CN212159646U - Swimming pool water quality on-line monitoring equipment - Google Patents
Swimming pool water quality on-line monitoring equipment Download PDFInfo
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- CN212159646U CN212159646U CN202020907446.3U CN202020907446U CN212159646U CN 212159646 U CN212159646 U CN 212159646U CN 202020907446 U CN202020907446 U CN 202020907446U CN 212159646 U CN212159646 U CN 212159646U
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Abstract
The utility model discloses a swimming pool quality of water on-line monitoring equipment, including floating ball, detection structure and alarm structure, float the ball: the lower end of the inner arc wall is provided with a supporting plate, the upper wall surface of the supporting plate is respectively provided with a storage battery and a water pump, the water pump is positioned at the front side of the storage battery, a water inlet pipe of the water pump penetrates through the lower wall of the supporting plate and is connected with a water inlet of the floating ball, a water suction pipe is arranged at the water inlet of the water pump, the lower end of the water suction pipe is of a closed structure, the lower end of the outer arc wall of the water suction pipe is provided with through holes which are uniformly distributed, the upper end inside the water suction pipe is connected in series with a large normally closed solenoid valve, a water inlet at the upper end of the water pump is provided with a water feeding pipe, the upper end of the water feeding pipe is connected with a water outlet at the upper end of the floating ball, the upper end water outlet at the upper end of the water feeding pipe is provided with a small normally closed solenoid valve, the water, and online real-time monitoring is realized.
Description
Technical Field
The utility model relates to a water quality monitoring technology field specifically is a swimming pool quality of water on-line monitoring equipment.
Background
The water is a source of life, the quality of the drinking water is closely related to the health of human beings, the requirement of people on the quality of the drinking water is continuously improved, the standard of the quality of the drinking water is correspondingly continuously developed and perfected, the requirements of different countries and regions on the quality of the drinking water are different, and the detection range is wide; sewage, pure water, seawater, fishery water, water for swimming pools, reclaimed water, bottled purified water, drinking natural mineral water, cooling water, farmland irrigation water, landscape water, domestic drinking water, underground water, boiler water, surface water, industrial water, test water and the like, wherein the drinking water mainly considers the influence on human health, and the water quality standard comprises physical indexes, chemical indexes and microorganism indexes; considering whether the industrial water affects the product quality or easily damages containers and pipelines, especially outdoor swimming pools, because the industrial water is exposed outside, the industrial water is more easily affected by air and weather, wherein the most important thing is that the water quality is easily affected, in the current society, due to the air pollution, rainwater is slightly acidic, but not every rain is acidic, so the detection of acidity in daily water quality detection is indispensable at the present stage, the traditional detection method is manual sampling detection, the detection time is long, the current water quality condition can not be reflected in time, a special person is arranged for detecting by using an instrument regularly, the detection time is shortened, but the detection period is long, the effect of monitoring can not be detected in real time, the detection device is complicated, the flexible transportation can not be realized, and only surface water bodies can be adopted, the testing result is inaccurate, does not adopt the method that the multiunit detected to combine together, can't guarantee the comprehensiveness that detects, for this reason, the utility model provides a swimming pool quality of water on-line monitoring equipment is used for solving above-mentioned problem.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to overcome current defect, provide a swimming pool quality of water on-line monitoring equipment, detection cycle is short, can detect the effect of control often, and detection device equipment is simple, is convenient for remove, and the water that sets up the water production pipe that stretches into makes the suction more representative, and the adoption of multiunit sensor has guaranteed water quality testing's comprehensiveness, adopts the suggestion mode that light and display combine, and more audio-visual demonstration testing result can effectively solve the problem in the background art.
In order to achieve the above object, the utility model provides a following technical scheme: a swimming pool water quality on-line monitoring device comprises a floating ball, a detection structure and an alarm structure;
floating the ball: the lower end of the inner arc wall is provided with a supporting plate, the upper wall surface of the supporting plate is respectively provided with a storage battery and a water pump, the water pump is positioned at the front side of the storage battery, a water inlet pipe of the water pump penetrates through the lower wall of the supporting plate and is connected with a water inlet of the floating ball, a water pumping pipe is arranged at the water inlet of the water pump, the lower end of the water pumping pipe is of a closed structure, the lower end of the outer arc wall of the water pumping pipe is provided with uniformly distributed through holes, the upper end inside the water pumping pipe is connected with a large normally closed electromagnetic valve in series, a water inlet pipe is arranged at a water outlet at the upper end of the water pump, the upper end of the water inlet pipe is connected with a water;
and (3) detecting a structure: is connected in series with the inside of the upper water pipe;
the alarm structure is as follows: the outer arc wall is arranged on the water outlet pipe;
wherein: still include the PLC controller, the PLC controller sets up in the inside roof of floating the ball, the PLC controller is located the rear side of upper hose, the output of battery is connected to the input electricity of PLC controller, signal transmitter, the input of PLC controller is connected to the equal electricity of output of big normally closed solenoid valve and little normally closed solenoid valve, the drinking-water pipe through stretching into the swimming pool adopts water, make the water of suction more representative, the adoption of multiunit sensor, water quality testing's comprehensiveness has been guaranteed, adopt the suggestion mode that light and display combine, online real-time monitoring control has been realized, the setting up of handle makes equipment be convenient for remove more, avoid swimming pool water to get into equipment, guarantee the normal operation of equipment.
