CN215218789U - Water affair measurement system - Google Patents

Abstract

The utility model discloses a water affair measuring system, which comprises a measuring subsystem for measuring the water affair system and a solar subsystem for supplying power to the measuring subsystem; the solar subsystem comprises a solar panel for converting light energy into electric energy and a storage battery for storing the electric energy, and the storage battery is connected with the solar panel to store the electric energy; the storage battery is connected with the measurement subsystem to supply power to the measurement subsystem; the measuring subsystem comprises an electromagnetic flowmeter device for measuring the flow of the water service system, a water quality detecting device for measuring the water quality of the water service system and a pressure transmitter for measuring the water pressure. The utility model discloses it is through setting up the power supply of solar energy subsystem for detecting word system, compares in the commercial power, and the power supply of solar energy subsystem is reliable and more stable.

Description

Water affair measurement system

Technical Field

The utility model relates to a water utilities system, especially a water utilities measurement system.

Background

The water service system comprises water supply and water drainage, and in the water supply or the water drainage, certain requirements are required on water parameters such as flow, water quality and the like, so that an electromagnetic flowmeter and a water quality detector are required to be additionally arranged in the water service system to collect the water parameters.

In the prior art, the electric power of electric devices such as an electromagnetic flowmeter, a water quality detector and the like arranged in a water service system is sourced from commercial power, and the commercial power usually stops working due to uncontrollable factors, such as power failure, line faults at an access position and the like; further causing unnecessary troubles caused by that the electric equipment in the water service system stops working and cannot acquire data; meanwhile, the settlement of the electric quantity and the electric charge of the power connection place is also involved.

SUMMERY OF THE UTILITY MODEL

In order to overcome exist not enough among the prior art, the utility model provides a water utilities measurement system, it is through setting up the power supply of solar energy subsystem for detecting word system, compares in the commercial power, and the power supply of solar energy subsystem is reliable and more stable.

In order to achieve the above purpose, the utility model adopts the following technical scheme to realize:

a water affair measuring system comprises a measuring subsystem for measuring a water affair system and a solar subsystem for supplying power to the measuring subsystem; the solar subsystem comprises a solar panel for converting light energy into electric energy and a storage battery for storing the electric energy, and the storage battery is connected with the solar panel to store the electric energy; the storage battery is connected with the measurement subsystem to supply power to the measurement subsystem;

the measuring subsystem comprises an electromagnetic flowmeter device for measuring the flow of the water service system, a water quality detecting device for measuring the water quality of the water service system and a pressure transmitter for measuring the water pressure.

By adopting the structure, the solar panel converts solar energy into electric energy to be stored in the storage battery, and the storage battery supplies power to the measurement subsystem; because the energy supply of the measurement subsystem is completed by the solar subsystem, the measurement subsystem does not need to be connected with commercial power, so that the situation that the measurement subsystem cannot normally work due to uncertain factors in the city such as power failure or line faults can be avoided, and even under the condition of insufficient illumination at night, cloudy days and the like, the electric energy stored in the storage battery can be continuously supplied; meanwhile, the system does not need to settle the electric quantity and the electric charge of the electric power connection part with the commercial power, and is more convenient to use.

Because solar panel's output electric power is unstable, so it stores the electric energy in earlier in the battery, by the battery output stable electric power again, guarantees the normal steady operation of system.

During installation, parameters such as power, size, conversion energy efficiency, power consumption of electric equipment, capacity of a storage battery and the like of the solar panel are calculated and all accessories are reasonably configured, so that uninterrupted electric energy support of the measurement subsystem for twenty-four hours can be realized; the storage battery may be provided in plural and arranged in series to increase the capacity of the storage battery.

Further, the solar subsystem comprises a solar controller, and the storage battery is respectively connected with the solar panel and the measurement subsystem through the solar controller; the solar controller is provided with a solar connecting end connected with the solar panel, a storage battery connecting end connected with the storage battery and an electric energy output end connected with the measurement subsystem.

