KR20130012147A - Electronic livestock feeding equipment - Google Patents

Abstract

PURPOSE: An electronic feed supply device for domestic animals is provided to enable pigs to have feed without stress. CONSTITUTION: An electronic feed supply device for domestic animals comprises an analog to digital converter which comprises a moisture sensor and a solenoid, supplies water, and converts the measured value of an analog electrode pair into a digital value, a display unit(610) which displays the measured value and operation state of the electrode pair, a set button for changing the set value of a control device, and a solenoid valve(430) for controlling the supply of water to the feed supply device.

Description

Electronic livestock feeding equipment with high feed efficiency

The present invention relates to a wet feed feeder so that a suitable amount of negative water can be supplied to feed of a feeder bottom when feeding feed and water to a livestock such as a pig. By attaching a moisture sensor with electrode pairs of electrodes and -electrodes, the feed fed to the feeding container is properly rubbed with water to keep them in good condition for livestock such as pigs.

In general, in raising livestock, such as pigs, it is economically advantageous to raise quickly while raising feed efficiency. This requires an adequate proportion of the water supplied with the feed so that the animal can eat enough feed without wasting food.

When feeding a feed to a livestock such as pigs by wet feeding, if the ratio of the water to feed the feed is too high or too low, it is difficult to feed the livestock such as pigs. If the feed becomes difficult to eat deliciously, the feed intake of the livestock is greatly reduced, and as a result, the weight of the livestock is reduced, thereby reducing the growth rate.

In addition, when the amount of water to the feed is increased, the livestock generate their own heat, which consumes their own energy, and the volume becomes large, so that the nutrients of the feed cannot be fully used.

The ratio of water to feed generally varies from 1.9: 1 for wet / dry feeds to 4: 1 for wet feeds, and too much water reduces feed intake and growth. Increasing the water-to-feed ratio to 3.4: 1 by adding an additional nipple to the wet / dry feed resulted in a 40g reduction in weight gain per day, thus adjusting the feed equipment to a lower ratio than 3: 1. It is a good idea to supply water.

Test 1 Test 2 Negative: feed rate 3: 1 6: 1 3: 1 1.25: 1 Feed rate (kg / day) 2.33 1.97 2.39 2.41 Weight increase (g / day) 708 602 721 625

One of the most important problems to be solved in conventional livestock feeders is to properly adjust the ratio of feed and water so that the feed can be deliciously eaten.

In addition, it is important to create an environment in which livestock such as pigs consume more feed in proportion to their weight as they gain weight and eat enough of the feed without stress. There are powder, pellet, or crumble form of the feed of the livestock, and such a feed is dry and immediately so that the livestock, etc. is too hot to be properly moistened with water. When properly rubbed with water like this, the appetite of the livestock is enhanced to feed well.

In the conventional wet feeder, water was supplied by using a nipple like a nipple to supply water to the feed. However, when a livestock such as a pig is playing with the water tap, the feed bucket is supplied with excessive water so that the feed sinks under the water. Livestock such as pigs will not be able to use feed efficiently. In other words, when the feeding container is full of water, the feed discharge tube is soaked with water, and the feed is not discharged smoothly, so that the feed is not seen because the food is not submerged, and the pigs are not ingested. There is a problem that the feed intake of the livestock is greatly reduced due to corruption.

Korean Patent No. 10-1067843, Automatic Wet Feeding System for Swine and Its Use Method Registered Utility Model Publication No. 20-0316988, Swine Feeder

The present invention is to solve the problem that the water used as the negative water of the cattle in the conventional wet feed is over-supplied or under-supply to appropriately control the amount of water supplied to the feed so that the animals such as pigs to eat deliciously. When cattle such as pigs are supplied with a small amount of negative water supplied with the feed, the feed becomes stiff and it is difficult for domestic animals such as pigs to be ingested. As the feed is settled under water, it is difficult for livestock such as pigs to eat the food, and in the hot summer, the water containing the feed is deteriorated, making it difficult for livestock such as pigs to use.

The electronic feeder of the present invention is to feed the feed of the livestock, such as pigs, such as to feed the animal enough to eat, to feed the feed of the feeder with an appropriate amount of water. In order to supply water properly, the moisture condition of the wet food remaining at the bottom of the feeding container is detected by a moisture sensor so that insufficient amount of water is supplied so that the livestock such as pigs can be fed with water to eat deliciously.

