CN210641912U - Rabbit house water supply monitoring system - Google Patents
Rabbit house water supply monitoring system Download PDFInfo
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- CN210641912U CN210641912U CN201921271936.2U CN201921271936U CN210641912U CN 210641912 U CN210641912 U CN 210641912U CN 201921271936 U CN201921271936 U CN 201921271936U CN 210641912 U CN210641912 U CN 210641912U
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Abstract
The utility model discloses a rabbit house water supply monitoring system, including catch basin, storage water tank, water yield monitoring module and central processing module, the catch basin communicates the water inlet of each rabbit house, catch basin bottom surface height is higher than rabbit house watering place height, the junction of catch basin and each rabbit house water inlet all is equipped with the water diversion valve, catch basin one end communicates the storage water tank, be equipped with the water source entry of connecting the outside water source on the storage water tank, the storage water tank is equipped with the total valve with the catch basin junction, water yield monitoring unit includes flowmeter, water intaking valve and liquid level control module, the flowmeter is located the catch basin and is close to the total valve setting, the water intaking valve sets up in the water source entrance of storage water tank, the liquid level control module sets up in the storage water tank; the utility model discloses can guarantee the ration of each rabbit house and evenly supply water, not only use manpower sparingly material resources, still guarantee the mutual isolation between each rabbit house water source, reduce virus infection probability, and then improve the rabbit survival rate and breed economic benefits index.
Description
Technical Field
The utility model relates to a breed poultry and automated control technical field especially relate to a rabbit house water supply monitored control system.
Background
The environment of the rabbit hutch plays a vital role in the growth health of the adult rabbits, and further influences the survival rate and survival quality of the adult rabbits. As the most critical step of adult rabbit breeding summary, the rabbit hutch has higher requirements on water quantity and water quality. In order to prevent mutual cross infection of rabbit hutch, breed by adopting a plurality of independent rabbit hutch's mode more, this just leads to certain difficulty for supplying water, the mode that currently often adopts includes independent water supply and basin intercommunication rabbit hutch two kinds of modes of supplying water, the former need establish many sets of water supply equipment alone, not only extravagant material resources, also cause the large amount of consumptions of manpower, the latter is because the mobility of rivers in the basin, often cause the low reaches basin not to fill water yet, go up the condition that has the basin just overflowed, and simultaneously, because the drinking water ponds of a plurality of rabbit hutch of same basin intercommunication, lead to the water in the basin and the water in the rabbit hutch to cross each other, and then lead to the infection of virus easily, be unfavorable for the healthy breed of.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a rabbit house water supply monitored control system can guarantee the ration of each rabbit house and evenly supply water, and the material resources of not only using manpower sparingly have still guaranteed the mutual isolation between each rabbit house water source, reduce virus infection probability, and then improve the rabbit survival rate and breed economic benefits index.
The utility model adopts the technical proposal that:
a rabbit house water supply monitoring system comprises water storage tanks, water quantity monitoring modules and a central processing module, wherein the water storage tanks are communicated with water inlets of rabbit houses, the bottom surfaces of the water storage tanks are higher than a drinking pool of the rabbit houses, water distributing valves are arranged at the joints of the water storage tanks and the water inlets of the rabbit houses, one ends of the water storage tanks are communicated with the water storage tanks, water source inlets connected with external water sources are arranged on the water storage tanks, and main valves are arranged at the joints of the water storage tanks and the water storage tanks; the water quantity monitoring unit comprises a flow meter, and the flow meter is positioned in the water storage tank and is close to the main valve;
the output end of the flow meter is connected with the water quantity signal input end of the central processing module, the water storage control end of the central processing module is connected with the controlled end of the main valve, and the water discharge control end of the central processing module is respectively connected with each water distribution valve.
Furthermore, the water quantity monitoring unit also comprises a water inlet valve and a liquid level control module, wherein the water inlet valve is arranged at a water source inlet of the water storage tank, and the liquid level control module is arranged in the water storage tank.
Furthermore, the liquid level control module comprises a floating ball switch, a lower floating ball switch and a control relay, a normally closed contact of the floating ball switch, a normally open contact of the lower floating ball switch and a coil of the control relay are sequentially connected in series and then connected into a mains supply end, a first normally open contact of the control relay is connected in parallel with two ends of the normally open contact of the lower floating ball switch and forms a self-locking structure, and a second normally open contact of the control relay is connected in series in a power supply loop of the water inlet valve.
Furthermore, the central processing module is respectively connected with the water distribution valve through a relay circuit.
Furthermore, the relay circuit comprises a plurality of delay relays, and the delay relays correspond to the water distribution valves one by one; the coil of the time delay relay is connected with the power supply end of the central processing module, and the normally open contact of the time delay relay is connected in series in the power supply loop of the corresponding water diversion valve.
