CN215123421U - Automatic precious aquaculture pond of regulation water level - Google Patents

Abstract

The utility model discloses a rare aquaculture pond capable of automatically adjusting water level, relating to the field of aquaculture equipment; the water-saving culture pond comprises a culture pond, wherein a water inlet pipe and a water outlet pipe are arranged at the bottom of the side surface of the culture pond in a penetrating manner, valves are arranged on the water inlet pipe and the water outlet pipe, and the water inlet pipe and the water outlet pipe are connected with a water pump arranged outside the culture pond; the water pool is arranged outside the culture pool, and the bottom of the water pool is communicated with the bottom of the culture pool through a communicating pipe; the inner wall of the water tank is connected with the pressure sensing rod in a sliding mode through a limiting sliding device, the center of the bottom face of the pressure sensing rod is connected with a pressure sensor, the pressure sensor is connected with a controller through an electric signal, the controller is connected with a water pump through an electric signal, the controller is connected with a valve through an electric signal, and the controller is arranged on the outer wall of the water tank; the floating plate is arranged in the water tank, is connected with the inner wall of the water tank in a sliding way through a buoyancy sliding device and is arranged right below the pressure sensor; the water level can be adjusted by using one pressure sensor, so that the water level adjusting device is convenient and quick and saves energy.

Description

Automatic precious aquaculture pond of regulation water level

Technical Field

The utility model relates to an aquaculture equipment field specifically is a rare aquaculture pond of automatically regulated water level.

Background

Giant salamanders belong to the family of gill salamanders and belong to the genus giant salamander, are the largest and most precious amphibians existing in the world, and are called as crying of acoustic image babies, so people also call giant salamanders. Whether the artificial breeding of the giant salamanders is successful or not is greatly related to the water level of the breeding pond. In the process of breeding, the market can adjust the water level according to the conditions in the pool, so that not only the dry pool is prevented, but also the fish full of water is prevented from escaping. In actual culture, water inlet and outlet of a culture pond are mostly adjusted manually, culture personnel need to pay attention to water inlet, water outlet and liquid level change at any time, time and labor are consumed, and the water level cannot be adjusted timely, so that the water level is too high or too low, and the growth of the giant salamanders in the same period is influenced; in addition, even if a plurality of liquid level sensors are adopted in part of the culture pond to measure the water level so as to realize timely adjustment of the water level, the sensors which need to be distributed are too many due to the fact that the culture pond is too large in size, and therefore energy consumption is huge.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of prior art, provide a precious aquaculture pond of automatically regulated water level. The water level can be adjusted by using one pressure sensor, so that the water level adjusting device is convenient and quick and saves energy.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a precious aquaculture pond of automatically regulated water level, includes breeds the pond, breed pond side bottom and wear to be equipped with inlet tube and outlet pipe, the inlet tube with the outlet pipe all is equipped with the valve, the inlet tube with the outlet pipe is connected at the outside water pump of breeding the pond with the setting.

The precious aquaculture pond capable of automatically adjusting the water level also comprises a water pool, wherein the water pool is arranged outside the aquaculture pond; the bottom of the water pool is communicated with the bottom of the culture pool through a communicating pipe; the inner wall of the water tank is connected with a pressure sensing rod in a sliding mode through a limiting sliding device, the center of the bottom surface of the pressure sensing rod is connected with a pressure sensor, the pressure sensor is connected with a controller through an electric signal, and the controller is connected with a water pump through an electric signal; the controller is in electric signal connection with the valve; the controller is arranged on the outer wall of the water pool; a floating plate is arranged in the water tank and is connected with the inner wall of the water tank in a sliding manner through a buoyancy sliding device; the floating plate is arranged right below the pressure sensor.

Furthermore, the limiting sliding device comprises a limiting sliding rail and a limiting sliding block, the limiting sliding rail is symmetrically arranged on the inner wall of the water pool by the vertical plane of the central line of the water pool, the limiting sliding block is symmetrically arranged at the two ends of the pressure sensing rod by the vertical plane of the central line of the pressure sensing rod, and the limiting sliding rail is connected with the limiting sliding block in a sliding manner; the limiting slide rail and the buoyancy sliding device are arranged in parallel.

Furthermore, the limiting slide rail is a self-locking slide rail.

