阅读说明：本技术 一种基于物联网的供水检测装置 (Water supply detection device based on Internet of things ) 是由 钱晓军 于 2019-10-08 设计创作，主要内容包括：本发明公开了一种基于物联网的供水检测装置,包括底板、第一主路组件、第一工作组件、第二主路组件、第二工作组件,所述第一主路组件包括第一钢管的管段上依次安装有第一调压阀、流量计、第一电动球阀,所述第一钢管的侧边安装有第一水质检测装置,所述第一钢管的侧边安装有第一压力检测装置,所述第一钢管的侧边连通有第六钢管,第六钢管的管段上安装有第五电动球阀,所述第二主路组件包括第三钢管,所述第三钢管的管段上安装有第二电动球阀,所述第三钢管的侧边连通有第七钢管。本发明保证水源的稳定,采用一备一用的工作模式,便于进行集中管理,采用物联网的高效运作模式,保证了水源供应的稳定性。(The invention discloses a water supply detection device based on the Internet of things, which comprises a bottom plate, a first main path assembly, a first working assembly, a second main path assembly and a second working assembly, wherein the first main path assembly comprises a first steel pipe, a first pressure regulating valve, a flowmeter and a first electric ball valve are sequentially arranged on the pipe section of the first steel pipe, a first water quality detection device is arranged on the side edge of the first steel pipe, a first pressure detection device is arranged on the side edge of the first steel pipe, the side edge of the first steel pipe is communicated with a sixth steel pipe, a fifth electric ball valve is arranged on the pipe section of the sixth steel pipe, the second main path assembly comprises a third steel pipe, a second electric ball valve is arranged on the pipe section of the third steel pipe, and the side edge of the third steel pipe is communicated with a seventh steel pipe. The invention ensures the stability of water sources, adopts a working mode of one standby for use, is convenient for centralized management, and adopts a high-efficiency operation mode of the Internet of things, thereby ensuring the stability of water source supply.)

1. A water supply detection device based on the Internet of things comprises a bottom plate (1), a first main path assembly (4), a first working assembly (3), a second main path assembly (2) and a second working assembly (5), and is characterized in that the first main path assembly (4) comprises a first steel pipe (41) and is sequentially provided with a first pressure regulating valve (42), a flowmeter (43) and a first electric ball valve (45), the side of the first steel pipe (41) is provided with a first water quality detection device (48), the side of the first steel pipe (41) is provided with a first pressure detection device (44), the side of the first steel pipe (41) is communicated with a sixth steel pipe (47), the pipe section of the sixth steel pipe (47) is provided with a fifth electric ball valve (46), the second main path assembly (2) comprises a third steel pipe (21), and the pipe section of the third steel pipe (21) is provided with a second electric ball valve (22), the side of the third steel pipe (21) is communicated with a seventh steel pipe (24), a sixth electric butterfly valve (23) is installed on a pipe section of the seventh steel pipe (24), a second water quality detection device (25) is installed on the side of the third steel pipe (21), a first working assembly (3) is installed between the first steel pipe (41) and the third steel pipe (21), the first working assembly (3) comprises a second steel pipe (31), a second pressure regulating valve (32) and a filter (33) are installed on a pipe section of the second steel pipe (31), a second pressure detection device (34) is installed on the side of the second steel pipe (31), the second pressure detection device (34) is completely the same as the first pressure detection device (44), the second steel pipe (31) is respectively communicated with the first steel pipe (41) and the third steel pipe (21), and a second working assembly (5) is installed between the sixth steel pipe (47) and the seventh steel pipe (24), and the structure of second work subassembly (5) is identical with first work subassembly (3), first steel pipe (41), third steel pipe (21) are all fixed at the top of bottom plate (1) through support (10), box (9) are installed at the top of bottom plate (1), the internally mounted of box (9) has PLC controller (6), wireless transmission module (7), distribution module (8).