The utility model discloses following beneficial effect has:
(1) the water quantity put into the water storage tank each time is quantitatively controllable by arranging the flow meter, and the water storage tank can be flexibly arranged according to the needs of the rabbit huts, so that the water source waste is reduced while the water supply needs of each rabbit huts are uniformly met, meanwhile, the water distributing valve arranged by water inlet of each rabbit huts is utilized, the height of the water storage tank is higher than that of a drinking pool of the rabbit huts, the water source in the water storage tank is prevented from being crossed with the water storage tank, the probability of virus infection among different rabbit huts is further reduced, and the health of rabbit breeding is ensured;
(2) by arranging the water inlet valve and the liquid level control module, the automatic supply and automatic cut-off of the water source in the water storage tank are realized, the automation degree of the utility model is improved, and the manpower consumption is further reduced;
(3) through setting up relay circuit and adopting time delay relay, make the valve of dividing delay after the catch basin holds full water and open, guarantee every rabbit house water inlet inflow on average, avoid the rabbit house to supply water too much or the condition emergence of too little, improve the utility model discloses a reliability.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic block diagram of the circuit of the present invention;
FIG. 3 is a circuit schematic of the liquid level control module.
Description of reference numerals:
1. a water inlet valve; 2. a floating ball switch; 3. a water storage tank; 4. a lower floating ball switch; 5. a main valve; 6. a flow meter; 7. a water diversion valve; 8. a water storage tank.
Detailed Description
The utility model comprises a water storage tank 8, a water storage tank 3, a water quantity monitoring module and a central processing module, wherein the water storage tank 8 is communicated with the water inlet of each rabbit hutch, the bottom surface of the water storage tank 8 is higher than the height of a drinking water pool of the rabbit hutch, a water diversion valve 7 is arranged at the joint of the water storage tank 8 and the water inlet of each rabbit hutch, one end of the water storage tank 8 is communicated with the water storage tank 3, a water source inlet for connecting an external water source is arranged on the water storage tank 3, and a main valve 5 is arranged at the joint; the water quantity monitoring unit comprises a flow meter 6, and the flow meter 6 is positioned in the water storage tank 8 and is close to the main valve 5.
In order to better understand the present invention, the technical solution of the present invention is further explained below with reference to the accompanying drawings.
As shown in figure 1, the utility model comprises a water storage tank 8, a water storage tank 3, a water quantity monitoring module and a central processing module.
The upper end of the water storage tank 3 is provided with a water source inlet communicated with an external water source, the right end of the water storage tank 3 is communicated with a water storage tank 8 through a main valve 5, and the right end of the water storage tank 8 is closed to form a tank body for containing a water source; a plurality of water outlets are sequentially formed in the water storage tank 8 in the axial direction and are communicated with the water inlets of the drinking ponds of the rabbit houses one by one, the water distributing valves 7 are arranged at the joints of the water storage tank 8 and the water inlets of the rabbit houses, and the bottom surface of the water storage tank 8 is higher than the height of the drinking ponds of the rabbit houses.
The water quantity monitoring unit comprises a flow meter 6, a water inlet valve 1 and a liquid level control module, wherein the flow meter 6 is positioned in the water storage tank 8 and is arranged close to the main valve 5, the water inlet valve 1 is arranged at a water source inlet of the water storage tank 3, and the liquid level control module is arranged in the water storage tank 3.
As shown in fig. 2, the output end of the flow meter 6 is connected with the water quantity signal input end of the central processing module, the water storage control end of the central processing module is connected with the controlled end of the main valve 5, and the water discharge control end of the central processing module is respectively connected with each water distribution valve 7 through a relay circuit.
As shown in fig. 3, the liquid level control module comprises a floating ball switch 2, a lower floating ball switch 4 and a control relay, a normally closed contact K1 of the floating ball switch 2, a normally open contact K2 of the lower floating ball switch 4 and a control relay coil T are sequentially connected in series and then are connected to a mains supply end, a first normally open contact KM1 of the control relay is connected to two ends of the normally open contact K2 of the lower floating ball switch in parallel and forms a self-locking structure, and a second normally open contact KM2 of the control relay is connected in series in a power supply loop of the water inlet valve 1.
The relay circuit comprises a plurality of delay relays, and the delay relays correspond to the water distribution valves 7 one by one; the coil of the time delay relay is connected with the power supply end of the central processing module, and the normally open contact of the time delay relay is connected in series in the power supply loop corresponding to the shunt valve 7.
