CN109211349A - A water meter device for automatic detection of water flow based on potential energy diversion - Google Patents

Abstract

The invention discloses a water meter device for automatic detection of water flow based on potential energy diversion. Its structure includes a main pipe device, a flow lamp control device, and a water meter control device. The water meter control device is provided with a water meter, a water meter circuit control device, and a water meter flow detection channel. The beneficial effects of the present invention are: without turning on the faucet and waiting for water to come in, the water flow can detect the size of the water flow rate through the state of the water flow impacting the gear. When the flow rate decreases, the speed of the gear rotation decreases at the same time, so that the flashing frequency of the strobe light decreases. On the contrary, when the flashing frequency of the strobe light increases, it means that there is water flowing through the pipe. When the strobe light flashes evenly and quickly, It means that the water flow rate is uniform and the water supply is normal. The strobe light can be used to visually observe the incoming water, so as to avoid the open faucet being accidentally ignored, resulting in a large waste of water resources when the water comes.

Description

One kind shunting water flow based on potential energy and detects water meter device automatically

Technical field

The present invention relates to watermeter flowing rate detection fields, specifically a kind of to detect water automatically based on potential energy shunting water flow Meter apparatus.

Background technique

In school dormitory, it is frequently run onto and pipe first-aid or school's energy conservation is needed to need the case where cutting off the water, or even in cell Also the case where cutting off the water can be encountered in life, in the case where cutting off the water, usually in urgent need water, tap is opened, convenient for coming Know in time when water, but often forget to turn off the tap when going out in this way, causes water when water rustlingly to flow, until quilt People's discovery is turned off, and will will cause unnecessary water resource waste in this case, while the consumption of water rate is also brought to occupant.

For above situation, opposite scheme has been formulated in order to solve problem above:

In the case where not having to open tap waiting water, it is desirable to be able to the case where intuitively observing water, therefore need Corresponding design is wanted, open tap is avoided and is accidentally ignored, leads to a large amount of waves for causing water resource when water Take.

Summary of the invention

It is a kind of automatic based on potential energy shunting water flow it is a primary object of the present invention to overcome the deficiencies of the prior art and provide Detect water meter device.

The present invention adopts the following technical scheme that realize: one kind shunting water flow based on potential energy and detects water meter device automatically, Its structure includes mainstream pipe device, flow lamp control device, water-meter controller, and the mainstream pipe device vertical welding is in flow Between lamp control device and water-meter controller, the flow lamp control device vertical welding on the outside of the mainstream pipe device on, institute Water-meter controller vertical welding is stated on the outer surface of the mainstream pipe device other side, the mainstream pipe device is equipped with the first isocon Road, the second shunt conduit, the first return pipe, the second return pipe, first shunt conduit are embedded on mainstream pipe device inner wall, Second shunt conduit is embedded on the mainstream pipe device inner wall on the first shunt conduit opposite, and first return pipe is embedded at Below first shunt conduit, first return pipe is embedded on mainstream pipe device inner wall, and second return pipe is embedded at the Below two shunt conduits；The flow lamp control device is equipped with stroboscopic lamp, circuit control device, flow detection channel, the frequency Flashing light is connected to above flow lamp control device by screw thread engagement, and the circuit control device is embedded at flow lamp control device On inner wall, the flow detection channel is embedded between circuit control device and mainstream pipe device；The water-meter controller is set There are water meter, water meter circuit control device, watermeter flowing rate sense channel, the water meter is connected to water meter control dress by screw thread engagement Top is set, the water meter circuit control device is connected on water-meter controller inner wall by bolt riveted, the watermeter flowing rate Sense channel is embedded between water meter circuit control device and mainstream pipe device.

As optimization, first shunt conduit is equipped with the first flow distribution plate, the first noise reduction rubber cushion, the first rubber rack gear, First flow distribution plate is embedded on the first shunt conduit top inner wall, and first noise reduction rubber cushion is embedded at the first isocon On road inner wall, the first rubber rack gear is uniformly equally spaced on the first noise reduction rubber cushion surface, and first flow distribution plate is Rectangular plate-like structure.

As optimization, second shunt conduit is equipped with the second flow distribution plate, the second noise reduction rubber cushion, the second rubber rack gear, Second flow distribution plate is embedded on the second shunt conduit top inner wall, and second noise reduction rubber cushion is embedded at the second isocon On road inner wall, the second rubber rack gear is uniformly equally spaced on the second noise reduction rubber cushion surface, and second flow distribution plate is Rectangular plate-like structure.