In order to achieve the above object, the electronic feeder of the present invention attaches a moisture sensor to the bottom of the feeder feeder that can detect the excess of moisture in the conventional wet feeder. The electroconductive moisture sensor is composed of a plurality of electrode pairs consisting of a + electrode and a-electrode, the-electrode is installed to protrude to the height of 3 ~ 15mm at the bottom of the feeder; The + electrode is installed between the 1 to 5 mm washer of the non-conductor is inserted between the bottom of the feed container and the electrode to protrude 4 to 20 mm high from the bottom of the feed container.

In addition, the electrode pair is a round screw, and assembling the screw to provide an electronic feeder of the electrode pair for sensing moisture.

The electric feeder's control device equipped with a conductivity-type moisture sensor to detect whether feed mixed with water remains in the feed of livestock such as pigs and a solenoid valve that controls the water supply is an analog electrode input from the moisture sensor. An analog-to-digital converter for converting paired sensor measurements into digital; A display unit for displaying a sensor measurement value and an operation state of the electrode pair; A setting button for changing a setting value of the control device; It consists of a solenoid valve to control the supply and interruption of water according to the sensor measurement value.

In addition, the set value set by the setting button is a control device for a wet feed feeder, characterized in that by continuously measuring the electrode pair sensor measured value, the ratio to the maximum value that the increased sensor measured value is no longer increased. To provide.

The control device further includes an operation time setting unit for setting an operation time of the solenoid valve.

In addition, the control device further includes an operation time setting unit for adjusting the operation time of the solenoid valve to increase the water supplied according to the growth phase of the pig.

The control device further includes an alarm function for notifying that water is not supplied when the length of time when the value measured from the electrical resistance moisture sensor is less than a predetermined value is longer than the set length of time. The alarm function provides a warning device such as a buzzer, a speaker or a warning light.

Electronic feeder of the present invention is composed of a plurality of electrode sensor consisting of a plurality of electrode pairs + electrode and-electrode which is installed on the bottom of the feed container is connected in parallel, the-electrode is installed to protrude from the bottom of the feed container to a height of 3 ~ 15mm, the + It is important that the electrodes protrude from the bottom of the feeder 4 to 20 mm high so that there is a step between the pair of-and + electrodes. The + electrode of 4 to 20 mm height is inserted between the bottom of the feeding container and the + electrode by the non-conductor washer of 1 ~ 5 mm height so that the + electrode is higher than the-electrode.

As such, the electronic feeder of the present invention is an analog-to-digital converter for digitally converting an analog sensor measurement value input from an electrically conductive moisture sensor 500 and an electrically conductive moisture sensor installed with a step on the bottom of a feed container. And a display unit 610 for displaying a sensor measurement value and an operation state of the moisture detecting sensor, a setting button 620 for changing a setting value of the control device, an up button 621 for raising the setting value, and a setting value. The control unit 600, which consists of a solenoid valve 430 for controlling the supply and interruption of water according to the down button 622 and the sensor measurement value to be lowered is mounted outside the hopper 100 of the electronic feeder, the hopper ( The upper portion of the 100 is formed with a feed inlet 110, the support 120 is formed horizontally inside the hopper, the discharge portion 310 is opened to the lower side of the hopper near the feed container. Jang. In addition, the rotation shaft 140 extends downward in the center of the support 120 to be connected to the diffusion rod 130 to smoothly discharge when the feed of the hopper is discharged to the feed container.

The electronic feeder of the present invention is a device for providing a water-type feed in which the ratio of feed and water is deliciously fed to the feed without the stress by supplying an appropriate amount of water to the feed supplied.

Electronic feeder of the present invention is freely discharged as the feed of the feed of the hopper through the outlet as the livestock feed such as pigs, when the discharged feed is insufficient moisture sensor measurement value of the moisture sensor to operate the solenoid ball in the control unit of the feed container Water is properly supplied to the feed, and when the feed is good enough to feed the water supply is stopped.

As such, the electronic feeder of the present invention can electronically control the amount of water supplied with the feed properly to keep the feed in good condition, and the livestock such as pigs always eat the fresh feed deliciously so that the feeding container is always kept clean. Livestock, such as pigs and pigs, can eat enough feed and water, so the feed efficiency is high. In addition, it is possible to supply water freely according to the amount of feed to be fed at the stage of development of livestock such as pigs, so that the growth is fast and the feed efficiency is high, thereby improving the competitiveness of the hog farmers.

The present invention solves the problems of the conventional wet feeding machine is an electronic feeder that allows the livestock such as pigs to eat enough feed to increase the weight of pigs raised and shorten the shipping time.

1 is a perspective view of a conventional wet machine
2 is a perspective view of an electronic feeder according to the present invention;
3 is a side view of the electronic feeder according to the present invention;
4 is a bottom plan view of the electronic feeder according to the present invention.
5 is an operation flowchart of the electronic feeder according to the present invention.