Further, buoyancy slider includes buoyancy spout and buoyancy slider, the buoyancy spout with the vertical plane symmetry of pond central line sets up the pond inner wall, the buoyancy slider with the vertical plane symmetry of kickboard central line sets up the kickboard both sides, the buoyancy spout with buoyancy slider sliding connection.

Furthermore, the vertical surfaces of the central lines of the limit slide rail and the buoyancy slide groove are perpendicular to each other.

Furthermore, an extrusion block is arranged at the right upper end of the floating plate, and the center line of the extrusion block and the center line of the pressure sensor are on the same straight line.

Furthermore, one side of the water outlet pipe, which is close to the culture pond, is provided with a water outlet filter screen.

Furthermore, the inlet tube is close to breed pond one side and is provided with into water filter screen.

Furthermore, the ports at the two ends of the communicating pipe are provided with filter screens.

The utility model has the advantages that:

the precious aquaculture pond capable of automatically adjusting the water level is provided with a water tank communicated with the bottom of the aquaculture pond, so that the aquaculture pond and the water tank jointly form a communicator, and according to the principle that the liquid level of the communicator is level, the water level in the water tank can be adjusted when the water level is adjusted, and further the adjustment of the water level in the aquaculture pond is realized; the arrangement of the water pool can avoid influencing the normal life of the giant salamander when a device for adjusting the water level is directly arranged in the culture pond; in addition, the volume of the water pool is smaller than that of the culture pool, so that the operation is more convenient when the water level is actually adjusted.

A floating plate and a pressure sensing rod comprising a pressure sensor are arranged in the water tank, when the water level is adjusted, a controller which is in electrical signal connection with the pressure sensor outputs a water level height signal to be adjusted to the motor, the motor drives the limiting slide blocks on two sides of the pressure sensing rod to slide in the limiting slide rails, when the water level is lower than the set water level, the controller drives the water pump and opens the valve of the water inlet pipe, the water in the water pump flows into the culture pond through the water inlet pipe, the water level in the water pond and the water level in the culture pond rise synchronously, at the moment, the buoyancy sliding blocks at the two sides of the floating plate drive the floating plate to slide upwards in the buoyancy sliding chute, when the floating block slides up to the set height, the extrusion block on the upper surface can contact the pressure sensor, the pressure sensor transmits a signal to the controller, the controller closes the valve of the water inlet pipe, and water inlet is finished at the moment; when the actual water level is higher than the set water level, the water pump is driven by the controller and the valve of the water outlet pipe is opened, the water in the culture pond is discharged through the water outlet pipe, the water level in the water pond and the water level in the culture pond synchronously descend until the water level descends to the set water level, the extrusion block leaves the pressure sensor at the moment, the pressure of the pressure sensor is reduced to 0, the pressure sensor transmits a signal to the controller, the controller closes the valve of the water outlet pipe, and the water discharge is finished; the water level adjusting device is simple in operation, the water level can be adjusted only by adjusting the controller, automatic operation is really realized, and labor cost is reduced.

Drawings

Fig. 1 is a schematic sectional structure view in the front view direction of the present invention;

FIG. 2 is a schematic side sectional view of a middle pool according to the present invention;

fig. 3 is a schematic sectional view of the top view of the present invention;

in the figure, 100-culture pond, 101-water inlet pipe, 102-water outlet pipe, 103-valve, 104-water outlet filter screen, 105-water inlet filter screen, 106-communicating pipe, 107-filter screen, 200-water pool, 201-pressure sensing rod, 202-pressure sensor, 203-floating plate, 204-limit slide rail, 205-limit slide block, 206-buoyancy slide groove, 207-buoyancy slide block, 208-extrusion block, 301-water pump and 302-controller.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.

