CN217733941U - High-efficient water inlet and outlet and water level control automatic gate - Google Patents

Abstract

The utility model relates to a drainage technical field just discloses a high-efficient water feeding and draining and water level control automatic gate, which comprises a valve, the mid-mounting on valve upper portion has the motor, the stand is installed to the lower part of motor, the outside fixedly connected with rotating baffle of stand, one side fixedly connected with electrical source controller on valve upper portion. This high-efficient water supply and drainage and water level control automatic gate, through installing the inside at the valve front end with float switch protective frame, and float switch protective frame extends to the inside of valve, when the inside liquid of valve is effluvium, liquid promotes the floater rebound, and two connect the electric inductor contact from top to bottom, connect the electric inductor simultaneously and keep connecting the rotation, the floater drives the start of floater control switch, after the first time relay forms the closed state simultaneously, second time relay and second auxiliary relay receive the signal and drive the motor and start, and the motor drives the stand rotation and provides power.

Description

High-efficient water inlet and outlet and water level control automatic gate

Technical Field

The utility model relates to a drainage technical field specifically is a high-efficient water supply and drainage and water level control automatic gate.

Background

The automatic water gate has huge area, preferably responds to those with the highest priority, and responds to 15 mu m, and responds to those with the highest priority, and 5 or more, and more dozens or hundreds of those with the lowest priority, so that the water management is difficult, the automatic water gate traditionally needs manual management, cannot achieve accurate water level and water intake and discharge amount, can cause the problems of more waterlogged seedlings and less drought seedlings, and has high manual management cost.

In current high-efficient water supply and drainage and water level control automatic gate, when grain production, need regularly irrigate the farmland, the tradition needs manual management, manual management can't reach the accuracy to water level and water supply and drainage volume, the waterlogging seedling that waterlogging seedling and the few drought seedling problem of water can appear, automatic drainage device can only regularly control liquid delivery volume simultaneously, can not adjust in real time when quantitative control liquid delivery volume can lead to the farmland to infuse, lead to the waterlogging seedling that waterlogging seedling is abundant with the few drought seedling problem of water.

SUMMERY OF THE UTILITY MODEL

The not enough of drainage and water level control automatic gate are advanced to current high efficiency, the utility model provides a drainage and water level control automatic gate are advanced to high efficiency possesses the internally mounted who passes through the valve and has floater control switch, floater control switch's internally mounted has the floater, when valve liquid is too much, the floater promotes the rebound, and when liquid is few, the floater downstream, can drive rotating barrier simultaneously and open, and irrigate the farmland, can drive the valve according to the liquid degree of depth is automatic to start the advantage that reduces the cost of labor to this, the problem of proposing among the above-mentioned background art has been solved.

The utility model provides a following technical scheme: the utility model provides a high-efficient advance drainage and water level control automatic gate, includes the valve, the mid-mounting on valve upper portion has the motor, the stand is installed to the lower part of motor, the outside fixedly connected with rotating barrier of stand, one side fixedly connected with electrical source controller on valve upper portion, the board is placed to the opposite side fixedly connected with original paper on valve upper portion, first time relay, second time relay, first auxiliary relay, second auxiliary relay and air switch are installed respectively to the upper portion that the board was placed to the original paper, the inside front end fixedly connected with float switch protective frame of valve, one side of float switch protective frame is installed and is connect the electric inductor, the outside activity that connects the electric inductor has cup jointed the spring, the lower part fixedly connected with floater limiting plate of spring, the inboard fixedly connected with floater of floater limiting plate.

Preferably, the outer side of the rotary baffle is tightly attached to the inside of the valve, a travel switch is installed on the upper side of the inside of the valve, and the rotary baffle can be in contact with the travel switch.

Preferably, a flange bearing and a flange are installed at the lower end and the upper end of the interior of the valve, and the upright column is installed between the flange bearing and the flange.

Preferably, the power connection inductor is respectively installed at the upper end and the lower end inside the spring, the floating ball limiting plate is movably sleeved inside two sides of the floating ball switch protection frame, liquid is filled inside the floating ball, and a small hole is formed in the outer portion of the floating ball switch protection frame.

Preferably, the upper portion of the power connection inductor is provided with a floating ball control switch, the floating ball control switch is communicated with the travel switch and the first time relay, the control time of the first intermediate relay and the control time of the second intermediate relay are five seconds, and the floating ball control switch and the travel switch are connected in series and are provided with two groups.

Preferably, an energy storage battery and a solar battery are installed outside the power controller, and a sealing gasket is installed on the outer side of the rotary baffle.

With current high-efficient advance drainage and water level control automatic gate contrast, the utility model discloses possess following beneficial effect:

1. this high-efficient water inlet and outlet and water level control automatic gate, there is solar cell through electrical controller's external connection, solar cell lasts and supplies power to electrical controller, and the electric power that provides can exist in the inside of storage battery, electrical controller can keep lasting circular telegram state, simultaneously after liquid circulation to the inside of valve, the inside water level line of float switch protective frame is walked over to liquid, the floater promotes the downstream, float control switch starts simultaneously, second auxiliary relay forms the route state simultaneously, and control motor starts, it is rotatory that the motor drives the rotating baffle, liquid discharges to the opposite side through the valve.