Hereinafter, with reference to the accompanying drawings a specific embodiment of the electronic feeder of livestock according to the present invention will be described in detail.

The present invention is not limited to the embodiments disclosed below, but may be implemented in various forms, and the present embodiments merely make the disclosure of the present invention complete and fully scope the scope of the invention to those skilled in the art. It is provided to inform you.

1 is a perspective view of a conventional wet feeder, FIG. 2 is a perspective view of an electronic feeder according to the present invention, and FIG. 3 is a side view of the electronic feeder according to the present invention. 4 is a bottom plan view of the electronic feeder according to the present invention, and FIG. 5 is an operation flowchart of the electronic feeder according to the present invention.

Wet feed is to feed water and feed to livestock such as pigs at the same time. However, in the case of the wet feeder, when the water supplied to the livestock is excessive, the loss and waste of the feed becomes severe, and the feed efficiency is low.

Conventional wet type water detection methods include electric resistance, light sensor, electrode, and capacitive type, and the technical configuration is various.

As a conventional feeder, as shown in Figure 1, when the feed contained in the hopper 100 is supplied to the feed container 300, the water supplied from the water supply pipe 410 through the water outlet 420 consisting of a nipple, etc. The water is supplied to the livestock, and the water supplied through the water outlet is mixed with the feed of the feeding container 300 to become a wet feed. At this time, the water supplied from the water outlet 420 is excessive, there are a lot of cases standing in the feed container 300, there was a problem such that the feed is changed. In addition, in the case of supplying water together using solenoid valves while controlling the feed, it is not possible to supply enough amount of livestock such as pigs exactly, so in this case, the supply of feed is the level desired by livestock such as pigs. There is a problem that cannot be determined from.

The present invention by supplying a water resistance sensor of the electrical resistance or conductivity type in a pair of the bottom of the feeding container as described in Figure 2 to 4 to measure the moisture content of the feed remaining on the bottom of the feeding container to supply the insufficient moisture. In addition, the feed of livestock such as pigs is autonomously discharged freely as the livestock eats, so that the livestock can eat enough feed, and the feed is rubbed with the optimum moisture to feed the feed so that the pigs can eat enough feed. This can greatly increase the efficiency of feed, and livestock such as pigs will grow faster.

Electronic feeder of the present invention hopper 100, feeder 300, water supply means 400, solenoid valve 430, moisture detection sensor 500, control unit 600, display unit 610 and the setting button 620 )

The hopper 100 has a feed inlet is formed so as to inject the feed on the top, the lower portion of the hopper 100 is collected is discharged toward the feed container 300 discharge portion 310 is extended, the discharge portion The feed discharged from the 310 to ensure that the diffusion rod 130 to be smoothly spread. Water supply means 400 is a water supply pipe 410 is installed along the circumferential surface of the discharge portion 310 on the upper side of the discharge portion 310, the water outlet 420 in the water supply pipe 410 is a predetermined interval As a result, a number of them are installed to feed the animals with drinking water.

Since the water outlet 420 may automatically supply water intermittently by the solenoid valve 430, the water outlet 420 may be simply formed as a water outlet hole in the water supply pipe 410 instead of the conventional nipple structure, or may be a hollow pipe. It is configured in such a way to attach downward to the water supply pipe, the feed water fed through the water supply pipe 410 rubs the feed fed to the feeding container is a good moisture state to eat livestock such as pigs.

The negative water supplied to the feed detects the water in the feed container 300 by a pair of water detection sensors 500 connected in parallel installed on the bottom of the feed container 300, and controls the solenoid valve 430 according to the detected signal. To control the water supply. The moisture sensor 500 is a + electrode 510 and the-electrode 520 is an electrode pair of one unit, a plurality of the electrode pair is installed in a constant shape on the bottom of the feed container 300 is a non-conductor and connected in parallel to the bottom of the feed container Will detect moisture. At this time, the + electrode and the-electrode of the moisture sensor give a step so that the amount of water-containing feed remains appropriately without completely removing it from the feeding container.

Pigs have a habit of digging the floor with their nose, which can destroy the sensor if it protrudes from the floor or if the sensor protrudes from the feeder. In addition, since the sensing height of the sensor installed at the bottom of the feeding container is changed, it is not possible to use the method such as measuring from the top to the bottom, and when the electric resistance or capacitive sensor is installed at the bottom of the feeding container, even if only a little water remains Moisture is detected there is a problem that the supply of water is delayed. If the sensor detects that food remains in the feeder, there is a problem that the pig's head is detected in the feeder and malfunctions, or does not distinguish between feed and water.