As shown in fig. 1 to 3, a precious aquaculture pond capable of automatically adjusting water level comprises a culture pond 100, wherein a water inlet pipe 101 and a water outlet pipe 102 are arranged at the bottom of the side surface of the culture pond in a penetrating manner, valves 103 are arranged on the water inlet pipe 101 and the water outlet pipe 102, and the water inlet pipe 101 and the water outlet pipe 102 are connected with a water pump 301 arranged outside the culture pond 100. The rare aquaculture pond capable of automatically adjusting the water level further comprises a water tank 200, wherein the water tank 200 is arranged outside the aquaculture pond 100; the bottom of the water pool 200 is communicated with the bottom of the culture pool 100 through a communicating pipe 106; the inner wall of the water pool 200 is connected with a pressure sensing rod 201 in a sliding mode through a limiting sliding device, the center of the bottom face of the pressure sensing rod 201 is connected with a pressure sensor 202, the pressure sensor 202 is connected with a controller 302 through an electric signal, and the controller 302 is connected with a water pump 301 through an electric signal; the controller 302 is in electrical signal connection with the valve 103; the controller 302 is arranged on the outer wall of the water pool 100; the water tank 200 is provided with a floating plate 203, the floating plate 203 is connected with the inner wall of the water tank 200 in a sliding mode through a buoyancy sliding device, the floating plate 203 is arranged right below the pressure sensor 202, in addition, the right upper end of the floating plate 203 is provided with an extrusion block 208, and the center line of the extrusion block 208 and the center line of the pressure sensor 202 are on the same straight line. Further, the limiting sliding device comprises a limiting sliding rail 204 and a limiting sliding block 205, the limiting sliding rail 204 is symmetrically arranged on the inner wall of the water pool 200 by the vertical plane of the central line of the water pool 200, the limiting sliding block 205 is symmetrically arranged at two ends of the pressure sensing rod 201 by the vertical plane of the central line of the pressure sensing rod 201, and the limiting sliding rail 204 is connected with the limiting sliding block 205 in a sliding manner; the limiting slide rail 204 is arranged in parallel with the buoyancy slide device, and the limiting slide rail 204 is a self-locking slide rail; the buoyancy sliding device comprises a buoyancy sliding chute 206 and a buoyancy sliding block 207, wherein the buoyancy sliding chute 206 is symmetrically arranged on the inner wall of the water pool 200 by the vertical plane of the center line of the water pool, the buoyancy sliding block 207 is symmetrically arranged on two sides of the floating plate 203 by the vertical plane of the center line of the floating plate 203, and the buoyancy sliding chute 206 is in sliding connection with the buoyancy sliding block 207; further, the vertical planes of the center lines of the limit slide rails 204 and the buoyancy slide grooves 206 are perpendicular to each other.

When the water level is actually adjusted, firstly, the controller 302 outputs a water level height signal to be adjusted to the motor, the motor drives the limiting sliding blocks 205 on two sides of the pressure sensing rod 201 to slide in the limiting sliding rails 204 until the water level height is set, when the actual water level is lower than the set water level, the controller 302 drives the water pump 301 and opens the valve 103 of the water inlet pipe 101, water in the water pump 301 flows into the culture pond 100 through the water inlet pipe 101, the water level in the water pond 200 and the water level in the culture pond 100 rise synchronously, at the moment, the buoyancy sliding blocks 207 on two sides of the floating plate 203 drive the floating plate 203 to slide upwards in the buoyancy sliding grooves 206, when the floating plate 203 slides to the set height, the extrusion blocks 208 on the upper surface contact the pressure sensor 202, the pressure sensor 202 transmits the signal to the controller 302, the controller 302 closes the valve 103 of the water inlet pipe 101, and at the moment, water inflow is finished; when the actual water level is higher than the set water level, the controller 302 drives the water pump 301 and opens the valve 103 of the water outlet pipe 102, the water in the culture pond 100 is discharged through the water outlet pipe 102, the water level in the water tank 200 and the water level in the culture pond 100 synchronously drop until the water level drops to the set water level, at this time, the extrusion block 208 leaves the pressure sensor 202, the pressure of the pressure sensor 202 drops to 0, the pressure sensor 202 transmits a signal to the controller 302, the controller 302 closes the valve 103 of the water outlet pipe 102, and the water discharge is finished; the water level adjusting device is simple to operate, the water level can be adjusted only by adjusting the controller 302, automatic operation is really realized, and labor cost is reduced.

In specific implementation, the side of the water outlet pipe 102 close to the culture pond 100 is provided with the water outlet filter screen 104, so that the giant salamanders are prevented from being discharged into the water outlet pipe 102 together to cause damage during water drainage; furthermore, a water inlet filter screen 105 is arranged on one side, close to the culture pond 100, of the water inlet pipe 101, so that water introduced into the culture pond 100 can be filtered, and water pollution in the culture pond 100 is reduced.

