center 24 is connected with the PC L controller 27, the PC L controller 27 is connected with the transformer 25, the transformer 25 is connected with a high-pressure pump 10, the PC L controller 27 is connected with the sensor 21, the liquid level detector 22 and the alarm 28, the control center 24 is connected with the PC 3623, the PC 3627, the energy-saving water treatment control panel can monitor and the energy-saving water treatment system 2, the energy-saving water treatment system can monitor and.
Referring to fig. 3, a control panel 23 is provided with a raw water tank level display 32, a pure water tank level display 33, an operation light display 34, a parameter setting display 35, an operation mode selection 36 and a process flow display 37, the raw water tank level display 32 and the pure water tank level display 33 are connected with the level detector 22, the raw water tank level display 32 and the pure water tank level display 33 on the control panel 23 prove that the water level is in a water shortage state when the raw water tank 6 is low, the water level is in a high water level state when the raw water tank 6 is full, the parameter setting display 35 includes a time delay start time setting of the water inlet valve 8, a flushing time setting of the flushing valve 14 and a time delay start time setting of the high pressure pump 10, reasonable parameters of the water inlet valve 8, the flushing valve 14 and the high pressure pump 10 can be adjusted through the parameter setting display 35 on the control panel 23, and normal operation of the energy-saving water, the operation lamp display 34 is connected with the sensor 21 and the alarm 28, the operation lamp is red and green, the operation state in the energy-saving water treatment device 1 is clearly known through the color of the status lamp, the operation mode 36 comprises a manual selection 38 and an automatic selection 39, the operation mode 36 on the control panel 23 can select automatic or manual, the feasibility of the operation of the energy-saving water treatment control system 2 is increased, the process flow display 37 contains the operation state of each part of the energy-saving water treatment device 1, the operation state of each part of the energy-saving water treatment device 1 can be seen through the process flow display 37 on the control panel 23, the observation state of an operator is convenient, the original water tank water level display 32, the pure water tank water level display 33, the operation lamp display 34, the parameter setting display 35, the operation mode selection 36 and the process flow display 37 are displayed on the control panel 23, the processes of the energy-saving water treatment equipment 1 can be monitored and controlled.
Application method
The energy-saving water treatment equipment 1 is opened, and the following steps are carried out by combining the energy-saving water treatment control system 2:
1. the raw water tank level display 32 and the purified water tank level display 33 on the control panel 23 indicate that the water level is in a water shortage state when the raw water tank 6 is low and that the water level is in a high water level state when the raw water tank 6 is full.
2. The running light display 34 on the control panel 23 has running, low-voltage and high-voltage status lights, which are in a stop status when the running light is in red and in a running status when the running light is in green, and the low-voltage status light is in red and buzzes to alarm when the pressure is insufficient, and is in a normal status when the low-voltage is in green, and the high-voltage status is the same.
3. The operation mode on the control panel 23 is 36 pages, when the equipment is ready to work, firstly, the power button is clicked, the automatic and manual state preparation can be entered, and then, the automatic operation of the equipment can be entered by clicking the automatic button, and the same principle is used manually.
4. The parameter setting display 35 on the control panel 23 sets parameters, and the parameter setting button is clicked to enter a setting state, wherein the delay starting time of the water inlet valve 8 is accumulated for 5 seconds at a time, the flushing time of the flushing valve 14 is set, and the delay starting time of the high-pressure pump 10 is set, so that the normal operation of equipment can be better protected, and the rationalization and the safety technology of the equipment are improved.
5. The process flow display 37 on the control panel 23 contains the operation status of each part of the equipment, the red light is in operation, and the lamp is in stop status when not on.
Wherein, after the manual button is pressed, the manual button is in a manual state, the manual button is generally in a debugging and application state and an automatic emergent state with faults, and the manual operation steps are as follows:
(1) when the machine is started, a water replenishing valve 5, a water inlet valve 8, a flushing valve 14 (closed after 30S) and a high-pressure pump 10 are sequentially opened.
