CN210641905U - Disinfection and drinking water control device - Google Patents

Abstract

The utility model discloses a disinfection and drinking water control device, include: and the information acquisition unit is used for reading and recording the identity information of the livestock and poultry. And the water intake acquisition unit is used for accurately acquiring and recording the water intake of the livestock and poultry. And the ozone unit is communicated with the water supply unit and is used for providing ozone to sterilize and disinfect the drinking water. And the temperature control unit is used for heating the drinking water to a set temperature range and recording the accurate temperature of the drinking water obtained by the livestock and poultry. The temperature control unit includes: a heating assembly for heating the drinking water; the temperature sensor assembly is used for acquiring and recording accurate temperature data of the drinking water; the heating assembly and the temperature sensor assembly are sequentially arranged on the water outlet pipe. The ozone unit is used for providing ozone to sterilize and disinfect the drinking water so as to obtain pure drinking water. The information acquisition unit is used for acquiring the identity information of the livestock and poultry. The temperature control component is used for heating drinking water. The drinking water amount acquisition unit acquires the drinking water amount.

Description

Disinfection and drinking water control device

Technical Field

The utility model relates to a drinking device, in particular to a disinfection and drinking water control device.

Background

The water source of the farm is required to pass through a water tower or a reservoir, a water delivery pipe and a water fountain, and is finally drunk by animals. In the whole water delivery process, due to open environments of water towers, water reservoirs and the like, the water delivery pipeline is long, and is easy to be irradiated by sunlight, the pipeline material and the like, so that drinking water is polluted. Many farms never clean and disinfect water towers, reservoirs, water delivery pipelines and the like after the farms are built, or the cleaning and disinfection are not thorough, so that the drinking water is easily subjected to secondary pollution in the delivery process.

In addition, the farms regularly add drugs, vaccines, vitamins, nutritional supplements, etc. to the drinking water in order to ensure the health and growth needs of the animals, which are easily left in the pipelines. The fusion of these residues with microorganisms such as bacteria in the drinking water gradually forms a wet and slippery film, known as a "biofilm" in the pipeline.

In a water conveying pipeline with a biological film, bacteria can take nutrients from the biological film and a water body and can multiply and breed once every 30 min. Particularly, at night, animals do not drink water or drink little water, constant low pressure and proper temperature are kept in the pipeline, and bacteria have sufficient time and environmental conditions for breeding. Thus, the number of bacteria can be increased to 216 times, namely 6 ten thousand times, after 8 hours at night. This results in: the closed drinking water system designed for keeping the health of the livestock and poultry originally becomes a hotbed for the growth of microorganisms such as bacteria, viruses, mold, algae and the like; it is believed that clean drinking water is provided, while contaminated water is consumed by livestock and poultry.

In winter or in northern cold areas, the water temperature is too low, and diseases such as diarrhea and the like are easy to occur; the water temperature is too high to be drunk by animals and wastes energy, and the national aquaculture industry loses hundreds of millions of years at least because of diarrhea and other diseases. Therefore, the pure drinking water with proper temperature is provided for animals, which is the guarantee of animal health and is an important means for reducing the loss of the state in the breeding industry.

Meanwhile, drinking water time, drinking water amount, drinking water temperature, drinking water frequency and livestock initial identity data of different livestock are collected, data analysis is carried out after the livestock are cultured for a period of time, data support is provided for subsequent scientific culture, and the method is an important means for fundamentally reducing loss.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a disinfection and drinking water control device for providing pure drinking water at a certain temperature and recording drinking water amount, drinking water temperature and drinking water frequency data corresponding to the livestock and poultry identity.

Based on the above purpose, the utility model provides a disinfection and drinking water control device, which is applied to a livestock and poultry drinking water device; the beasts and birds watering device includes: the water supply unit, the water delivery pipe, the water outlet pipe and the water fountain; one end of the water delivery pipe is communicated with the water supply unit; the water outlet pipes are sequentially arranged on the water conveying pipe; the tail end of each water outlet pipe is provided with a water fountain; the control device includes:

the information acquisition unit is used for reading and recording the identity information of the livestock and poultry;

the water intake acquisition unit is used for accurately acquiring and recording the water intake of the livestock and poultry;

the ozone unit is communicated with the water supply unit and is used for providing ozone to sterilize and disinfect the drinking water;

the temperature control unit is used for heating the drinking water to a set temperature range and recording the accurate temperature of the drinking water obtained by the livestock and poultry;

the temperature control unit includes:

a heating assembly for heating the drinking water;

the temperature sensor assembly is used for acquiring and recording accurate temperature data of the drinking water;

the heating assembly and the temperature sensor assembly are sequentially arranged on the water outlet pipe.