As optimization, the circuit control device is equipped with stroboscopic lamp power pack, stroboscopic lamp guide rod, connecting wire, the frequency Flashing light power pack is connected on flow lamp control device inner wall by bolt riveted, and the stroboscopic lamp guide rod is embedded at stroboscopic lamp electricity Between source capsule and flow detection channel, the connecting wire is described by being electrically connected between stroboscopic lamp power pack and stroboscopic lamp Stroboscopic lamp guide rod is two rod-shaped conductive materials being arranged above and below.

As optimization, the flow detection channel is equipped with second gear, the second energization contact block, second is powered small ball, the Two shock plates, the second U-shaped fixing seat, the second anti-reverse strut, the second gear are connected to flow detection by screw thread engagement Channel interior, the second energization contact block are embedded in flow detection vias inner walls, and the second energization contact block is curved rod Conductive material.

As optimization, described second is powered small ball vertical welding in the second shock plate top, and second shock plate is equal Even to be equidistantly welded in second gear, the second U-shaped fixing seat is connected in flow detection vias inner walls by bolt riveted, The second anti-reverse strut is embedded in the second U-shaped fixing seat, and the small ball of second energization is circular conductive material, described The second small ball of energization is four, and the small ball of second energization is embedded at the second diagonal shock plate top respectively.

As optimization, the water meter circuit control device is equipped with control power pack, energization guide rod, pulse converter, described Control power pack be connected on water-meter controller inner wall by bolt riveted, the energization guide rod be connected to control power pack and Between watermeter flowing rate sense channel, the pulse converter is by being electrically connected between control power pack and water meter, the energization Guide rod is two rod-shaped conductive materials being arranged above and below.

As optimization, the watermeter flowing rate sense channel is equipped with first gear, the first energization contact block, the first energization roundlet Ball, the first shock plate, the first U-shaped fixing seat, the first anti-reverse strut, the first gear are connected to water meter by screw thread engagement Flow detection channel interior, the first energization contact block are embedded on watermeter flowing rate sense channel inner wall, and described first, which is powered, touches Block is curved rod conductive material.

As optimization, described first is powered small ball vertical welding in the first shock plate top, and first shock plate is equal Even to be equidistantly welded in first gear, the first U-shaped fixing seat is connected in watermeter flowing rate sense channel by bolt riveted On wall, the first anti-reverse strut is embedded in the first U-shaped fixing seat, and described first is powered small ball as circular conductive material Matter, the small ball of first energization is four, and the small ball of first energization is embedded at the first diagonal shock plate top respectively.

Beneficial effect

It is of the invention a kind of when shunting water flow based on potential energy and detecting water meter device automatically and worked:

By being equipped with a kind of first shunt conduit, first shunt conduit is equipped with the first flow distribution plate, the first reducing noise rubber Pad, the first rubber rack gear, it is out-of-date when there is water to flow through by the way that the present apparatus to be mounted between water pipe and tap, pass through first point Flow tube road is by water stream, the first shunt conduit of water impact inner wall during shunting, is dropped by the first noise reduction rubber cushion The sound of low water impact tube wall avoids the excessive generation noise of flowing water sound, when reducing water flow sound by the first rubber rack gear, Water flow velocity is not impacted；

By being equipped with a kind of second shunt conduit, second shunt conduit is equipped with the second flow distribution plate, the second reducing noise rubber Pad, the second rubber rack gear, it is out-of-date when there is water to flow through by the way that the present apparatus to be mounted between water pipe and tap, pass through second point Flow tube road is by water stream, the second shunt conduit of water impact inner wall during shunting, is dropped by the second noise reduction rubber cushion The sound of low water impact tube wall avoids the excessive generation noise of flowing water sound, when reducing water flow sound by the second rubber rack gear, Water flow velocity is not impacted；

By being equipped with a kind of flow detection channel, the flow detection channel is equipped with second gear, the second energization contact block, the Two energization roundlet balls, the second shock plate, the second U-shaped fixing seat, the second anti-reverse strut, out-of-date when there is water to flow through, water flow enters In flow detection channel, the second shock plate of impact drives second gear rotation, and the second small ball of energization is driven to turn in rotation Dynamic, intermittence is in contact with the second energization contact block during the second energization small ball rotation, to be connected to the electricity of stroboscopic lamp Road flashes stroboscopic lamp, prompts have water flow process, and when water flow velocity is smaller, second gear velocity of rotation is lower, stroboscopic lamp flashing Frequency it is slower；