(2) When the device is shut down, the high-pressure pump 10, the water inlet valve 8 and the water replenishing valve 5 are sequentially arranged.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The energy-saving water treatment control system comprises an energy-saving water treatment device and an energy-saving water treatment control system, and is characterized in that the energy-saving water treatment device comprises a machine body, a raw water pipe, a water supplementing valve, a raw water tank, a filter, a water inlet valve, a low-pressure switch, a high-pressure pump, a stop valve, a high-pressure switch, a reverse osmosis machine, a flushing valve, a drain pipe, a pure water tank and a pure water pipe, wherein the raw water pipe is connected with the raw water tank, the water supplementing valve is arranged between the raw water pipe and the raw water tank, the filter is arranged at the rear end of the raw water tank, the water inlet valve, the low-pressure switch, the high-pressure pump, the stop valve and the high-pressure switch are sequentially arranged between the filter and the reverse osmosis machine, the flushing valve is arranged below the reverse osmosis machine, the rear end of the flushing valve is connected with the drain pipe, the rear end of the reverse osmosis machine is connected with the pure water tank, the rear end of the pure water tank is connected with the pure water pipe, the raw water tank is internally provided with a liquid level detector, the liquid level detector is arranged inside the machine body, the liquid level detector and the sensor are connected with the energy-saving water treatment control system, the energy-saving water treatment control system comprises a control panel, a transformer, a control panel, a control switch.
2. The energy-saving water treatment control system according to claim 1, wherein: the filter comprises a quartz sand filter, an activated carbon filter, a cation softener and a salt box.
3. The energy-saving water treatment control system according to claim 1, wherein: the right side of the machine body is also provided with a heat dissipation plate, and a plurality of heat dissipation holes are uniformly distributed in the heat dissipation plate.
4. The energy-saving water treatment control system according to claim 1, wherein: the machine body is also internally provided with a relay, and the relay is used for controlling a concentrated micro-electricity driven high-power electric appliance.
5. The energy-saving water treatment control system according to claim 1, wherein: the emergency stop switch is arranged on the upper surface of the machine body and can be turned on in a clockwise rotating mode.
6. The energy-saving water treatment control system according to claim 1, wherein: the control panel is internally provided with a signal input end and a signal output end, the signal input end is connected with the energy-saving water treatment equipment, and the signal output end is connected with the control center.
7. The energy-saving water treatment control system of claim 1, wherein the control center comprises a control module, a data receiving module and a data processing module, the control module is connected with the P L C controller, the data receiving module is connected with the sensor and the liquid level detector, and the data processing module is connected with a signal output end in the control panel.
8. The energy-saving water treatment control system according to claim 1, wherein: the control panel is provided with a raw water tank water level display, a pure water tank water level display, an operation lamp display, a parameter setting display, an operation mode selection and a process flow display, the raw water tank water level display and the pure water tank water level display are connected with the liquid level detector, the operation lamp display is connected with the sensor and the alarm, and the operation mode selection comprises manual selection and automatic selection.
9. The energy-saving water treatment control system according to claim 8, wherein: the parameter setting display comprises the setting of the delayed starting time of the water inlet valve, the setting of the flushing time of the flushing valve and the setting of the delayed starting time of the high-pressure pump.
10. The energy-saving water treatment control system according to claim 8, wherein: the process flow displays the running state of each part of the energy-saving water treatment equipment.
CN201921578286.6U 2019-09-20 2019-09-20 Energy-saving water treatment control system Active CN211086977U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921578286.6U CN211086977U (en) 2019-09-20 2019-09-20 Energy-saving water treatment control system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921578286.6U CN211086977U (en) 2019-09-20 2019-09-20 Energy-saving water treatment control system

Publications (1)

Publication Number Publication Date
CN211086977U true CN211086977U (en) 2020-07-24

Family

ID=71645185

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921578286.6U Active CN211086977U (en) 2019-09-20 2019-09-20 Energy-saving water treatment control system

Country Status (1)

Country Link
CN (1) CN211086977U (en)

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