In some embodiments, the identity information includes: number, age, weight and health information.

In some embodiments, the water intake collecting unit includes:

the touch switch is arranged on the water fountain and is used for opening or closing the water fountain under the action of external force;

and the flow meter component is arranged on the water outlet pipe and is used for collecting and recording the water intake of the livestock and poultry.

In some embodiments, the water intake collecting unit further includes:

and the electromagnetic valve assembly is arranged on the water outlet pipe and used for opening or closing the water outlet pipe.

In some embodiments, the tact switch includes:

and the sensor component is used for acquiring and recording the opening and closing time of the water dispenser.

In some embodiments, the ozone unit comprises:

and the control assembly is used for controlling the water inflow of the water supply unit, collecting the water inflow time and controlling the ozone unit to provide the ozone amount which is adaptive to the water inflow to the water supply unit according to the water inflow time.

In some embodiments, the control assembly comprises:

the float valve is arranged in a water supply pipeline of the water supply unit and used for controlling the opening and closing of the water supply pipeline so as to provide accurate water supply amount for the water supply unit;

and the timer records time when the float valve is lowered to a set position.

In some embodiments, the ozone unit further comprises:

the ozone conveying pipeline is used for conveying ozone to the water supply unit;

the control assembly further comprises:

the flow meter part is arranged on the ozone conveying pipeline and used for collecting and recording the ozone amount introduced into the water supply unit;

and the electromagnetic valve component is arranged on the ozone conveying pipeline and used for opening or closing the ozone conveying pipeline.

In some embodiments, the heating assembly comprises a heating tube; the heating pipe is sleeved on the water outlet pipe; and a heating resistor is arranged in the heating pipe.

In some embodiments, the heating assembly includes a constant temperature water tank for heating the outlet pipe.

It can be seen from the above that, the utility model provides a disinfection and drinking water control device includes the ozone unit, and the ozone unit is used for providing ozone and disinfects the disinfection in order to obtain pure drinking water to the drinking water. The information acquisition unit is used for acquiring the identity information of livestock and poultry so as to correspond to the temperature of the drinking water and the amount of the drinking water one by one; meanwhile, the information acquisition unit uploads the identity information to the controller, and the controller records the identity information and uses the identity information as a basis for starting other units to start working. The temperature control assembly starts heating work after receiving the signal, so that the drinking water is prevented from being heated repeatedly, and fresh drinking water within a certain temperature range is provided. The drinking water quantity acquisition unit starts to acquire the drinking water quantity after receiving the signals so as to ensure that the acquired drinking water quantity is matched with the identities of the livestock and poultry one by one.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a disinfection and drinking water control device provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings.

It should be noted that all expressions using "first" and "second" in the embodiments of the present invention are used for distinguishing two entities with the same name but different names or different parameters, and it is understood that "first" and "second" are only used for convenience of expression and should not be understood as limitations to the embodiments of the present invention, and the following embodiments do not describe any more.

Referring to fig. 1, the drinking device for livestock and poultry comprises: a water supply unit 1, a water delivery pipe 9, a water outlet pipe 10 and a water fountain 7.

The water supply unit 1: is communicated with the water delivery pipe 9 and is used for storing drinking water for livestock and poultry, in particular to a water tower or a reservoir. The water supply unit 1 can be made of plastics, stainless steel, cement, glass and the like; the shape can be spherical, bowl-shaped, cylindrical, square, etc. The water supply unit 1 is generally of a high-rise structure for storing water while ensuring the amount of water and the pressure of water in the water delivery pipe 9.

A water delivery pipe 9: the water delivery pipe 9 is made of plastic, stainless steel and the like and is used for delivering drinking water to a farm from a water supply unit.

Water outlet pipe 10: a plurality of outlet pipes 10 set gradually in raceway 9, and the end of every outlet pipe 10 is provided with a drinking bowl 7, and the beasts and birds can obtain the drinking water from drinking bowl 7.

Referring to fig. 1, based on foretell beasts and birds watering device, the utility model provides a pair of disinfection and drinking water controlling means, include: the water quality monitoring device comprises an information acquisition unit 6, a water intake acquisition unit 3, an ozone unit 2 and a temperature control unit 4; wherein the temperature control unit 4 comprises a heating assembly and a temperature sensor assembly.