2. The water supply detection device based on the Internet of things according to claim 1, wherein the first water quality detection device (48) and the second water quality detection device (25) are identical in structure, the first water quality detection device (48) comprises a fourth steel pipe (4812), the fourth steel pipe (4812) is communicated with the first steel pipe (41), the fourth steel pipe (4812) is located below the first steel pipe (41), a solenoid valve (4814) and a third electric ball valve (4813) are sequentially installed on a pipe section of the fourth steel pipe (4812), a water storage tank (4801) is communicated with the bottom end of the fourth steel pipe (4812), a water level sensor (4802) is installed on the inner wall of the water storage tank (4801), a fifth steel pipe (4803) is communicated with the bottom of the water storage tank (4801), a fourth electric ball valve (4804) is installed on a pipe section of the fifth steel pipe (4803), a multi-parameter analyzer (4805) is installed on the side of the water storage tank (4801), the through-hole has been seted up at the top of storage water tank (4801), the top of through-hole is fixed with protection tube (4806), motor (4811) are installed at the top of storage water tank (4801), the output shaft of motor (4811) has lead screw (4810), lifter plate (4809) has been cup jointed through the screw thread on lead screw (4810), probe (4808) is installed to the bottom of lifter plate (4809), probe (4808) is located protection tube (4806) and inserts storage water tank (4801), the top of storage water tank (4801) is fixed with guide pillar (4807), guide pillar (4807) slides and runs through lifter plate (4809).

3. The water supply detection device based on the internet of things as claimed in claim 1, wherein the first pressure detection device (44) comprises a fifth steel pipe (442), the fifth steel pipe (442) is communicated with the first steel pipe (41), and a fifth electric ball valve (443) and a pressure sensor (441) are mounted on the section of the fifth steel pipe (442).

4. The internet-of-things-based water supply detection device according to claim 1, wherein the first pressure detection device (44) and the sixth steel pipe (47) are located between the flow meter (43) and the first electric ball valve (45), and the second pressure detection device (34) is located between the second pressure regulating valve (32) and the filter (33).

5. The water supply detection device based on the internet of things as claimed in claim 1, wherein the seventh steel pipe (24) is located between the second electric ball valve (22) and the second water quality detection device (25).

6. The water supply detection device based on the internet of things as claimed in claim 1, wherein the wireless transmission module (7) is a 5G module.

7. The water supply detection device based on the internet of things as claimed in claim 1, wherein the second steel pipe (31) is connected with the first steel pipe (41) and the third steel pipe (21) through flanges.

8. The water supply detection device based on the internet of things of claim 1, wherein the sixth steel pipe (47) and the seventh steel pipe (24) are both of a bent pipe structure.

Technical Field

The invention relates to the technical field of water supply, in particular to a water supply detection device based on the Internet of things.

Background

Water supply systems take water from a variety of locations that are suitably treated, including ground water, surface water (lakes and rivers), and desalinated seawater. The water source treatment step generally comprises: decontamination, chlorination, and sometimes including the addition of a fluorinating agent. The treated water is collected into a reservoir by gravity or by pumping water through a water pump and is supplied through a water tower or through a ground facility. After the water is used, the wastewater is typically discharged into a sewer system and treated in a sewage treatment plant before being discharged into rivers, lakes, oceans, or reused for landscape, irrigation or industrial water.

Current water supply system generally only detects at the source when using, but we all know, the water source also is easily polluted after the pipeline flows through, cause certain harm to people's health, simultaneously, current water supply generally adopts single equipment supply, can only shut down when meetting sudden failure like this, the normal life of people has been influenced, simultaneously, current water supply management is relatively laggard, be not convenient for concentrate unified management, we propose a water supply detection device based on thing networking to above-mentioned problem.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a water supply detection device based on the Internet of things.

In order to achieve the purpose, the invention adopts the following technical scheme:

a water supply detection device based on the Internet of things comprises a bottom plate, a first main path component, a first working component, a second main path component and a second working component, wherein the first main path component comprises a first steel pipe, a first pressure regulating valve, a flowmeter and a first electric ball valve are sequentially arranged on the pipe section of the first steel pipe, a first water quality detection device is arranged on the side edge of the first steel pipe, a first pressure detection device is arranged on the side edge of the first steel pipe, a sixth steel pipe is communicated with the side edge of the first steel pipe, a fifth electric ball valve is arranged on the pipe section of the sixth steel pipe, the second main path component comprises a third steel pipe, a second electric ball valve is arranged on the pipe section of the third steel pipe, a seventh steel pipe is communicated with the side edge of the third steel pipe, a sixth electric butterfly valve is arranged on the pipe section of the seventh steel pipe, and a second water quality detection device is arranged on the side edge of the third steel, install first work subassembly between first steel pipe and the third steel pipe, first work subassembly includes the second steel pipe, install second air-vent valve, filter on the pipeline section of second steel pipe, second pressure measurement is installed to the side of second steel pipe, and second pressure measurement is identical with first pressure measurement's structure, the second steel pipe communicates with first steel pipe, third steel pipe respectively, install second work subassembly between sixth steel pipe and the seventh steel pipe, and the structure of second work subassembly and first work subassembly is identical, first steel pipe, third steel pipe all fix the top at the bottom plate through the support, the box is installed at the top of bottom plate, the internally mounted of box has PLC controller, wireless transmission module, distribution module.