By adopting the structure, the solar controller is used for controlling the charging and discharging of the storage battery, preventing the storage battery from being overcharged, overdischarged and the like, protecting the storage battery and ensuring the stable operation of the system.

Furthermore, the water affair measuring system comprises an inverter for converting direct current into alternating current, the input end of the inverter is connected with the output end of the storage battery, and the electromagnetic flowmeter device and the water quality detection device are connected with the output end of the inverter.

Specifically, the input end of the inverter is connected to the output end of the solar controller so as to be indirectly connected to the output end of the storage battery.

In the installation and use process, the electromagnetic flowmeter devices and the water quality detection devices of certain types need to use alternating current, and the output of the storage battery is direct current; by adopting the structure, the inverter is arranged to convert the direct current output by the storage battery into alternating current, so that the power supply of the solar subsystem has two power supply modes of alternating current and direct current, and the applicability is higher.

Further, the water service measuring system comprises a control device with a communication function and a communication device capable of establishing communication connection with the control device, the electromagnetic flowmeter device is in communication connection with the communication device, and the communication device is in communication connection with the control device; the pressure transmitter is connected with the input end of the controller;

the control device and the power port of the communication device are connected with the storage battery.

Further, the control device is in communication connection with the water service system management platform to transmit data.

The control device is in communication connection with the water service system management platform so as to send the data acquired by the measurement subsystem to the water service system platform; specifically, the control device and the water service system platform are connected in a wireless or wired mode to achieve a communication function.

By adopting the structure, the water affair system is provided with the plurality of water affair measuring systems for acquiring data of different places, the control device in each water affair detecting system is in communication connection with the water affair system management platform, and a user can acquire the data of different places in the water affair system through the water affair system management platform, so that the use is more convenient.

By adopting the structure, the electromagnetic flowmeter device and the pressure transmitter transmit the acquired data to the controller through the communication device, and the controller can store the data and analyze and judge whether the water service system is abnormal or not according to the data.

The electric energy required by the control device and the communication device is also from the storage battery, so that the system is more reliable to operate; specifically, the control device is connected with the communication device and the electric energy output end of the solar controller.

Further, the water affair measurement system comprises a first air switch arranged between the solar panel and the solar controller and a second air switch arranged at an electric energy output end of the solar controller.

By adopting the structure, the first air switch prevents the abnormity and damage of the system caused by overlarge current between the solar panel and the solar controller; the second air switch is used for preventing the system from being abnormal and damaged due to overlarge current of the electric energy output end of the solar controller.

Further, the electromagnetic flow meter device comprises an electromagnetic flow meter controller and an electromagnetic flow meter sensor connected with the electromagnetic flow meter controller, and the electromagnetic flow meter controller is connected with the storage battery;

the water quality detection device comprises a water quality meter and a water quality sensor connected with the water quality meter, and the water quality meter is connected with the storage battery.

Specifically, the electromagnetic flowmeter controller and the vertical meter are respectively connected with the output end of the inverter.

Furthermore, the water affair measuring system comprises a cabinet for mounting electrical components and a solar fixing frame for mounting a solar panel;

the solar rack is of a hollow structure, and the connecting pipe is used for communicating the cabinet and the solar rack so as to facilitate wiring.

By adopting the structure, the solar fixing frame is convenient for installing the solar panel; and the solar fixing frame and the connecting pipe are convenient for hiding the connecting line between the cabinet and the solar panel.

Specifically, the storage battery, the solar controller, the communication device, the control device, the first air switch, the second air switch, the electromagnetic flowmeter controller and the water quality instrument are positioned in the cabinet; the storage battery is positioned at the lowest part in the cabinet, and because the weight of the storage battery is large, the minimum surface positioned in the cabinet enables the center of gravity of the whole cabinet to be deviated, and the fixation is more stable.