Furthermore, the detection structure comprises a pH value sensor, a conductivity sensor, a residual chlorine sensor and a turbidimeter, wherein the pH value sensor, the conductivity sensor, the residual chlorine sensor and the turbidimeter are sequentially arranged in an outer arc wall mounting hole of the water supply pipe from bottom to top, the pH value sensor, the conductivity sensor, the residual chlorine sensor and the turbidimeter are all connected with a base in an inner arc wall mounting hole of the floating ball through transmission lines, the output ends of the pH value sensor, the conductivity sensor, the residual chlorine sensor and the turbidimeter are all electrically connected with the input end of the PLC, and multiple groups of sensors are adopted, so that the comprehensiveness of water quality detection is ensured;
furthermore, the alarm structure comprises a green light lamp, a yellow light lamp, a red light lamp and a display screen, wherein the green light lamp, the yellow light lamp and the red light lamp are sequentially arranged at the upper end of the outer arc wall of the water outlet pipe from bottom to top;
the handle is symmetrically arranged at the upper end of the outer arc wall of the floating ball, so that the handle is convenient to move;
the floating frame is arranged in the middle of the outer arc wall of the floating ball, so that water in the swimming pool is prevented from entering the equipment, and the normal operation of the equipment is ensured;
compared with the prior art, the beneficial effects of the utility model are that: this swimming pool water quality on-line monitoring equipment has following benefit:
1. the equipment is put into a swimming pool to be detected, a floating ball is suspended in the water of the swimming pool, an external display is in signal connection with a signal transmitter, when water pumping is detected, a large normally closed solenoid valve which is connected in series at the upper end inside a water pumping pipe and a small normally closed solenoid valve which is connected in series at the lower end inside a water outlet pipe are simultaneously opened under the regulation and control of a PLC (programmable logic controller), a water pump runs, water is rapidly pumped into a water feeding pipe through uniformly distributed holes on the outer arc wall of the water pumping pipe, when the water flow in the water feeding pipe passes through a pH value sensor, the pH value sensor records the potential difference generated between electrodes by the activity of hydrogen ions of liquid to be detected, the pH value information of the water is sent to the PLC through a lead for information processing and analysis, and similarly, the water flow in the water feeding pipe passes through a conductivity sensor, the conductivity sensor passes through the potentials, the conductivity information of water is sent to a PLC controller for information processing and analysis, the water in a water feeding pipe passes through two measuring electrodes of a residual chlorine sensor, the residual chlorine sensor measures the current change generated by the change of the concentration of hypochlorous acid in liquid to be measured on a working electrode, the residual chlorine information of the water is sent to the PLC controller for information processing and analysis, the water in the water feeding pipe is subjected to turbidity timing, the turbidity of a water sample is measured by measuring the weight of scattered light of particles in the water sample, the turbidity of the water sample is sent to the PLC controller for information processing and analysis, the measured water is discharged through a drain pipe, a water pump stops running, and the comprehensiveness of water quality detection is ensured by adopting a plurality of groups of sensors.
2. When showing the result, the PLC controller imports the display screen visual display of the outer arc wall of outlet pipe to the result of receiving, through the analysis of PLC controller, if the quality of water of inspection is unqualified, control red light lamp scintillation, if the quality of water of inspection is qualified, control green light lamp scintillation, yellow light lamp glimmering always, remind the equipment position, send the test data to the remote end through signal transmitter, realize the remote sharing of monitoring data, adopt the suggestion mode that light and display combine, more audio-visual demonstration testing result, online real-time supervision control has been realized.
Drawings
Fig. 1 is a schematic view of the structure of the present invention.