Preferably, the first water quality detection device and the second water quality detection device have the same structure, the first water quality detection device comprises a fourth steel pipe, the fourth steel pipe is communicated with the first steel pipe and is positioned below the first steel pipe, a solenoid valve and a third electric ball valve are sequentially arranged on a pipe section of the fourth steel pipe, the bottom end of the fourth steel pipe is communicated with a water storage tank, a water level sensor is arranged on the inner wall of the water storage tank, a fifth steel pipe is communicated with the bottom of the water storage tank, a fourth electric ball valve is arranged on a pipe section of the fifth steel pipe, a multi-parameter water quality analyzer is arranged on the side edge of the water storage tank, a through hole is formed in the top of the water storage tank, a protection pipe is fixed at the top of the through hole, a motor is arranged at the top of the water storage tank, a lead screw is connected to an output shaft of the motor, a lifting plate is, the top of the water storage tank is fixed with a guide pillar which penetrates through the lifting plate in a sliding manner.

Preferably, the first pressure detection device comprises a fifth steel pipe, the fifth steel pipe is communicated with the first steel pipe, and a fifth electric ball valve and a pressure sensor are mounted on a pipe section of the fifth steel pipe.

Preferably, the first pressure detection device and the sixth steel pipe are positioned between the flowmeter and the first electric ball valve, and the second pressure detection device is positioned between the second pressure regulating valve and the filter.

Preferably, the seventh steel pipe is positioned between the second electric ball valve and the second water quality detection device.

Preferably, the wireless transmission module is a 5G module.

Preferably, the second steel pipe is connected with the first steel pipe and the third steel pipe through flanges.

Preferably, the sixth steel pipe and the seventh steel pipe are both of a bent pipe structure.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, a first steel pipe is connected with a water source supply end, and a third steel pipe is connected with a water source demand end; the water source is subjected to quality detection through the first water quality detection device, during detection, the electromagnetic valve is opened, the third electric ball valve is slowly opened at the same time, water enters the water storage tank through the fourth steel pipe, when the water level reaches the detection position of the water level sensor, the electromagnetic valve and the third electric ball valve are closed, the motor drives the screw rod to rotate, the screw rod drives the lifting plate to move downwards through threads, the lifting plate drives the probe to be inserted into the water in the water storage tank, detection is achieved, a data result is obtained through the multi-parameter water quality analyzer, the probe is drawn out after detection is completed, the fourth electric ball valve is opened at the same time, the water is discharged through the fifth steel pipe, if the detection result is qualified, the next step is continued, and if the; opening the fifth electric ball valve, and adjusting the pressure of the inlet water through the first pressure regulating valve according to the data of the pressure sensor;

2. the first working assembly and the second working assembly can be used one by one during working, so that the system can be normally practical during maintenance of one group of working assemblies, and normal water supply is not influenced; when the second working assembly works, the fifth electric ball valve and the sixth electric ball valve are opened, and meanwhile, the first electric ball valve and the second electric ball valve are closed; when the first working assembly works, the first electric ball valve and the second electric ball valve are opened, and meanwhile, the fifth electric ball valve and the sixth electric ball valve are closed; when the first working assembly works, the water flow is subjected to pressure fine adjustment on the second pressure regulating valve through data of the second pressure detection device, and then is filtered under the action of the filter, so that the water flow is normal and practical, meanwhile, the water quality can be periodically detected through the second water quality detection device, and if the water flow is found to be unqualified, the first working assembly and the second working assembly are switched in time; when the intelligent power distribution system works, the power distribution module supplies power to each electric appliance, the PLC controls each electric appliance, and finally data information of each electric appliance is transmitted to the control terminal through the wireless transmission module, so that centralized management is facilitated;

3. the invention can detect the water quality from the water inlet end and the water outlet end, ensures the stability of the water source, simultaneously adopts a working mode of one standby for one, ensures that the whole body can continue to operate even if one group fails, does not influence the normal water source supply, simultaneously, the power distribution module supplies power to each electric appliance, the PLC controls each electric appliance, and finally transmits the data information of each electric appliance to the control terminal through the wireless transmission module, thereby being convenient for centralized management, and adopting the high-efficiency operating mode of the Internet of things, and ensuring the stability of the water source supply.