Furthermore, the solar rack comprises a vertically arranged solar main rod and solar struts which are arranged on the side wall of the solar main rod and extend outwards, and the solar panel is arranged on the solar struts;

solar energy branch include with the first solar energy branch that solar energy mobile jib is connected and with the second solar energy branch that solar panel connects, first solar energy branch with the damping rotates between the second solar energy branch to be connected, first solar energy branch with axis of rotation level between the second solar energy branch sets up.

By adopting the structure, the vertically arranged solar main rod can improve the installation height of the solar panel so as to reduce the possibility of shading by other objects;

the damping rotation of the first solar support and the second solar support is convenient for the solar panel to adjust the angle according to the conditions of each installation place, so that the solar panel can better absorb sunlight.

Furthermore, a plurality of heat dissipation ports are formed in the machine cabinet; the upper edge of the heat dissipation opening protrudes outwards and extends towards the lower edge of the heat dissipation opening in an inclined mode to form the rain hat.

The heat dissipation port is convenient for heat dissipation of each component in the cabinet, so that operation of the system is ensured; the rain-proof cap is used for placing raindrops to enter the cabinet from the heat dissipation port to influence all components in the cabinet.

Further, in some embodiments, the water affair measuring system comprises a driving device, a light following device and a control device, wherein the solar main rod comprises an inner rod and an outer rod sleeved outside the inner rod; the solar tracking device comprises an inner rod, a driving device, a solar panel, a light tracking device, a control device and a driving device, wherein the inner rod is provided with a worm wheel, the driving device is provided with a worm matched with the worm wheel and neutralized, a bearing is arranged between the inner rod and an outer rod, the solar panel is arranged on the inner rod, the light tracking device is arranged on the solar panel, the control device is connected with the light tracking device to receive signals, and the control device is connected with the driving device to control the working state of the driving device;

the control device and the driving device are respectively connected with the storage battery.

By adopting the structure, the light following device is used for judging the direction of the sun and sending a signal to the control device, and the control device controls the driving device to work, so that the worm wheel drives the worm to rotate, and the rotation of the inner rod provided with the solar panel is realized; above-mentioned structure can be so that solar panel towards the sun, is favorable to solar panel to absorb solar energy.

The driving device is a driving motor, and is connected to the electric energy output end of the solar controller if the driving motor is a direct current motor, and is connected to the output end of the inverter if the driving motor is an alternating current motor.

Further, the light tracking device comprises photoresistors arranged on two sides of the solar panel.

By adopting the structure, the resistance value of the photoresistor changes along with the change of light, namely the current of the loop provided with the photoresistor changes along with the change of light; and the control device receives the current magnitude in the two photoresistor loops and judges and analyzes the current magnitude to control the running direction of the driving device.

If the input end of the control device can input analog quantity, the two photoresistors can be connected with the control device; and if the input end of the control device can not input analog quantity, an analog-digital conversion module is required to be arranged between the photoresistor and the control device.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model discloses a water utilities measurement system, it is through setting up the power supply of solar energy subsystem for detecting word system, compares in the commercial power, and the power supply of solar energy subsystem is reliable and more stable.

(2) The utility model discloses a water utilities measurement system, it is provided with the dc-to-ac converter and makes solar energy subsystem can provide the alternating current direct current, can satisfy different consumer.

(3) The utility model discloses a water utilities measurement system, it can rotate between first solar branch and the second solar branch that is used for prescribing the solar panel, can carry out nimble adjustment to the installation environment of difference.