2. This high-efficient water supply and drainage and water level control automatic gate, through installing the inside at the valve front end with float switch protective frame, and float switch protective frame extends to the inside of valve, when the inside liquid of valve is effluvium, liquid promotes the floater rebound, and two connect the electric inductor contact from top to bottom, connect the electric inductor simultaneously and keep connecting the rotation, the floater drives the start of floater control switch, after the first time relay forms the closed state simultaneously, second time relay and second auxiliary relay receive the signal and drive the motor and start, and the motor drives the stand rotation and provides power.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a schematic view of the float amplifying structure of the present invention;

fig. 3 is a schematic diagram of the operation principle circuit of the present invention.

In the figure: 1. a valve; 2. a motor; 3. a column; 4. rotating the baffle; 5. a power supply controller; 6. an original placement plate; 7. a first time relay; 8. a second time relay; 9. a first intermediate relay; 10. a second intermediate relay; 11. an air switch; 12. a float switch protection frame; 13. connecting an inductor; 14. a spring; 15. a floating ball limiting plate; 16. a floating ball; 17. a floating ball control switch; 18. a travel switch.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, 2 and 3, an efficient water inlet and outlet and water level control automatic gate includes a valve 1, a motor 2 is installed in the middle of the upper portion of the valve 1, the motor 2 controls a rotating baffle 4 to rotate to provide power, a stand column 3 is installed at the lower portion of the motor 2, the stand column 3 drives the rotating baffle 4 to rotate to increase stability, the rotating baffle 4 is fixedly connected to the outer side of the stand column 3, the rotating baffle 4 rotates to seal and limit the inside of the valve 1, a power supply controller 5 is fixedly connected to one side of the upper portion of the valve 1, a solar cell and a storage cell are installed at the outer side of the power supply controller 5, the battery can drive the motor 2 to rotate to provide power, an original placement board 6 is fixedly connected to the other side of the upper portion of the valve 1, the original placement board 6 limits parts, a first time relay 7, a second time relay 8, a first middle relay 9, a second middle relay 10 and an air switch 11 are installed at the upper portion of the original placement board 6, a front end of the inner portion of the valve 1 is fixedly connected to a float switch protection frame 12, the float switch protection frame 12 drives liquid to circulate, the floating ball to keep the position of the float 16 limited, a float switch is installed at the same time relay, a float switch 12, a float switch fixed on one side of the float switch, a float switch is connected to a float switch fixed contact with a float sensor 13, a float spring, a float switch, a float spring 15 is connected to prevent the float spring, a float spring 15, and a float spring 15 is connected to move up-down floating ball 15, and a float spring to move up-down floating ball 15, and a float ball spring to move.

Referring to fig. 1, the outside of the rotary baffle 4 is tightly attached to the inside of the valve 1, a travel switch 18 is installed on the upper side of the inside of the valve 1, the rotary baffle 4 can be in contact with the travel switch 18, the inner wall of the valve 1 is tightly attached to the rotary baffle 4, when the motor 2 drives the rotary baffle 4 to rotate to be kept in a tightly attached state with the inside of the motor 2, the rotary baffle 4 limits the inside of the valve 1, meanwhile, the upper portion of the rotary baffle 4 is in contact with the travel switch 18, the travel switch 18 controls the first time relay 7 and the first intermediate relay 9 to be closed, and controls the motor 2 to stop moving, so far, the rotary baffle 4 limits the inside of the valve 1 in a sealing manner.

Referring to fig. 1, flange bearing and flange are installed to the inside lower extreme and the upper end of valve 1, and stand 3 installs between flange bearing and flange, has flange bearing and flange through the internally mounted of valve 1, and stand 3 centre gripping between flange bearing and flange, when motor 2 drives stand 3 rotatory, reduces frictional force when rotatory to stand 3 to avoid liquid to drive the problem of liquid circulation through stand 3 and valve 1's bottom.

Referring to fig. 2, the upper end and the lower end of the power inductor 13 inside the spring 14 are respectively provided with one power inductor, the floating ball limiting plate 15 is movably sleeved inside two sides of the floating ball switch protective frame 12, the inside of the floating ball 16 is filled with liquid, a small hole is formed outside the floating ball switch protective frame 12, the floating ball switch protective frame 12 is installed inside the front end of the valve 1, the floating ball switch protective frame 12 extends to the inside of the valve 1, when the liquid inside the valve 1 overflows, the liquid pushes the floating ball 16 to move upwards, the upper power inductor 13 and the lower power inductor 13 are contacted, the power inductor 13 keeps connected and rotated, the floating ball 16 drives the floating ball control switch 17 to start, and after the first time relay 7 is in a closed state, the second time relay 8 and the second intermediate relay 10 receive signals and drive the motor 2 to start, and the motor 2 drives the upright post 3 to rotate to provide power.