By being equipped with a kind of watermeter flowing rate sense channel, the watermeter flowing rate sense channel leads to equipped with first gear, first Electric contact block, the small ball of the first energization, the first shock plate, the first U-shaped fixing seat, the first anti-reverse strut, it is out-of-date when there is water to flow through, Water flow enters in flow detection channel, impacts the first shock plate, drives first gear rotation, and in rotation, drive first is powered small Ball rotation, continuity is in contact with the first energization contact block during the first energization small ball rotation, to be connected to water meter Circuit, so that water meter is worked, data be converted by pulse converter, the flow rate of water flow in display pipes.

Compared with prior art, the beneficial effects of the present invention are: leading in the case where not having to open tap waiting water The situation for crossing water impact gear detects the size of water flow velocity, and when water flow velocity reduces, the speed of gear rotation reduces simultaneously, To make the flicker frequency of stroboscopic lamp reduce, opposite, when the frequency of stroboscopic lamp flashing increases, illustrate have water flow logical in pipeline It crosses, when the uniform fast blink of stroboscopic lamp, illustrates that water flow velocity is uniform, water supply condition is normal, can intuitively be seen by stroboscopic lamp The case where examining water avoids open tap and is accidentally ignored, and leads to a large amount of wastes that water resource is caused when water.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon:

Fig. 1, which is that the present invention is a kind of, shunts the structural schematic diagram that water flow detects water meter device automatically based on potential energy.

Fig. 2, which is that the present invention is a kind of, shunts the structural representation that water flow is detected automatically under water meter working state of device based on potential energy Figure.

Fig. 3 is the structural schematic diagram under inventive flow sense channel stationary state.

Fig. 4 is the structural schematic diagram under inventive flow sense channel working condition.

Fig. 5 is the structural schematic diagram under watermeter flowing rate sense channel stationary state of the present invention.

Fig. 6 is the structural schematic diagram under watermeter flowing rate sense channel working condition of the present invention.

Fig. 7 is the enlarged structure schematic diagram of the first rubber rack gear of the invention.

Fig. 8 is the enlarged structure schematic diagram of the second rubber rack gear of the invention.

Fig. 9 is the side structure schematic diagram of the second anti-reverse strut of the invention.

Figure 10 is the positive structure schematic of the second U-shaped fixing seat of the invention.

Figure 11 is the side structure schematic diagram of the first anti-reverse strut of the invention.

Figure 12 is the positive structure schematic of the first U-shaped fixing seat of the invention.