Drawings

Fig. 1 is a schematic structural diagram of a water supply detection device based on the internet of things, which is provided by the invention;

fig. 2 is a schematic structural diagram of a first main road component of the water supply detection device based on the internet of things, which is provided by the invention;

fig. 3 is a schematic structural diagram of a first working assembly of the water supply detection device based on the internet of things, which is provided by the invention;

fig. 4 is a schematic structural diagram of a second main path component of the water supply detection device based on the internet of things, which is provided by the invention;

fig. 5 is a schematic structural diagram of a first water quality detection device of the water supply detection device based on the internet of things, which is provided by the invention;

fig. 6 is a schematic structural diagram of a first pressure detection device of the water supply detection device based on the internet of things.

In the figure: 1 bottom plate, 2 second main path assembly, 21 third steel pipe, 22 second electric ball valve, 23 sixth electric ball valve, 24 seventh steel pipe, 25 second water quality detection device, 3 first working assembly, 31 second steel pipe, 32 second pressure regulation valve, 33 filter, 34 second pressure detection device, 4 first main path assembly, 41 first steel pipe, 42 first pressure regulation valve, 43 flowmeter, 44 first pressure detection device, 441 pressure sensor, 442 fifth steel pipe, 443 fifth electric ball valve, 45 first electric ball valve, 46 fifth electric ball valve, 47 sixth steel pipe, 48 first water quality detection device, 4801 water storage tank, 4802 water level sensor, 4803 fifth steel pipe, 4804 fourth electric ball valve, 4805 multi-parameter water quality analyzer, 4806 protection pipe, 4807 guide pillar, 4808 probe, 4809 lifting plate, 4810 screw rod, 4811 motor, 4812 fourth steel pipe, 4813 third electric ball valve, 4814 electromagnetic valve, 5 second working assembly, 6PLC controllers, 7 wireless transmission modules, 8 power distribution modules, 9 boxes and 10 supports.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, a water supply detection device based on the internet of things comprises a bottom plate 1, a first main road component 4, a first working component 3, a second main road component 2 and a second working component 5, wherein the first main road component 4 comprises a first steel pipe 41, a first pressure regulating valve 42, a flow meter 43 and a first electric ball valve 45 are sequentially installed on the pipe section, the side edge of the first steel pipe 41 is provided with a first water quality detection device 48, the side edge of the first steel pipe 41 is provided with a first pressure detection device 44, the side edge of the first steel pipe 41 is communicated with a sixth steel pipe 47, the pipe section of the sixth steel pipe 47 is provided with a fifth electric ball valve 46, the second main road component 2 comprises a third steel pipe 21, the pipe section of the third steel pipe 21 is provided with a second electric ball valve 22, the side edge of the third steel pipe 21 is communicated with a seventh steel pipe 24, the pipe section of the seventh steel pipe 24 is provided with a sixth electric butterfly valve 23, the side edge of the third steel pipe 21 is provided, the first working assembly 3 is installed between the first steel pipe 41 and the third steel pipe 21, the first working assembly 3 comprises a second steel pipe 31, a second pressure regulating valve 32 and a filter 33 are installed on a pipe section of the second steel pipe 31, a second pressure detecting device 34 is installed on the side edge of the second steel pipe 31, the structure of the second pressure detecting device 34 is completely the same as that of the first pressure detecting device 44, the second steel pipe 31 is respectively communicated with the first steel pipe 41 and the third steel pipe 21, the second working assembly 5 is installed between the sixth steel pipe 47 and the seventh steel pipe 24, the structure of the second working assembly 5 is completely the same as that of the first working assembly 3, the first steel pipe 41 and the third steel pipe 21 are both fixed on the top of the bottom plate 1 through a support 10, a box body 9 is installed on the top of the bottom plate 1, and a PLC 6, a wireless transmission module 7 and a power distribution module 8 are installed inside the box body 9.

Wherein, the first water quality detection device 48 and the second water quality detection device 25 have the same structure, the first water quality detection device 48 includes a fourth steel pipe 4812, the fourth steel pipe 4812 is communicated with the first steel pipe 41, and the fourth steel pipe 4812 is located below the first steel pipe 41, a solenoid valve 4814 is sequentially installed on a pipe section of the fourth steel pipe 4812, a third electric ball valve 4813, a water storage tank 4801 is communicated with the bottom end of the fourth steel pipe 4812, a water level sensor 4802 is installed on the inner wall of the water storage tank 4801, a fifth steel pipe 4803 is communicated with the bottom end of the water storage tank 4801, a fourth electric ball valve 4804 is installed on a pipe section of the fifth steel pipe 4803, a multi-parameter water quality analyzer 4805 is installed on the side edge of the water storage tank 4801, a through hole is opened on the top of the water storage tank 4801, a protection pipe 4806 is fixed on the top of the through hole, a motor 4811 is installed on the top of the water storage tank 4801, an output, a probe 4808 is mounted at the bottom of the lifting plate 4809, the probe 4808 is located in the protection tube 4806 and inserted into the water tank 4801, a guide post 4807 is fixed at the top of the water tank 4801, and the guide post 4807 penetrates through the lifting plate 4809 in a sliding manner.