The information acquisition unit 6 is connected with the controller 5 and is mainly used for acquiring the identity information of the livestock and the poultry and uploading the identity information to the controller 5; the controller 5 is arranged to record the identity information and in dependence thereon to send a signal to other required units to start operation. The information acquisition unit 6 comprises a code scanner or a card reader; the livestock and poultry wear two-dimensional codes, bar codes, IC cards and the like. The information acquisition unit 6 acquires the identity information of the livestock and poultry through livestock and poultry scanning or card reading, records the drinking time of the livestock and poultry, and uploads the information to the controller 5. The identity information may include the number, age, weight, health, place of origin, etc. of the livestock and poultry to provide necessary parameters for subsequent analysis.

The information acquisition unit 6 may be provided at the outlet pipe 10, at the drinking fountain 7 or at the inlet of the drinking frame, in this embodiment each outlet pipe and drinking fountain being arranged in one drinking frame.

The controller 5 controls the temperature control unit 4 to start according to the livestock and poultry identity information and the information acquisition time uploaded by the information acquisition unit 6. The temperature sensor assembly is used for collecting and recording accurate temperature data of the drinking water and uploading the data to the controller 5, so that the accurate temperature of the drinking water drunk by the livestock and poultry can be obtained, and accurate data are provided for follow-up statistical analysis.

Meanwhile, if the temperature of the drinking water is not within the set temperature range, the controller 5 can control the heating assembly to be turned on and off and adjust the heating temperature so that the temperature of the drinking water is maintained within the set temperature range or send a turn-on signal to the heating assembly when the controller 5 receives the identity information of the livestock and poultry. Some heating element itself can set for the heating temperature range to according to heating temperature range automatic control heating element's heating temperature and pause, at this moment the effect of temperature sensor is only the accurate temperature of gathering and record drinking water, and the temperature data that temperature sensor uploaded to the controller is not as the parameter of adjusting heating element.

Heating element and temperature sensor subassembly set gradually in outlet pipe 10, that is to say, when the drinking water flowed out along the outlet pipe, can pass through heating element again temperature sensor earlier. And the heating component is controlled by the controller 5 to be started, and the controller 5 sends a starting signal to the heater after receiving the livestock and poultry identity information. The arrangement mode avoids the repeated heating of the drinking water to influence the quality of the drinking water; meanwhile, the heating mode avoids the heating of drinking water in a large range, and saves energy.

The water intake acquisition unit 3 is connected with the controller 5, and after the controller 5 receives the identity information of the livestock and poultry, the water intake acquisition unit 3 is controlled to start working so as to acquire the drinking water amount corresponding to the identity of the livestock and poultry.

To sum up, this use novel controlling means who provides, including the ozone unit, the ozone unit is used for providing ozone and disinfects the disinfection in order to obtain pure drinking water to the drinking water. The information acquisition unit is used for acquiring the identity information of livestock and poultry so as to correspond to the temperature of the drinking water and the amount of the drinking water one by one; meanwhile, the information acquisition unit uploads the identity information to the controller, and the controller records the identity information and uses the identity information as a basis for starting other units to start working. The temperature control assembly starts heating work after receiving the signal, so that the drinking water is prevented from being heated repeatedly, and fresh drinking water within a certain temperature range is provided. The drinking water quantity acquisition unit starts to acquire the drinking water quantity after receiving the signals so as to ensure that the acquired drinking water quantity is matched with the identities of the livestock and poultry one by one.

As a more specific example, the water intake collecting unit 3 includes a touch switch and a flow meter assembly, and when the touch is touched to turn on the water fountain, the flow meter starts to collect water intake and upload the water intake to the server. The touch switch can be an infrared induction type or mechanical type switch, the touch switch can be opened or closed at any time and any place according to the needs of the livestock and poultry, the water intake is the water amount just needed by the livestock and poultry, the needs of the livestock and poultry are met, and meanwhile waste is avoided.