Furthermore, the pipe orifices at the two ends of the communicating pipe 106 are respectively provided with the filter screen 107, so that the giant salamander can generate some dirt in water in the metabolism process, the filter screens 107 can be installed to filter the water entering the communicating pipe 106 and the water pool 200, and the normal adjustment of the water level caused by the blockage of the communicating pipe 106 by the dirt is avoided.

Working process or principle:

the bottom of the culture pond 100 of the rare aquaculture pond capable of automatically adjusting the water level is connected with the bottom of the water pond 200 through a communicating pipe 106 to form a communicating vessel together, and according to the principle of the communicating vessel, the water level in the culture pond 100 can be adjusted only by adjusting the height of the water level in the water pond 200; specifically, the pressure sensor (PLD 204D-15-100 KG) 202 is disposed on the pressure sensing rod 201 above the water pool 200, the pressure sensor 202 is electrically connected to the controller (AC 2000) 302, the controller 302 transmits the signal from the pressure sensor 202 to the water pump 301 and the valve 103 which are electrically connected to the controller, so as to realize water intake and water discharge through the water inlet pipe 101 and the water outlet pipe 102, and control the water level in the culture pool 100 and the water pool 200.

When the water level is adjusted specifically, the water level needs to be adjusted up or down. If the water level needs to be adjusted upwards, the controller 302 outputs a signal of the water level height to be set to the motor, the motor drives the limiting sliding blocks 205 on both sides of the pressure sensing rod 201 to slide upwards in the limiting sliding rails 204, because the limiting sliding rails 204 are self-locking sliding rails (sold in the market), when the limiting sliding blocks 205 slide to the set water level height, the motor can be automatically locked, then the controller 302 drives the water pump 302 and opens the valve 103 of the water inlet pipe 101, the water in the water pump 301 flows into the culture pond 100 through the water inlet pipe 101, the water level in the water pond 200 and the water level in the culture pond 100 rise synchronously, at this time, the buoyancy sliding blocks 207 on both sides of the buoyancy plate 203 drive the buoyancy plate 203 to slide upwards in the buoyancy sliding groove 206, when the buoyancy plate 203 slides to the set height, the extrusion blocks 208 on the upper surface can extrude the pressure sensor 202, the pressure sensor 202 transmits the pressure signal to the controller 302, the controller 302 outputs a signal for closing the valve 103 of the water inlet pipe 101, at the moment, water inlet is finished, and the water level is successfully adjusted up.

If the water level needs to be adjusted downwards, the controller 302 outputs a signal of the water level height to be set to the motor, the motor drives the limiting sliding blocks 205 on two sides of the pressure sensing rod 201 to slide downwards in the limiting sliding rails 204, at the moment, the buoyancy sliding blocks 207 on two sides of the floating plate 203 drive the floating plate 203 to slide downwards in the buoyancy sliding grooves 206, the limiting sliding blocks 205 can be automatically locked after sliding to the set water level height, then the controller 302 drives the water pump 301 and opens the valve 103 of the water outlet pipe 102, the water in the culture pond 100 is discharged through the water outlet pipe 102, the water level in the water pond 200 and the water level in the culture pond 100 synchronously descend until the water level descends to the set water level, the extrusion blocks 208 on the upper surface of the floating plate 203 leave the pressure sensor 202, the pressure of the pressure sensor 202 is reduced to 0, the pressure sensor 202 transmits the pressure signal to the controller 302, the controller 302 outputs a signal of closing the valve of the water outlet pipe 102, and the water discharge is finished, the water level is adjusted successfully. Because the giant salamander likes calmly and does not like, the water level is adjusted in the water pool 200, and the water level is not directly adjusted in the culture pool 100, so that the life interference on the giant salamander can be reduced, and the growth of the giant salamander can be promoted to a certain extent; in addition, the water level of the culture pond can be adjusted only by one pressure sensor 202, the cost is reduced, the operation is simple, and the automation is really realized.

The clean living environment is provided for the giant salamander, the growth of the giant salamander can be promoted, when the water level is adjusted upwards, in order to avoid the pollution of the culture pond 100 caused by the turbid inlet water, the inlet water filter screen 105 is arranged at one end of the inlet water pipe 101 close to the water pool 200, so that the impurities in the inlet water can be filtered, and the water pollution in the culture pond 100 is reduced; in addition, in the process of draining, in order to prevent the giant salamander and water from being drained into the water outlet pipe 102, the water outlet filter screen 104 is arranged at one end of the water outlet pipe 102 close to the water tank 200, so that the safety of the giant salamander is further ensured.