In the figure: the device comprises a floating ball 1, a detection structure 2, a pH value sensor 21, a conductivity sensor 22, a residual chlorine sensor 23, a turbidimeter 24, an alarm structure 3, a green light 31, a yellow light 32, a red light 33, a display screen 34, a water pump 4, a storage battery 5, a water pumping pipe 6, a normally closed 7 solenoid valve, a water feeding pipe 8, a water discharging pipe 9, a normally closed 10 solenoid valve, a PLC 11, a support plate 12, a handle 13, a signal emitter 14 and a floating frame 15.
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, the present invention provides a technical solution: a swimming pool water quality on-line monitoring device comprises a floating ball 1, a detection structure 2 and an alarm structure 3;
floating ball 1: the lower end of the inner arc wall is provided with a supporting plate 12, the upper wall surface of the supporting plate 12 is respectively provided with a storage battery 5 and a water pump 4, the water pump 4 is positioned at the front side of the storage battery 5, a water inlet pipe of the water pump 4 penetrates through the lower wall of the supporting plate 12 and is connected with a water inlet of the floating ball 1, a water inlet of the water pump 4 is provided with a water pumping pipe 6, the lower end of the water pumping pipe 6 is of a closed structure, the lower end of the outer arc wall of the water pumping pipe 6 is provided with uniformly distributed through holes, the upper end inside the water pumping pipe 6 is connected in series with a large normally closed electromagnetic valve 7, a water outlet at the upper end of the water pump 4 is provided with a water feeding pipe 8, the upper end of the water feeding pipe 8 is connected with a water outlet at the upper end of the floating ball 1, the upper end of the water feeding pipe 8 is provided with a water outlet pipe, the method comprises the following steps that a large normally closed solenoid valve 7 which is connected in series at the upper end inside a water pumping pipe 6 and a small normally closed solenoid valve 10 which is connected in series at the lower end inside a water outlet pipe 9 are enabled to be opened at the same time through regulation and control of a PLC (programmable logic controller) 11, a water pump 4 operates, water is rapidly pumped into the water pump 4 through uniformly distributed adjusting holes on the outer arc wall of the water pumping pipe 6 and is transmitted to the water inlet pipe 8, water is discharged through a water outlet at the upper end of the water outlet pipe 9, the water pump 4 stops operating, the large normally closed solenoid valve 7 and the small normally closed solenoid valve 10 are closed, and pumped water is;
detection structure 2: the detection structure 2 comprises a pH value sensor 21, a conductivity sensor 22, a residual chlorine sensor 23 and a turbidimeter 24 which are connected in series inside the water supply pipe 8, the pH value sensor 21, the conductivity sensor 22, the residual chlorine sensor 23 and the turbidimeter 24 are sequentially arranged in an outer arc wall mounting hole of the water supply pipe 8 from bottom to top, the pH value sensor 21, the conductivity sensor 22, the residual chlorine sensor 23 and the turbidimeter 24 are fixedly connected with an inner arc wall of the floating ball 1, when water flow in the water supply pipe 8 passes through the pH value sensor 21, the pH value sensor 21 records potential difference generated between electrodes by activity of hydrogen ions of liquid to be detected, the pH value information of the water is sent to the PLC 11 through a lead for information processing and analysis, similarly, the water flow in the water supply pipe 8 passes through the conductivity sensor 22, the conductivity sensor 22 passes through the potential added at two ends of the polar plate by the liquid to be detected, then measuring the current flowing between the polar plates, sending the conductivity information of the water to the PLC 11 for information processing and analysis, sending the residual chlorine information of the water to the PLC 11 for information processing and analysis by measuring the current change generated by the change of the hypochlorous acid concentration of the liquid to be measured on the working electrode through the water flow in the water feeding pipe 8 passing through the two measuring electrodes of the residual chlorine sensor 23, and sending the residual chlorine information of the water to the PLC 11 for information processing and analysis by measuring the turbidity of the water sample by measuring the scattering light intensity weight of particles in the water sample when the water flow in the water feeding pipe 8 passes through the turbidity meter 24, and sending the turbidity of the water sample to the PLC 11 for information processing and analysis;
and (3) an alarm structure: the alarm structure 3 comprises a green light lamp 31, a yellow light lamp 32, a red light lamp 33 and a display screen 34, the green light lamp 31, the yellow light lamp 32 and the red light lamp 33 are sequentially arranged at the upper end of the outer arc wall of the water outlet pipe 9 from bottom to top, the display screen 34 is arranged at the upper end of the outer arc wall of the water outlet pipe 9 through a support, the PLC 11 inputs the received result into the display screen 34 of the outer arc wall of the water outlet pipe 9, the red light lamp 33 is controlled to flicker if the detected water quality is unqualified through the analysis of the PLC 11, the green light lamp 31 is controlled to flicker if the detected water quality is qualified, the yellow light lamp 32 flickers all the time, the position of equipment is reminded, the equipment is controlled to be displayed on the display screen 34 through the PLC 11, and the detection result is more visually displayed by adopting a prompting mode combining;
wherein: still include PLC controller 11, PLC controller 11 sets up in the inside roof of floating ball 1, PLC controller 11 is located the rear side of water-supply pipe 8, the output of battery 5 is connected to PLC controller 11's input electricity, green glow lamp 31, yellow light 32, red light 33, display screen 34, signal transmitter 14, the input of PLC controller 11 is all connected to big normally closed solenoid valve 7 and little normally closed solenoid valve 10's output, pH valve sensor 21, conductivity sensor 22, PLC controller 11's input is all connected to the output of chlorine residue sensor 23 and turbidimeter 24.