Referring to fig. 2 and 3, a float control switch 17 is installed on the upper portion of the electric inductor 13, the float control switch 17 is communicated with a travel switch 18 and a first time relay 7, the control time of the first intermediate relay 9 and a second intermediate relay 10 is five seconds, the float control switch 17 and the travel switch 18 are connected in series and are installed in two groups, the float control switch 17 is installed on the upper portion of the electric inductor 13, when liquid in the valve 1 overflows, the float control switch 17 can be driven to start, meanwhile, the float control switch 17 is communicated with the travel switch 18 and the first time relay 7, when the float control switch 17 and the travel switch 18 are controlled, a motor can be switched on or switched off, and meanwhile, the control time of the first intermediate relay 9 and the second intermediate relay 10 is five seconds, so that the situation that the wave amplitude pushes a float 16 to move upwards to provide power is avoided.

Referring to fig. 3, an energy storage battery and a solar battery are mounted outside the power controller 5, a sealing gasket is mounted outside the rotary baffle 4, the energy storage battery and the solar battery are mounted outside the power controller 5, the energy storage battery and the solar battery can automatically start the motor 2 to provide power energy, meanwhile, the sealing gasket is mounted outside the rotary baffle 4, and when the rotary baffle 4 rotates to be attached to two sides inside the valve 1, the rotary baffle 4 can be kept in a sealing state with the inside of the valve 1.

The working principle is as follows: when the water supply and drainage device is used, when water enters, the water level position of the floating ball control switch 17 is set, the rotary baffle 4 is set to be in an open mode, the power supply controller 5 is connected with a power supply and a photovoltaic module, the air switch 11 is opened, at the moment, the rotary baffle 4 touches the travel switch 18 to enable the rotary baffle to be powered off, when the water is full, the floating ball 16 reaches the water level line, the floating ball 16 moves upwards, one floating ball control switch 17 is powered on, the first time relay 7 controls the motor 2 to rotate reversely, the rotary baffle 4 touches one travel switch 18 to enable the rotary baffle to be powered off, at the moment, the interior of the valve 1 is kept closed, water enters the water, when water is supplied or drained, the water level is lower than the water level line of the floating ball control switch 17, the floating ball 16 moves downwards, the other floating ball control switch 17 is powered on, the second time relay 85s is powered on, the second time relay 8 controls the reduction motor 2 to rotate the rotary baffle 4, the rotary baffle 4 touches the other travel switch 18 to enable the rotary baffle to be powered off, at the interior of the rotary baffle 4 is powered off, at the water is powered on, at the moment, at the interior of the rotary baffle 1 is opened, and the water supply or the relay is powered off.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a high-efficient water supply and drainage and water level control automatic gate, includes valve (1), its characterized in that: the utility model discloses a floating ball switch protection device, including valve (1), one side fixedly connected with power supply controller (5) on valve (1), board (6) are placed to the opposite side fixedly connected with original paper on valve (2), the outside fixedly connected with rotating baffle (4) of stand (3), one side fixedly connected with power supply controller (5) on valve (1) upper portion, board (6) are placed to the opposite side fixedly connected with original paper on valve (1) upper portion, first time relay (7), second time relay (8), first auxiliary relay (9), second auxiliary relay (10) and air switch (11) are installed respectively to the upper portion that board (6) were placed to the original paper, the inside front end fixedly connected with float switch protection frame (12) of valve (1), one side of float switch protection frame (12) is installed and is connect electric inductor (13), the outside activity that connects electric inductor (13) has cup jointed spring (14), the lower part fixedly connected with floater limiting plate (15) of spring (14), the inboard fixedly connected with floater limiting plate (16) of floater limiting plate (15).

2. The automatic gate for water feeding, draining and level control of claim 1, wherein: the outside of rotating baffle (4) is hugged closely the inside of valve (1), travel switch (18) are installed to the inside upside of valve (1), rotating baffle (4) can contact with travel switch (18).

3. The automatic gate for water inlet, water outlet and water level control as claimed in claim 1, wherein: the lower extreme and the upper end of valve (1) inside are installed flange bearing and flange, stand (3) are installed between flange bearing and flange.

4. The automatic gate for water inlet, water outlet and water level control as claimed in claim 1, wherein: the upper end and the lower end of the power connection inductor (13) in the spring (14) are respectively provided with one, the floating ball limiting plate (15) is movably sleeved in the two sides of the floating ball switch protective frame (12), liquid is filled in the floating ball (16), and a small hole is formed in the outer part of the floating ball switch protective frame (12).

5. The automatic gate for water inlet, water outlet and water level control as claimed in claim 1, wherein: the power supply device is characterized in that a floating ball control switch (17) is installed on the upper portion of the power connection inductor (13), the floating ball control switch (17), a travel switch (18) and a first time relay (7) are communicated with one another, the control time of the first intermediate relay (9) and the control time of the second intermediate relay (10) are five seconds, and the floating ball control switch (17) and the travel switch (18) are connected in series and are installed in two groups.

6. The automatic gate for water inlet, water outlet and water level control as claimed in claim 1, wherein: an energy storage battery and a solar battery are mounted outside the power controller (5), and a sealing gasket is mounted on the outer side of the rotating baffle (4).

Images