When adjusting the water level, breed pond 100 and pond 200 intercommunication is the key of success, because of the metabolism of giant salamander in breeding pond 100, the aquatic is inevitable to have some filth, if breed the filth water in the pond 100 and directly get into communicating pipe 106, long-term in the past, can directly block up communicating pipe 106, be unfavorable for the regulation of water level, consequently be provided with filter screen 107 at communicating pipe 106 both ends, can prevent communicating pipe 106 and block up, promote the smooth regulation of water level.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (9)

1. The precious aquaculture pond capable of automatically adjusting the water level is characterized by comprising a culture pond (100), wherein a water inlet pipe (101) and a water outlet pipe (102) are arranged at the bottom of the side surface of the culture pond in a penetrating mode, valves (103) are arranged on the water inlet pipe (101) and the water outlet pipe (102), and the water inlet pipe (101) and the water outlet pipe (102) are connected with a water pump (301) arranged outside the culture pond (100);

the water pool (200) is arranged outside the culture pond (100); the bottom of the water pool (200) is communicated with the bottom of the culture pool (100) through a communicating pipe (106); the inner wall of the water pool (200) is connected with a pressure sensing rod (201) in a sliding mode through a limiting sliding device, the center of the bottom face of the pressure sensing rod (201) is connected with a pressure sensor (202), the pressure sensor (202) is connected with a controller (302) through an electric signal, and the controller (302) is connected with a water pump (301) through an electric signal; the controller (302) is in electric signal connection with the valve (103); the controller (302) is arranged on the outer wall of the water pool (200); a floating plate (203) is arranged in the water pool (200), and the floating plate (203) is connected with the inner wall of the water pool (200) in a sliding manner through a buoyancy sliding device; the float plate (203) is disposed directly below the pressure sensor (202).

2. The precious aquaculture pond capable of automatically adjusting the water level according to claim 1, wherein the limiting slide device comprises a limiting slide rail (204) and a limiting slide block (205), the limiting slide rail (204) is symmetrically arranged on the inner wall of the pond (200) in the vertical plane of the centerline of the pond (200), the limiting slide block (205) is symmetrically arranged on the two ends of the pressure sensing rod (201) in the vertical plane of the centerline of the pressure sensing rod (201), and the limiting slide rail (204) is slidably connected with the limiting slide block (205); the limiting slide rail (204) is arranged in parallel with the buoyancy slide device.

3. The precious aquaculture pond capable of automatically adjusting the water level according to claim 2, wherein the limiting slide rails (204) are self-locking slide rails.

4. The precious aquaculture pond of claim 2, wherein said buoyancy sliding device comprises a buoyancy sliding groove (206) and a buoyancy sliding block (207), said buoyancy sliding groove (206) is symmetrically arranged on the inner wall of said pond (200) with respect to the vertical plane of the centerline of said pond, said buoyancy sliding block (207) is symmetrically arranged on both sides of said floating plate (203) with respect to the vertical plane of the centerline of said floating plate (203), and said buoyancy sliding groove (206) and said buoyancy sliding block (207) are slidably connected.

5. The precious aquaculture pond capable of automatically adjusting the water level according to claim 4, wherein the vertical planes of the center lines of the limit slide rails (204) and the buoyancy slide grooves (206) are perpendicular to each other.

6. The precious aquaculture pond capable of automatically adjusting the water level according to claim 1, wherein the floating plate (203) is provided with an extrusion block (208) at the right upper end, and the center line of the extrusion block (208) is in the same line with the center line of the pressure sensor (202).

7. The precious aquaculture pond with automatic water level adjustment according to claim 1, wherein the outlet pipe (102) is provided with an outlet screen (104) near one side of the culture pond (100).

8. The precious aquaculture pond of claim 1, wherein the side of the water inlet pipe (101) close to the aquaculture pond (100) is provided with a water inlet screen (105).

9. The precious aquaculture pond capable of automatically adjusting water level according to claim 1, wherein the two end ports of the communicating pipe (106) are provided with filter screens (107).

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