Wherein: the floating ball is characterized by further comprising handles 13, wherein the handles 13 are symmetrically arranged at the upper end of the outer arc wall of the floating ball 1, and the floating ball is convenient to move.
Wherein: still include the floating frame 15, floating frame 15 sets up in the middle part of the outer arc wall of floating ball 1, avoids swimming pool water to get into equipment, guarantees the normal operating of equipment.
When in use: the equipment is put into a swimming pool to be detected, the floating ball 1 is suspended in the water of the swimming pool, an external display is in signal connection with a signal transmitter 14, when water pumping is detected, a large normally closed solenoid valve 7 which is connected in series at the upper end inside a water pumping pipe 6 and a small normally closed solenoid valve 10 which is connected in series at the lower end inside a water outlet pipe 9 are simultaneously opened through the regulation and control of a PLC (programmable logic controller) 11, a water pump 4 is operated, water is rapidly pumped into a water feeding pipe 8 through uniformly distributed holes on the outer arc wall of the water pumping pipe 6, when the water flow in the water feeding pipe 8 passes through a pH value sensor 21, the pH value sensor 21 records the potential difference generated between the electrodes by the activity of hydrogen ions of the liquid to be detected, the pH value information of the water is sent to the PLC 11 through a lead for information processing and analysis, similarly, the water flow in the water feeding pipe 8 passes, then measuring the current flowing between the polar plates, sending the conductivity information of the water to a PLC (programmable logic controller) 11 for information processing analysis, sending the residual chlorine information of the water to the PLC 11 for information processing analysis by measuring the current change generated by the change of the concentration of hypochlorous acid in the liquid to be measured on the working electrode by the residual chlorine sensor 23 when the water in the water feeding pipe 8 passes through two measuring electrodes of the residual chlorine sensor 23, measuring the turbidity of the water sample by measuring the weight of the scattered light intensity of particles in the water sample when the water in the water feeding pipe 8 passes through a turbidity meter 24, sending the turbidity of the water sample to the PLC 11 for information processing analysis, discharging the measured water through a water discharging pipe 9, ensuring the comprehensiveness of water quality detection by adopting a plurality of groups of sensors, inputting the received result into a display screen 34 on the outer arc wall of the water discharging pipe 9 by the PLC 11 for analysis by the PLC 11, if the quality of water of inspection is unqualified, control red light 33 scintillation, if the quality of water of inspection is qualified, control green light 31 scintillation, yellow light 32 twinkles all the time, remind the equipment position, through 11 control signal transmitter 14 of PLC controller, through 34 visual display of display screen, send the detection data for the remote end through signal transmitter 14, realize the remote sharing of monitoring data, adopt the suggestion mode that light and display combine, more audio-visual demonstration testing result, online real-time supervision control has been realized.
It should be noted that the PLC controller 11 disclosed in this embodiment may be implemented by siemens S7-300, the Water pump 4 may be implemented by an ISG single-stage vertical centrifugal pump of zibobos rohanheng Water pump plant, the signal transmitter 14 may be implemented by an MSG700 signal generator of hero' S electronic technology co, green light lamp 31, yellow light lamp 32, and red light lamp 33 are implemented by tai pen waterproof indicator lamp 800 series of zhejiang tai electronic technology co, the display screen 34 may be implemented by a CT-C8272 waterproof capacitive touch screen of electronics technology co, the ph sensor 21 may be implemented by an on-line ph full-digital Water quality monitoring sensor of 620911 of sugawa visual sensing technology co, the SC42/SC4A (J) of japan cross river conductivity sensor, the residual chlorine sensor 23 may be implemented by a CLE3-m chlorine sensor, and the turbidity meter 24 may be implemented by a waq 730B turbidity sensor of united states Global Water, the water pump 4, the green light lamp 31, the yellow light lamp 32, the red light lamp 33 and the display screen 34 controlled by the PLC 11 all adopt the common method in the prior art.