The first pressure detection device 44 includes a fifth steel pipe 442, the fifth steel pipe 442 communicates with the first steel pipe 41, and a fifth electric ball valve 443 and a pressure sensor 441 are mounted on a section of the fifth steel pipe 442.

Wherein the first pressure detecting means 44 and the sixth steel pipe 47 are positioned between the flow meter 43 and the first electric ball valve 45, and the second pressure detecting means 34 is positioned between the second pressure regulating valve 32 and the filter 33.

Wherein, the seventh steel pipe 24 is positioned between the second electric ball valve 22 and the second water quality detecting device 25.

Wherein, the wireless transmission module 7 is a 5G module.

The second steel pipe 31 is connected to the first steel pipe 41 and the third steel pipe 21 by flanges.

Wherein, the sixth steel pipe 47 and the seventh steel pipe 24 are both of a bent pipe structure.

The working principle is as follows:

when the water supply device works, the first steel pipe 41 is connected with a water source supply end, and the third steel pipe 21 is connected with a water source demand end; the water source is subjected to quality detection through the first water quality detection device 48, during detection, the electromagnetic valve 4814 is opened, the third electric ball valve 4813 is slowly opened, water enters the water storage tank 4801 through the fourth steel pipe 4812, when the water level reaches the detection position of the water level sensor 4802, the electromagnetic valve 4814 and the third electric ball valve 4813 are closed, the motor 4811 drives the screw rod 4810 to rotate, the screw rod 4810 drives the lifting plate 4809 to move downwards through threads, the lifting plate 4809 drives the probe 4808 to be inserted into the water in the water storage tank 4801, detection is achieved, a data result is obtained through the multi-parameter water quality analyzer 4805, the probe 4808 is drawn out after detection is completed, the fourth electric ball valve 4804 is opened, the water is discharged through the fifth steel pipe 4803, if the detection result is qualified, the next step is continued, and if the detection result does not reach the standard, the;

the fifth electric ball valve 443 is opened, and the pressure of the inlet water can be adjusted by the first pressure regulating valve 42 according to the data of the pressure sensor 441;

the first working assembly 3 and the second working assembly 5 can be used one by one during the operation of the invention, thereby ensuring that the system can be normally used during the maintenance of one group of the working assemblies and not influencing the normal water supply; when the second working assembly 5 works, the fifth electric ball valve 46 and the sixth electric ball valve 23 are opened, and simultaneously, the first electric ball valve 45 and the second electric ball valve 22 are closed; when the first working assembly 3 works, the first electric ball valve 45 and the second electric ball valve 22 are opened, and meanwhile, the fifth electric ball valve 46 and the sixth electric ball valve 23 are closed; when the first working assembly 3 works, the water flow is subjected to pressure fine adjustment on the second pressure regulating valve 32 according to the data of the second pressure detection device 34, and then is filtered under the action of the filter 33, so that the water flow is normal and practical, meanwhile, the water quality can be periodically detected by the second water quality detection device 25, and if the water flow is found to be unqualified, the first working assembly 3 and the second working assembly 5 are switched in time;

when the intelligent power distribution system works, the power distribution module 8 supplies power to each electric appliance, the PLC 6 controls each electric appliance, and finally data information of each electric appliance is transmitted to the control terminal through the wireless transmission module 7, so that centralized management is facilitated;

the invention can detect the water quality from the water inlet end and the water outlet end, ensures the stability of the water source, simultaneously adopts a working mode of one standby for one, ensures that the whole body can continue to operate even if one group fails, does not influence the normal water source supply, simultaneously, the power distribution module 8 supplies power to each electric appliance, the PLC controller 6 controls each electric appliance, and finally transmits the data information of each electric appliance to the control terminal through the wireless transmission module 7, thereby facilitating the centralized management, and adopting the high-efficiency operating mode of the Internet of things, and ensuring the stability of the water source supply.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.