The water intake collecting unit 3 further comprises an electromagnetic valve assembly arranged on the water outlet pipe 10. The electromagnetic valve assembly is connected with the controller 5 and receives control of the controller 5, and when the controller 5 receives identity information, an opening signal is sent to the electromagnetic valve assembly, and at the moment, the electromagnetic valve assembly opens the water outlet pipe 10. The electromagnetic valve unit is added to prevent the livestock and poultry from obtaining drinking water without swiping a card, and the drinking water obtained by the livestock and poultry is not the drinking water with proper temperature, which can cause adverse effects on the health condition of the livestock and poultry; meanwhile, the drinking water amount obtained by the livestock and poultry under the condition is not recorded, and the obtained data is inaccurate. A preset time can be set to send a closing signal to the electromagnetic valve assembly so as to close the water outlet pipe 10; or the flow meter can conclude that the livestock and the poultry stop obtaining the drinking water when the flow meter does not collect the flow change, and the controller can send a signal to the electromagnetic valve assembly to close the water outlet pipe 10 within a period of time when the livestock and the poultry stop obtaining the drinking water.

The touch switch is also provided with an inductor component for collecting and recording the opening and closing time of the water fountain. The opening time of the water fountain is collected, and if the difference between the opening time of the water fountain and the card swiping time exceeds the preset time, the controller can send a closing signal to the electromagnetic valve component to prevent the card swiping livestock and poultry from being different from the actual livestock and poultry. The time that the drinking bowl is closed is gathered, and if the time exceeds the predetermined time, the controller can send closing signal to the solenoid valve to prevent that different beasts and birds from mistakenly obtaining drinking water through this drinking bowl that is opened, in order to avoid causing the inaccurate of data.

As a more specific embodiment, the ozone unit 2 comprises a control component for controlling the water level of the water supply unit 1, collecting the water inlet time and controlling the ozone unit 2 to provide the corresponding ozone amount to the water supply unit 1 according to the water inlet time.

The control assembly comprises a ball float valve, the ball float valve is arranged on the water supply unit 1, the ball float valve can accurately control the opening and closing of the water supply pipeline 8, and the water supply unit 1 provides accurate water supply amount and accurately controls the water level of the water supply unit.

The ball cock assembly includes cursory and connecting rod, and the cursory all the time all will float on water, and the cursory one end with the connecting rod links to each other, and the other end of connecting rod links to each other with water supply pipe 8's valve. When the water level of the water supply unit descends, the buoy also descends, and when the water level descends to a set value, the connecting rod drives the valve to open, water storage starts, and the water level starts to rise. When the water surface rises, the buoy rises to drive the connecting rod to rise, and when the water level rises to a set position, the valve is closed to seal a water source.

The float valve is provided with a timer for recording time when the float valve is lowered to a set position. The buoy drives the connecting rod to rotate together when moving up and down along with the water level, the connecting rod is provided with an external circuit, when the buoy is positioned at the highest set water level, the external circuit is in a closed state, when the buoy is positioned at the lowest set water level, the external circuit is in an open state and sends a signal to the timer, and the timer collects and records the time for the moment and uploads the time to the controller.

Ozone unit 2 also includes an ozone delivery line for delivering ozone to water supply unit 1. The control assembly further comprises an electromagnetic valve member, the electromagnetic valve member is arranged on the ozone conveying pipeline, and the controller sends a signal to the electromagnetic valve member according to the opening time of the water supply pipeline 8 so as to open the ozone conveying pipeline. The control assembly further comprises a flow meter part, the flow meter part is arranged on the ozone conveying pipeline and used for collecting and recording the ozone amount led into the water supply unit 1, and when the ozone amount recorded by the flow meter part and passing through the water supply unit is the same as the set ozone amount, the controller sends a closing signal to the electromagnetic valve part according to the preset water inflow of the water supply unit 1 and the ozone amount adaptive to the water inflow. The adaptive ozone amount can be a certain range of ozone amount or a certain value of ozone amount according to the water inflow, and the sterilization effect of the ozone is the best.

In other embodiments, the water level control device can be a pressure water level controller, an electrode type water level controller and the like besides the float valve.

The pressure water level controller: the water level of the water supply unit 1 may also be detected by pressure because the high pressure of the water level is also high and the low pressure of the water level is also low. The common YXC-150 type electric contact pressure gauge can be used as pressure control and on-site detection. When the pressure of the measured medium enters the spring tube, the spring produces displacement, and after the displacement is amplified by the transmission mechanism, the pointer rotates around the fixed shaft, the rotating angle is in direct proportion to the pressure in the spring, and the pressure is indicated on the dial of the pressure gauge, and simultaneously the pointer of the electric contact is driven to act. When the water level is lower than a set value, the pointer is communicated with a lower limit setting value contact to send a low water level signal; when the water level rises to a set value, the pointer is communicated with the upper limit setting value contact; when the water level is between the high and low water level setting values, the pointer is not communicated with the upper and lower limit contacts, so that the pump starting and stopping signals can be sent out by reflecting the water supply pressure of the water tank. If the electric contact pressure gauge is installed in the water supply pipe network, signals for starting and stopping the pump can be sent out by reacting the water supply pressure of the pipe network.