In figure: mainstream pipe device 1, flow lamp control device 2, water-meter controller 3,10, first points of the first shunt conduit Flowing plate 100, the first noise reduction rubber cushion 101, the first rubber rack gear 102, the second shunt conduit 11, the second flow distribution plate 110, second drop It makes an uproar rubber pad 111, the second rubber rack gear 112, the first return pipe 12, the second return pipe 13, stroboscopic lamp 20, circuit control device 21, stroboscopic lamp power pack 210, stroboscopic lamp guide rod 211, connecting wire 212, flow detection channel 22, second gear 220, second The small ball 222 of the energization of energization contact block 221, second, the second shock plate 223, the second U-shaped fixing seat 224, the second anti-reverse strut 225, water meter 30, water meter circuit control device 31, control power pack 310, energization guide rod 311, pulse converter 312, water meter stream Measure sense channel 32, first gear 320, the small ball 322 of the first energization contact block 321, first energization, the first shock plate 323, first U-shaped fixing seat 324, the first anti-reverse strut 325.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1-12 is please referred to, the present invention provides one kind and detects water meter device technique side automatically based on potential energy shunting water flow Case: its structure includes mainstream pipe device 1, flow lamp control device 2, water-meter controller 3,1 vertical welding of mainstream pipe device It is connected between flow lamp control device 2 and water-meter controller 3,2 vertical welding of flow lamp control device is filled in main flow pipe It sets on 1 outside, 3 vertical welding of water-meter controller is on another side external surface of mainstream pipe device 1, the mainstream pipe device 1 is equipped with the first shunt conduit 10, the second shunt conduit 11, the first return pipe 12, the second return pipe 13, first shunt conduit 10 are embedded on 1 inner wall of mainstream pipe device, and second shunt conduit 11 is embedded at the main flow pipe on 10 opposite of the first shunt conduit On 1 inner wall of device, first return pipe 12 is embedded at 10 lower section of the first shunt conduit, and first return pipe 12 is embedded at master On 1 inner wall of flow duct facility, second return pipe 13 is embedded at 11 lower section of the second shunt conduit；The flow lamp control device 2 Equipped with stroboscopic lamp 20, circuit control device 21, flow detection channel 22, the stroboscopic lamp 20 is connected to flow by screw thread engagement 2 top of lamp control device, the circuit control device 21 are embedded on 2 inner wall of flow lamp control device, and the flow detection is logical Road 22 is embedded between circuit control device 21 and mainstream pipe device 1；The water-meter controller 3 is equipped with water meter 30, water meter electricity Road control device 31, watermeter flowing rate sense channel 32, the water meter 30 are connected on water-meter controller 3 by screw thread engagement Side, the water meter circuit control device 31 are connected on 3 inner wall of water-meter controller by bolt riveted, the watermeter flowing rate inspection It surveys channel 32 to be embedded between water meter circuit control device 31 and mainstream pipe device 1, first shunt conduit 10 is equipped with first Flow distribution plate 100, the first noise reduction rubber cushion 101, the first rubber rack gear 102, first flow distribution plate 100 are embedded at the first isocon On 10 top inner wall of road, first noise reduction rubber cushion 101 is embedded on 10 inner wall of the first shunt conduit, first rubber teeth Item 102 is uniformly equally spaced on 101 surface of the first noise reduction rubber cushion, and the first rubber rack gear 102 is that hangnail state is uniform It is distributed on the first noise reduction rubber cushion 101, the first rubber rack gear 102 reduces water flow in the case where not influencing script flow velocity Sound, second shunt conduit 11 be equipped with the second flow distribution plate 110, the second noise reduction rubber cushion 111, the second rubber rack gear 112, Second flow distribution plate 110 is embedded on 11 top inner wall of the second shunt conduit, and second noise reduction rubber cushion 111 is embedded at On two shunt conduits, 11 inner wall, the second rubber rack gear 112 is uniformly equally spaced on 111 surface of the second noise reduction rubber cushion, The second rubber rack gear 112 is that hangnail state is uniformly distributed on the second noise reduction rubber cushion 111, the second rubber rack gear 112 reduce the sound of water flow in the case where not influencing script flow velocity, and the circuit control device 21 is equipped with stroboscopic lamp power pack 210, stroboscopic lamp guide rod 211, connecting wire 212, the stroboscopic lamp power pack 210 are connected to flow lamp by bolt riveted and control On 2 inner wall of device, the stroboscopic lamp guide rod 211 is embedded between stroboscopic lamp power pack 210 and flow detection channel 22, the company Conducting wire 212 is connect by being electrically connected between stroboscopic lamp power pack 210 and stroboscopic lamp 20, the flow detection channel 22 is equipped with second Gear 220, the small ball 222 of the second energization contact block 221, second energization, the second shock plate 223, the second U-shaped fixing seat 224, second Anti-reverse strut 225, the second gear 220 are connected to inside flow detection channel 22 by screw thread engagement, and described second is logical Electric contact block 221 is embedded on 22 inner wall of flow detection channel, and described second is powered small 222 vertical welding of ball in the second shock plate 223 tops, second shock plate 223 are uniformly equidistantly welded in second gear 220, and the second U-shaped fixing seat 224 passes through Bolt riveted is connected on 22 inner wall of flow detection channel, and the second anti-reverse strut 225 is embedded at the second U-shaped fixing seat On 224, the second U-shaped fixing seat 224 U-shape that is positive is connected on 22 inner wall of flow detection channel, second anti-reverse Strut 225 is taper rod-like structure, and the water meter circuit control device 31 is equipped with control power pack 310, energization guide rod 311, arteries and veins Red switch parallel operation 312, the control power pack 310 are connected on 3 inner wall of water-meter controller by bolt riveted, and the energization is led Bar 311 is connected between control power pack 310 and watermeter flowing rate sense channel 32, and the pulse converter 312 passes through electrical connection Between control power pack 310 and water meter 30, the watermeter flowing rate sense channel 32 is equipped with the energization touching of first gear 320, first The small ball 322 of the energization of block 321, first, the first shock plate 323, the first U-shaped fixing seat 324, the first anti-reverse strut 325, it is described First gear 320 is connected to inside watermeter flowing rate sense channel 32 by screw thread engagement, and the first energization contact block 321 is embedded at On 32 inner wall of watermeter flowing rate sense channel, described first is powered small 322 vertical welding of ball in 323 top of the first shock plate, institute It states the first shock plate 323 to be uniformly equidistantly welded in first gear 320, the first U-shaped fixing seat 324 is connected by bolt riveted It is connected on 32 inner wall of watermeter flowing rate sense channel, the first anti-reverse strut 325 is embedded in the first U-shaped fixing seat 324, institute It states the first U-shaped fixing seat 324 U-shape that is positive to be connected on 32 inner wall of flow detection channel, the first anti-reverse strut 325 is Taper rod-like structure.