Drawings

FIG. 1 is an electrical diagram of the water utility measurement system of the present invention;

fig. 2 is a schematic structural view of a cabinet and a solar fixing frame of the water affair measuring system of the present invention;

fig. 3 is a schematic structural view of the solar fixing frame after the light-following device is added to the water affair measuring system of the present invention;

FIG. 4 is a schematic structural view of the light tracking device and the solar panel in the water affair measuring system of the present invention;

reference numerals: 1a solar panel; 2, a storage battery; 3 an electromagnetic flow meter device; 301 an electromagnetic flowmeter controller; 302 an electromagnetic flow meter sensor; 4, a water quality detection device; 401 water quality instrument; 402 a water quality sensor; 5, a pressure transmitter; 6, a solar controller; 7 an inverter; 8 a control device; 9 a communication device; 10 a first air switch; 11 a second air switch; 12 a cabinet; 1201 heat dissipation ports; 1202 rainhat; 13 solar energy fixing frame; 1301a solar main rod; 1301a inner rod; 1301b outer rod; 1302a solar strut; 1302a first solar strut; 1302b a second solar strut; 14 connecting pipes; 15 a drive device; 16 light following devices; 17 a worm gear; 18 a worm; 19 bearing.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1-4, a water affairs measuring system comprises a measuring subsystem for measuring a water affairs system and a solar subsystem for supplying power to the measuring subsystem; the solar subsystem comprises a solar panel for converting light energy into electric energy and a storage battery 2 for storing the electric energy, wherein the storage battery 2 is connected with the solar panel 1 to store the electric energy; the storage battery 2 is connected with the measurement subsystem to supply power to the measurement subsystem;

the measuring subsystem comprises an electromagnetic flowmeter device 3 for measuring the flow of the water service system, a water quality detecting device 4 for measuring the water quality of the water service system and a pressure transmitter 5 for measuring the water pressure.

By adopting the structure, the solar panel 1 converts solar energy into electric energy to be stored in the storage battery 2, and the storage battery 2 supplies power to the measurement subsystem; because the energy supply of the measurement subsystem is completed by the solar subsystem, the measurement subsystem does not need to be connected with commercial power, so that the situation that the measurement subsystem cannot normally work due to uncertain factors in the city such as power failure or line faults can be avoided, and even under the condition of insufficient illumination at night, cloudy days and the like, the electric energy stored in the storage battery 2 can be continuously supplied with power; meanwhile, the system does not need to settle the electric quantity and the electric charge of the electric power connection part with the commercial power, and is more convenient to use.

Because solar panel 1's output electric power is unstable, so it is earlier with the electric energy deposit in battery 2, by battery 2 output stable electric power again, guarantee the normal steady operation of system.

During installation, parameters such as power, size, conversion energy efficiency, power consumption of electric equipment, capacity of the storage battery 2 and the like of the solar panel are calculated and all accessories are reasonably configured, so that uninterrupted electric energy support of the measurement subsystem for twenty-four hours can be realized; the secondary battery 2 may be provided in plural and arranged in series to increase the capacity of the secondary battery 2.

Preferably, the solar subsystem comprises a solar controller 6, and the storage battery 2 is respectively connected with the solar panel 1 and the measurement subsystem through the solar controller 6; the solar controller 6 is provided with a solar connecting end connected with the solar panel 1, a storage battery connecting end connected with the storage battery 2 and an electric energy output end connected with the measurement subsystem.

By adopting the structure, the solar controller 6 is used for controlling the charging and discharging of the storage battery 2, preventing the storage battery 2 from being overcharged, overdischarged and the like, protecting the storage battery 2 and ensuring the stable operation of the system.

Preferably, the water service measuring system comprises an inverter 7 for converting direct current into alternating current, the input end of the inverter 7 is connected with the output end of the storage battery 2, and the electromagnetic flow meter device 3 and the water quality detection device 4 are connected with the output end of the inverter 7.

Specifically, an input end of the inverter 7 is connected to an output end of the solar controller 6 to be indirectly connected to an output end of the battery 2.

In the installation and use process, the electromagnetic flow meter device 3 and the water quality detection device 4 of certain types need to use alternating current, and the output of the storage battery 2 is direct current; by adopting the structure, the inverter 7 is arranged to convert the direct current output by the storage battery 2 into alternating current, so that the power supply of the solar subsystem has two power supply modes of alternating current and direct current, and the applicability is higher.