Electrode type water level controller: the electrode type water level control is to utilize the conductivity of water or liquid to make the mutually insulated electrodes conduct or not conduct when the water supply unit 1 is at high water level or low water level, and send out a signal to make the transistor sensitive relay act and send out an instruction to control the water pump to start and stop.

As a more specific example, the heating assembly includes a heating tube; the heating pipe is sleeved on the water outlet pipe 10; a heating resistor is arranged in the heating pipe. The heating pipe sleeve is preferably made of insulating and heat-insulating materials so as to prevent electric leakage and heat loss. The heating temperature of the heating pipe can be adjusted to adjust the water outlet temperature of the water outlet, and the water outlet temperature adjusting device is convenient and quick and is sensitive to adjustment.

The heating assembly comprises a constant temperature water tank, the heating section of the water outlet pipe 10 is accommodated in the constant temperature water tank, and the constant temperature water tank is used for heating the water outlet pipe 10. The constant temperature water tank has the advantages of stable temperature, automatic adjustment of heating temperature according to setting and heating suspension.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the invention, also combinations between technical features in the above embodiments or in different embodiments are possible, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity. Therefore, any omission, modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A disinfection and drinking water control device, which is applied to a livestock and poultry drinking water device; the beasts and birds watering device includes: the water supply unit, the water delivery pipe, the water outlet pipe and the water fountain; one end of the water delivery pipe is communicated with the water supply unit; the water outlet pipes are sequentially arranged on the water conveying pipe; the tail end of each water outlet pipe is provided with a water fountain; characterized in that the control device comprises:

the information acquisition unit is used for reading and recording the identity information of the livestock and poultry;

the water intake acquisition unit is used for accurately acquiring and recording the water intake of the livestock and poultry;

the ozone unit is communicated with the water supply unit and is used for providing ozone to sterilize and disinfect the drinking water;

the temperature control unit is used for heating the drinking water to a set temperature range and recording the accurate temperature of the drinking water obtained by the livestock and poultry;

the temperature control unit includes:

a heating assembly for heating the drinking water;

the temperature sensor assembly is used for acquiring and recording accurate temperature data of the drinking water;

the heating assembly and the temperature sensor assembly are sequentially arranged on the water outlet pipe.

2. The control apparatus of claim 1, wherein the identity information comprises: number, age, weight and health information.

3. The control device according to claim 2, wherein the intake water amount collecting unit includes:

the touch switch is arranged on the water fountain and is used for opening or closing the water fountain under the action of external force;

and the flow meter component is arranged on the water outlet pipe and is used for collecting and recording the water intake of the livestock and poultry.

4. The control device of claim 3, wherein the water intake amount collecting unit further comprises:

and the electromagnetic valve assembly is arranged on the water outlet pipe and used for opening or closing the water outlet pipe.

5. The control device of claim 4, wherein the tact switch comprises:

and the sensor component is used for acquiring and recording the opening and closing time of the water dispenser.

6. The control device of claim 5, wherein the ozone unit comprises:

the control assembly is used for controlling the water level of the water supply unit, collecting water inlet time and controlling the ozone unit to provide corresponding ozone amount for the water supply unit according to the water inlet time.

7. The control device of claim 6, wherein the control assembly comprises:

the ball float valve is arranged on the water supply unit and used for controlling the opening and closing of the water supply pipeline according to the water level;

and the timer is used for recording time when the float valve is lowered to a set position.

8. The control device of claim 7, wherein the ozone unit further comprises:

the ozone conveying pipeline is used for conveying ozone to the water supply unit;

the control assembly further comprises:

the flow meter part is arranged on the ozone conveying pipeline and used for collecting and recording the ozone amount introduced into the water supply unit;

and the electromagnetic valve component is arranged on the ozone conveying pipeline and used for opening or closing the ozone conveying pipeline.

9. The control device of claim 8, wherein the heating assembly comprises a heating tube; the heating pipe is sleeved on the water outlet pipe; and a heating resistor is arranged in the heating pipe.

10. The control device of claim 8, wherein the heating assembly comprises a constant temperature water tank for heating the outlet pipe.

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