When in use, out-of-date when there is water to flow through by the way that the present apparatus to be mounted between water pipe and tap, pass through first point Flow tube road 10 and the second shunt conduit 11 are by water stream, the first shunt conduit of water impact 10 and second during shunting 11 inner wall of shunt conduit reduces the sound of water impact tube wall by the first noise reduction rubber cushion 101 and the second noise reduction rubber cushion 111 Sound avoids the excessive generation noise of flowing water sound, while water flow enters in flow detection channel 22 and watermeter flowing rate sense channel 32, The first shock plate 323 and the second shock plate 223 are impacted, first gear 320 and second gear 220 is driven to rotate, the band in rotation The dynamic first small ball 322 that is powered is rotated with the second small ball 222 that is powered, second be powered small ball 222 rotate during between Having a rest property is in contact with the second energization contact block 221, to be connected to the circuit of stroboscopic lamp 20, flashes stroboscopic lamp 20, prompts have water flow By continuity is in contact with the first energization contact block 321 during the first energization small ball 322 rotation, to be connected to electricity Road makes water meter 30 work, and is converted into data by pulse converter 312, the flow rate of water flow in display pipes, water flow velocity Size determines the speed that first gear 320 and second gear 220 rotate, and when water impact becomes smaller, second gear 220 is rotated It slows, the frequencies go lower that stroboscopic lamp 20 flashes.

The technological progress that the present invention obtains compared with the prior art is:

In the case where not having to open tap waiting water, by the situation of water impact gear, water flow velocity is detected Size, when water flow velocity reduces, the speed of gear rotation reduces simultaneously, so that making the flicker frequency of stroboscopic lamp reduces, opposite, When the frequency of stroboscopic lamp flashing increases, illustrates there is water flow to pass through in pipeline, when the uniform fast blink of stroboscopic lamp, illustrate water flow The case where fast uniformly water supply condition is normal, can intuitively observe water by stroboscopic lamp, avoids open tap quilt Accidentally ignore, leads to a large amount of wastes for causing water resource when water.

Although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art, It is still possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is carried out etc. With replacement, all within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in this Within the protection scope of invention.

Claims (9)