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 (5)
1. The utility model provides a swimming pool water quality on-line monitoring equipment which characterized in that: comprises a floating ball (1), a detection structure (2) and an alarm structure (3);
floating ball (1): the lower end of the inner arc wall is provided with a support plate (12), the upper wall surface of the support plate (12) is respectively provided with a storage battery (5) and a water pump (4), the water pump (4) is positioned at the front side of the storage battery (5), a water inlet pipe of the water pump (4) penetrates through the lower wall of the support plate (12) and is connected with a water inlet of the floating ball (1), a water inlet of the lower end of the water pump (4) is provided with a water pumping pipe (6), the lower end of the water pumping pipe (6) is of a closed structure, the lower end of the outer arc wall of the water pumping pipe (6) is provided with uniformly distributed through holes, the upper end inside of the water pumping pipe (6) is connected in series with a large normally closed electromagnetic valve (7), a water outlet of the upper end of the water pump (4) is provided with a water feeding pipe (8), the upper end of the water feeding pipe (8) is connected with a water outlet of the upper, the upper wall surface of the floating ball (1) is provided with a signal emitter (14);
detection structure (2): is connected in series with the inside of the water feeding pipe (8);
alarm structure (3): the outer arc wall is arranged on the water outlet pipe (9);
wherein: still include PLC controller (11), PLC controller (11) set up in the inside roof of floating ball (1), and PLC controller (11) are located the rear side of last water pipe (8), and the output of battery (5) is connected to the input electricity of PLC controller (11), and the input of PLC controller (11) is connected to the equal electricity in output of signal transmitter (14), big normally closed solenoid valve (7) and little normally closed solenoid valve (10).
2. A swimming pool water quality on-line monitoring device as recited in claim 1, wherein: detect structure (2) including pH valve sensor (21), conductivity sensor (22), chlorine residue sensor (23) and turbidimeter (24), pH valve sensor (21), conductivity sensor (22), chlorine residue sensor (23) and turbidimeter (24) from the bottom up set gradually in the outer arc wall mounting hole of last water pipe (8), pH valve sensor (21), conductivity sensor (22), chlorine residue sensor (23) and turbidimeter (24) all with the interior arc wall fixed connection who floats ball (1), the input of PLC controller (11) is connected to the equal electricity of output of pH valve sensor (21), conductivity sensor (22), chlorine residue sensor (23) and turbidimeter (24).
3. A swimming pool water quality on-line monitoring device as recited in claim 1, wherein: alarm structure (3) include green light lamp (31), yellow-light lamp (32), red-light lamp (33) and display screen (34), green light lamp (31), yellow-light lamp (32) and red-light lamp (33) from the bottom up set gradually in the outer arc wall upper end of outlet pipe (9), display screen (34) set up in the outer arc wall upper end of outlet pipe (9) through the support, the output of PLC controller (11) is all connected to the equal electricity of input of green light lamp (31), yellow-light lamp (32), red-light lamp (33) and display screen (34).
4. A swimming pool water quality on-line monitoring device as recited in claim 1, wherein: the floating ball is characterized by further comprising handles (13), wherein the handles (13) are symmetrically arranged at the upper end of the outer arc wall of the floating ball (1).
5. A swimming pool water quality on-line monitoring device as recited in claim 1, wherein: the floating ball is characterized by further comprising a floating frame (15), wherein the floating frame (15) is arranged in the middle of the outer arc wall of the floating ball (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020907446.3U CN212159646U (en) | 2020-05-26 | 2020-05-26 | Swimming pool water quality on-line monitoring equipment |
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CN202020907446.3U CN212159646U (en) | 2020-05-26 | 2020-05-26 | Swimming pool water quality on-line monitoring equipment |
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CN212159646U true CN212159646U (en) | 2020-12-15 |
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CN202020907446.3U Expired - Fee Related CN212159646U (en) | 2020-05-26 | 2020-05-26 | Swimming pool water quality on-line monitoring equipment |
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2020
- 2020-05-26 CN CN202020907446.3U patent/CN212159646U/en not_active Expired - Fee Related
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