Preferably, the water affair measuring system comprises a control device 8 with a communication function and a communication device 9 capable of establishing communication connection with the control device 8, the electromagnetic flow meter device 3 is in communication connection with the communication device 9, and the communication device 9 is in communication connection with the control device 8; the pressure transmitter 5 is connected with the input end of the controller;

the power supply ports of the control device 8 and the communication device 9 are connected with the storage battery 2.

By adopting the structure, the electromagnetic flow meter device 3 and the pressure transmitter 5 transmit the acquired data to the controller through the communication device 9, and the controller can store the data and analyze and judge whether the water service system is abnormal or not according to the data.

The electric energy required by the control device 8 and the communication device 9 is also from the storage battery 2, so that the system operation is more reliable; specifically, the control device 8 and the communication device 9 are connected with an electric energy output end of the solar controller 6.

Preferably, the control device 8 is in communication connection with the water service system management platform to transmit data.

The control device 8 is in communication connection with the water service system management platform so as to send the data acquired by the measurement subsystem to the water service system platform; specifically, the control device 8 and the water service system platform are connected in a wireless or wired manner to realize a communication function.

By adopting the structure, the water affair system is provided with a plurality of water affair measuring systems for acquiring data of different places, the control device 8 in each water affair detecting system is in communication connection with the water affair system management platform, and a user can acquire the data of different places in the water affair system through the water affair system management platform, so that the use is more convenient.

Preferably, the water service measuring system comprises a first air switch 10 arranged between the solar panel 1 and the solar controller 6, and a second air switch 11 arranged at an electric power output end of the solar controller 6.

With the above structure, the first air switch 10 prevents the system from being abnormal and damaged due to the excessive current between the solar panel 1 and the solar controller 6; the second air switch 11 is used for preventing the system abnormality and damage caused by the overlarge current of the electric energy output end of the solar controller 6.

Preferably, the electromagnetic flow meter device 3 includes an electromagnetic flow meter controller 301, and an electromagnetic flow meter sensor 302 connected to the electromagnetic flow meter controller 301, and the electromagnetic flow meter controller 301 is connected to the battery 2;

the water quality detection device 4 comprises a water quality meter 401 and a water quality sensor 402 connected with the water quality meter 401, wherein the water quality meter 401 is connected with the storage battery 2.

Specifically, the electromagnetic flowmeter controller 301 and the vertical meter are respectively connected to the output end of the inverter 7.

As shown in fig. 2, preferably, the water service measuring system includes a cabinet 12 for mounting electrical components, and a solar fixing frame 13 for mounting the solar panel 1;

a connecting pipe 14 is arranged between the solar fixing frame 13 and the cabinet 12, the solar rack is of a hollow structure, and the connecting pipe 14 is used for communicating the cabinet 12 and the solar rack so as to facilitate wiring.

By adopting the structure, the solar fixing frame 13 is convenient for installing the solar panel 1; and the solar energy fixing frame 13 and the connecting pipe 14 facilitate hiding the connecting line between the cabinet 12 and the solar panel 1.

Specifically, the storage battery 2, the solar controller 6, the communication device 9, the control device 8, the first air switch 10, the second air switch 11, the electromagnetic flowmeter controller 301 and the water quality meter 401 are located in the cabinet 12; the storage battery 2 is positioned at the lowest part in the cabinet 12, and the weight of the storage battery 2 is large, so that the center of gravity of the whole cabinet 12 is deviated due to the smallest surface positioned in the cabinet 12, and the fixation is more stable.

Preferably, the solar rack comprises a vertically-arranged solar main bar 1301 and solar struts 1302 arranged on the side wall of the solar main bar 1301 and extending outwards, and the solar panels 1 are arranged on the solar struts 1302;

the solar struts 1302 comprise a first solar strut 1302a connected with the solar main rod 1301 and a second solar strut 1302b connected with the solar panel 1, the first solar strut 1302a and the second solar strut 1302b are connected in a damping rotation mode, and a rotation shaft between the first solar strut 1302a and the second solar strut 1302b is horizontally arranged.