The working principle of the utility model is as follows:
central processing module control is total valve 5 and is opened, and the water source gets into catch basin 8, and flowmeter 6 sends flow information to central processing module, and when the inflow was unanimous with required water yield, total valve 5 closed, and simultaneously, the power supply of delay relay coil, delay relay begin the timing, and after finishing the timing, delay relay normally open contact was closed, and it opens to get to the electricity corresponding shunt valve 7, and rivers are flowed into rabbit house drinking water tank by catch basin 8. It should be pointed out that the water diversion valve 7 is controlled by central processing module respectively, and it is opened quantity and is opened the port and set up as required by the field personnel, and this design is current mature technique, and does not belong to the utility model discloses an inventive point, so no longer describe herein.
As shown in fig. 3, when the water level in the water storage tank 3 is lower than the lower float switch 4, the normally open contact K2 of the lower float switch 4 is closed, the control relay coil T is electrified, the normally open contacts KM1 and KM2 of the control relay are closed, the water inlet valve M is electrified and opened, and the water storage tank 3 starts to enter water; after the water level rises, the normally open contact K2 of the lower floating ball switch 4 is disconnected under the action of buoyancy, but the coil T of the control relay keeps a self-locking power supply state because the first normally open contact KM1 of the control relay connected in parallel is still closed; when the liquid level rises to the floating of the upper float switch 2, the normally closed contact K1 of the upper float switch 2 is disconnected, the power supply loop of the control relay coil T is disconnected, the normally open contacts KM1 and KM2 of the control relay are disconnected, the water inlet valve M is powered off and closed, and the water storage tank 3 stops water inlet.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that the technical solutions described in the foregoing embodiments may be modified or equivalent replaced by some or all of the technical features, and the modifications or the replacements may not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.
Claims (5)
1. The utility model provides a rabbit house water supply monitored control system which characterized in that: the rabbit hutch comprises a water storage tank, water storage tanks, a water quantity monitoring module and a central processing module, wherein the water storage tank is communicated with water inlets of all rabbit hutches, the bottom surface of the water storage tank is higher than a drinking pool of the rabbit hutch, water distributing valves are arranged at the joints of the water storage tank and the water inlets of all the rabbit hutches, one end of the water storage tank is communicated with the water storage tanks, water source inlets connected with external water sources are arranged on the water storage tanks, and main valves are arranged at the joints of; the water quantity monitoring unit comprises a flow meter, and the flow meter is positioned in the water storage tank and is close to the main valve;
the output end of the flow meter is connected with the water quantity signal input end of the central processing module, the water storage control end of the central processing module is connected with the controlled end of the main valve, and the water discharge control end of the central processing module is respectively connected with each water distribution valve.
2. A rabbit hutch water supply monitoring system according to claim 1, wherein: the water quantity monitoring unit further comprises a water inlet valve and a liquid level control module, the water inlet valve is arranged at a water source inlet of the water storage tank, and the liquid level control module is arranged in the water storage tank.
3. A rabbit hutch water supply monitoring system according to claim 2, wherein: the liquid level control module comprises an upper floating ball switch, a lower floating ball switch and a control relay, a normally closed contact of the upper floating ball switch, a normally open contact of the lower floating ball switch and a control relay coil are sequentially connected in series and then are connected into a mains supply end, a first normally open contact of the control relay is connected to two ends of the normally open contact of the lower floating ball switch in parallel and forms a self-locking structure, and a second normally open contact of the control relay is connected in series in a power supply loop of the water inlet valve.
4. A rabbit hutch water supply monitoring system according to claim 1, wherein: and the central processing module is respectively connected with the shunt valve through a relay circuit.
5. A rabbit hutch water supply monitoring system according to claim 4, wherein: the relay circuit comprises a plurality of delay relays, and the delay relays correspond to the water distribution valves one by one; the coil of the time delay relay is connected with the power supply end of the central processing module, and the normally open contact of the time delay relay is connected in series in the power supply loop of the corresponding water diversion valve.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921271936.2U CN210641912U (en) | 2019-08-07 | 2019-08-07 | Rabbit house water supply monitoring system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921271936.2U CN210641912U (en) | 2019-08-07 | 2019-08-07 | Rabbit house water supply monitoring system |
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| CN210641912U true CN210641912U (en) | 2020-06-02 |
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| CN201921271936.2U Active CN210641912U (en) | 2019-08-07 | 2019-08-07 | Rabbit house water supply monitoring system |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111990278A (en) * | 2020-08-31 | 2020-11-27 | 江苏省农业科学院 | Rabbit flexible drinking water feeding system and management method |
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2019
- 2019-08-07 CN CN201921271936.2U patent/CN210641912U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111990278A (en) * | 2020-08-31 | 2020-11-27 | 江苏省农业科学院 | Rabbit flexible drinking water feeding system and management method |
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