1. A water meter device for automatic detection of water flow based on potential energy diversion, its structure comprising a main flow pipe device (1), a flow lamp control device (2), a water meter control device (3), and the main flow pipe device (1) is vertically welded to the device. Between the flow light control device (2) and the water meter control device (3), the flow light control device (2) is vertically welded to the outside of the main flow pipe device (1), and the water meter control device (3) is vertically welded to the main flow The outer surface of the other side of the pipe device (1) is characterized in that: The main flow pipe device (1) is provided with a first branch pipe (10), a second branch pipe (11), a first return pipe (12), and a second return pipe (13). The first branch pipe (10) ) is embedded on the inner wall of the main flow pipe device (1), the second branch pipe (11) is embedded on the inner wall of the main flow pipe device (1) opposite to the first branch pipe (10), and the first return pipe ( 12) Embedded under the first branch pipe (10), the first return pipe (12) is embedded on the inner wall of the main pipe device (1), and the second return pipe (13) is embedded in the second branch below the pipe (11); The flow light control device (2) is provided with a strobe light (20), a circuit control device (21), and a flow detection channel (22), and the strobe light (20) is connected to the flow light control device ( 2) Above, the circuit control device (21) is embedded on the inner wall of the flow lamp control device (2), and the flow detection channel (22) is embedded between the circuit control device (21) and the main flow pipe device (1). between; The water meter control device (3) is provided with a water meter (30), a water meter circuit control device (31), and a water meter flow detection channel (32), and the water meter (30) is connected above the water meter control device (3) through thread engagement, The water meter circuit control device (31) is riveted to the inner wall of the water meter control device (3) through bolts, and the water meter flow detection channel (32) is embedded in the water meter circuit control device (31) and the main pipe device (1) between. 2. A water meter device for automatic detection of water flow based on potential energy diversion according to claim 1, characterized in that: the first diversion pipeline (10) is provided with a first diversion plate (100), a first noise reduction rubber pad (101), a first rubber rack (102), the first shunt plate (100) is embedded on the inner wall of the top end of the first shunt pipe (10), and the first noise reduction rubber pad (101) is embedded in the On the inner wall of the first branch pipe (10), the first rubber racks (102) are evenly distributed on the surface of the first noise reduction rubber pad (101). 3. A water meter device for automatic detection of water flow based on potential energy split flow according to claim 1, characterized in that: the second split pipe (11) is provided with a second split plate (110), a second noise reduction rubber pad (111), a second rubber rack (112), the second distribution plate (110) is embedded on the inner wall of the top end of the second distribution pipe (11), and the second noise reduction rubber pad (111) is embedded in the On the inner wall of the second branch pipe (11), the second rubber racks (112) are evenly distributed on the surface of the second noise reduction rubber pad (111). 4. A water meter device for automatic detection of water flow based on potential energy split flow according to claim 1, characterized in that: the circuit control device (21) is provided with a strobe light power supply box (210), a strobe light guide rod ( 211), a connecting wire (212), the strobe light power supply box (210) is riveted and connected to the inner wall of the flow light control device (2) by bolts, and the strobe light guide rod (211) is embedded in the strobe light. Between the lamp power supply box (210) and the flow detection channel (22), the connecting wire (212) is electrically connected between the strobe lamp power supply box (210) and the strobe lamp (20). 5. A water meter device for automatic detection of water flow based on potential energy split flow according to claim 4, characterized in that: the flow detection channel (22) is provided with a second gear (220) and a second electrified contact block (221) , a second electrified ball (222), a second impact plate (223), a second U-shaped fixing seat (224), a second anti-reverse support rod (225), and the second gear (220) is meshed with threads Connected to the inside of the flow detection channel (22), the second electrified contact block (221) is embedded on the inner wall of the flow detection channel (22). 6. A water meter device for automatic detection of water flow based on potential energy split flow according to claim 5, characterized in that: the second energized small ball (222) is vertically welded to the top of the second impact plate (223), and the The second impact plate (223) is welded to the second gear (220) evenly and at equal distances. The second U-shaped fixing seat (224) is riveted and connected to the inner wall of the flow detection channel (22) by bolts. The anti-reverse support rod (225) is embedded on the second U-shaped fixing seat (224). 7. A water meter device for automatic detection of water flow based on potential energy diversion according to claim 1, characterized in that: the water meter circuit control device (31) is provided with a control power supply box (310), an energized guide rod (311), The pulse converter (312), the control power box (310) is connected to the inner wall of the water meter control device (3) by bolt riveting, and the conduction guide rod (311) is connected to the control power box (310) and the water meter flow detection Between the channels (32), the pulse converter (312) is electrically connected between the control power supply box (310) and the water meter (30). 8. A water meter device for automatic detection of water flow based on potential energy diversion according to claim 7, characterized in that: the water meter flow detection channel (32) is provided with a first gear (320), a first energized contact block (321) ), the first electrified ball (322), the first impact plate (323), the first U-shaped fixing seat (324), the first anti-reverse support rod (325), the first gear (320) is threaded The first electric contact block (321) is embedded in the inner wall of the water meter flow detection channel (32). 9. A water meter device for automatic detection of water flow based on potential energy diversion according to claim 8, characterized in that: the first energized small ball (322) is vertically welded to the top of the first impact plate (323), and the The first impact plate (323) is welded on the first gear (320) evenly and at an equal distance, the first U-shaped fixing seat (324) is riveted and connected to the inner wall of the water meter flow detection channel (32) by bolts, and the first U-shaped fixing seat (324) An anti-reverse support rod (325) is embedded on the first U-shaped fixing seat (324).