By adopting the structure, the vertically arranged solar main rod 1301 can improve the installation height of the solar panel 1 so as to reduce the possibility of shading by other objects;

the damping rotation of first solar rack with second solar rack sets up and is convenient for solar panel 1 carries out angular adjustment according to the condition in each installation place to it can better absorption sunlight.

Preferably, a plurality of heat dissipation ports 1201 are arranged on the cabinet 12; the upper edge of the heat emitting opening 1201 protrudes outward and extends obliquely toward the lower edge of the heat emitting opening 1201 to form a rain hat 1202.

The heat dissipation port 1201 is convenient for heat dissipation of each component in the cabinet 12, so that operation of the system is ensured; the rain hat 1202 prevents raindrops from entering the cabinet 12 through the heat dissipation opening 1201 and affecting the components in the cabinet 12.

As shown in fig. 3-4, preferably, in some embodiments, the water affair measuring system includes a driving device 15, a light following device 16, and a control device 8, the solar main rod 1301 includes an inner rod 1301a and an outer rod 1301b sleeved outside the inner rod 1301 a; the inner rod 1301a is provided with a worm wheel 17, the driving device 15 is provided with a worm 18 matched with the worm wheel 17 in a neutralization manner, a bearing 19 is arranged between the inner rod 1301a and the outer rod 1301b, the solar panel 1 is arranged on the inner rod 1301a, the light following device 16 is arranged on the solar panel 1, the control device 8 is connected with the light following device 16 to receive signals, and the control device 8 is connected with the driving device 15 to control the working state of the driving device 15;

the control device 8 and the drive device 15 are connected to the battery 2, respectively.

By adopting the structure, the light following device 16 is used for judging the direction of the sun and sending a signal to the control device 8, and the control device 8 controls the driving device 15 to work, so that the worm wheel 17 drives the worm 18 to rotate, and the inner rod 1301a provided with the solar panel 1 rotates; above-mentioned structure can make solar panel 1 face the sun, is favorable to solar panel 1 to absorb solar energy.

The driving device 15 is a driving motor, and is connected to the electric energy output end of the solar controller 6 if the driving motor is a direct current motor, and is connected to the output end of the inverter 7 if the driving motor is an alternating current motor.

Preferably, the light tracking device 16 includes photo resistors disposed on both sides of the solar panel 1.

By adopting the structure, the resistance value of the photoresistor changes along with the change of light, namely the current of the loop provided with the photoresistor changes along with the change of light; the control device 8 receives the current magnitude in the two photoresistor loops and judges and analyzes the current magnitude to control the running direction of the driving device 15.

If the input end of the control device 8 can input analog quantity, the two photoresistors can be connected with the control device 8; if the input end of the control device 8 can not input analog quantity, an analog-to-digital conversion module is required to be arranged between the photoresistor and the control device 8.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A water utility measurement system, characterized in that: the system comprises a measurement subsystem for measuring a water service system and a solar subsystem for supplying power to the measurement subsystem; the solar subsystem comprises a solar panel for converting light energy into electric energy and a storage battery (2) for storing the electric energy, wherein the storage battery (2) is connected with the solar panel (1) to store the electric energy; the storage battery (2) is connected with the measurement subsystem to supply power to the measurement subsystem;

the measuring subsystem comprises an electromagnetic flowmeter device (3) for measuring the flow of the water service system, a water quality detecting device (4) for measuring the water quality of the water service system and a pressure transmitter (5) for measuring the water pressure.

2. The water utility measurement system of claim 1, wherein: the solar subsystem comprises a solar controller (6), and the storage battery (2) is respectively connected with the solar panel (1) and the measurement subsystem through the solar controller (6); the solar controller (6) is provided with a solar connecting end connected with the solar panel (1), a storage battery connecting end connected with the storage battery (2) and an electric energy output end connected with the measuring subsystem.

3. The water utility measurement system of claim 1, wherein: the device comprises an inverter (7) for converting direct current into alternating current, wherein the input end of the inverter (7) is connected with the output end of a storage battery (2), and the electromagnetic flow meter device (3) and the water quality detection device (4) are connected with the output end of the inverter (7).

4. The water utility measurement system of claim 1, wherein: the electromagnetic flowmeter comprises a control device (8) with a communication function and a communication device (9) capable of establishing communication connection with the control device (8), wherein the electromagnetic flowmeter device (3) is in communication connection with the communication device (9), and the communication device (9) is in communication connection with the control device (8); the pressure transmitter (5) is connected with the input end of the controller;

the power supply ports of the control device (8) and the communication device (9) are connected with the storage battery (2);

the control device (8) is in communication connection with the water service system management platform to transmit data.

5. The water utility measurement system of claim 2, wherein: the solar energy control system comprises a first air switch (10) arranged between the solar panel (1) and the solar controller (6) and a second air switch (11) arranged at an electric energy output end in the solar controller (6).

6. The water utility measurement system of claim 1, wherein: the electromagnetic flow meter device (3) comprises an electromagnetic flow meter controller (301) and an electromagnetic flow meter sensor (302) connected with the electromagnetic flow meter controller (301), wherein the electromagnetic flow meter controller (301) is connected with the storage battery (2);

the water quality detection device (4) comprises a water quality meter (401) and a water quality sensor (402) connected with the water quality meter (401), wherein the water quality meter (401) is connected with the storage battery (2).

7. The water utility measurement system of claim 1, wherein: comprises a cabinet (12) for mounting electrical components and a solar energy fixing frame (13) for mounting a solar panel (1);

the solar rack is characterized in that a connecting pipe (14) is arranged between the solar fixing rack (13) and the cabinet (12), the solar rack is of a hollow structure, and the connecting pipe (14) is used for communicating the cabinet (12) and the solar rack so as to facilitate wiring.

8. The water utility measurement system of claim 7, wherein: the solar rack comprises a vertically-arranged solar main rod (1301) and solar struts (1302) which are arranged on the side wall of the solar main rod (1301) and extend outwards, and the solar panel (1) is arranged on the solar struts (1302);

the solar energy supporting rod (1302) comprises a first solar energy supporting rod (1302a) connected with the solar energy main rod (1301) and a second solar energy supporting rod (1302b) connected with the solar panel (1), the first solar energy supporting rod (1302a) is connected with the second solar energy supporting rod (1302b) in a damping rotation mode, and a rotating shaft between the first solar energy supporting rod (1302a) and the second solar energy supporting rod (1302b) is horizontally arranged.

9. The water utility measurement system of claim 7, wherein: a plurality of heat dissipation ports (1201) are formed in the cabinet (12); the upper edge of the heat dissipation opening (1201) protrudes outwards and extends towards the lower edge of the heat dissipation opening (1201) in an inclined mode to form a rain shielding cap (1202).

10. The water utility measurement system of claim 8, wherein: the solar energy tracking device comprises a driving device (15), a light following device (16) and a control device (8), wherein the solar energy main rod (1301) comprises an inner rod (1301a) and an outer rod (1301b) sleeved outside the inner rod (1301 a); the solar tracking device is characterized in that a worm wheel (17) is arranged on the inner rod (1301a), a worm (18) matched with the worm wheel (17) and internally neutralized is arranged on the driving device (15), a bearing (19) is arranged between the inner rod (1301a) and the outer rod (1301b), the solar panel (1) is arranged on the inner rod (1301a), the light tracing device (16) is arranged on the solar panel (1), the control device (8) is connected with the light tracing device (16) to receive signals, and the control device (8) is connected with the driving device (15) to control the working state of the driving device (15);

the control device (8) and the driving device (15) are respectively connected with the storage battery (2);

the light tracing device (16) comprises photoresistors arranged on two sides of the solar panel (1).

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