In the present invention, using an electrical resistance-type moisture sensor 500 that changes the electrical signal according to the amount of moisture, the electrode pairs of the + pole 510 and the-pole 520 is installed at a predetermined space height at the bottom of the feed container step Put the electrode pair to measure the fragrance of the moisture mixed in the feed, and compare the measured value with the set value to operate the solenoid valve to supply water to the feed container 300 or to stop the supply.

In the present invention, the plurality of moisture detecting sensors 500 may be provided with the number of feeding zones in the feeding container to the electrode pairs of the + electrode 510 and the-electrode 520. For example, in the case of a feed where five pigs can feed at the same time, five pairs of moisture detection sensors 500 composed of + pole 510 and-pole 520 are installed. The distance between the positive pole 510 and the negative pole 520 is 3-7 cm, and the distance between the electrode pairs is farther than this distance.

The electronic feeder of the present invention inserted a non-conductor washer (not shown) between the + electrode 510 and the bottom of the feeding container to separate the + electrode 510 from the bottom of the feeding container by 1 to 5 mm. That is, by varying the height between the + pole 510 and the -electrode 520, it is possible to fully perform the function of supplying water even if the feed remains with some moisture that the conventional sensors could not solve.

And by protruding the + electrode 510 and the-electrode 520 of the moisture sensor without buried in the bottom of the feed container 300, when the pig eats to some extent by using the habit of digging or pushing the food into the nose, The feed was eaten by pushing the electrode around, so that the electrode was separated from the feed containing moisture around the electrode, allowing the proper amount of water to be re-supplied.

As shown in FIG. 3, the present invention installs the electrode 520 protruding from the bottom of the feeding container 300 to the height of 3 to 15 mm, and the + electrode 510 is disposed between the bottom of the feeding container 300 and the + electrode. By inserting the washer to protrude to a height of 4 ~ 20mm to-step the electrode and the + electrode is a step, the plurality of electrode pairs of the-electrode and the + electrode is connected in parallel to the bottom of the feeding container a plurality of moisture detection sensor (500 ). The non-conductive washer (not shown) may be installed on the negative electrode instead of the positive electrode.

  Example 1

Referring to FIG. 5, a method of controlling the solenoid ball 430 using the electrically resistive moisture sensor 500 of the present invention is described below.

The electrical resistance moisture sensor 500 shows a different resistance value when combined with moisture depending on the ion content of the object to be measured. In the case of feed, feed with different electrical conductivity appears according to the blending ratio of the feed, the variety of feed is also very diverse, there is a limit to set the water setting value differently according to the type of feed.

In order to solve this problem, the electrode pairs of the + electrode 510 and the -electrode 520 and the electrode pair which detect whether the pig has eaten the water or the remaining water are irrespective of the type of feed supplied to solve the problem. Control unit 600 for controlling the signal detected from the.

In the present invention, a 12-bit analog-to-digital converter was used, and the analog-to-digital conversion value detected by the measurement represented values of 1280, 1505, 1463, 1700, etc. according to feed types of V1, V2, No. 2, and No. 3.

Therefore, it was not possible to control the method of setting water supply and interruption based on a constant value.

In the present invention, a method of measuring the maximum value of the conductivity value measured when water is supplied and adopting a method of starting control when the ratio decreases from this value is determined.

That is, when water is supplied to the feed through the solenoid valve, the digital conversion value measured from the moisture sensor 500 increases. In this case, the digital value continuously measured is compared to find the maximum value, and the ratio is determined from the maximum value. If the value is reduced more than the set value during the pig feed the water containing the feed to determine the lack of water in the feeder 300 to supply the water, so as to control irrespective of the change in electrical conductivity according to the composition of the feed. The setting ratio of the maximum value is determined in the range of 5 to 30%, and may be set to 5%, 10%, 15%, 20%, 25%, 30%, and the like.

Pigs, on the other hand, eat more feed as they grow and need more water in proportion. Therefore, by using the setting button 620, it is possible to set the ratio of the time the water is supplied and the conductivity value supplied with water, and the control unit 600 controls the measured value according to the set value.

  [Example 2]

When explaining the electronic feeder of the present invention with reference to FIG. In the hopper 100 containing the feed to adjust the height of the feed outlet 310 to the growth stage of the pig to determine the amount of feed to be fed, switch the setting mode switch 623 of the control unit 600 to the setting pig After setting the water supply time according to the growth stage of the setting mode switch 623 is switched to the operating state.

When the pig puts the discharge portion 310 into the pig's nose or mouth, the feed is discharged from the hopper 100 to the feeding container 300 through the discharge portion 310. At this time, since there is no moisture in the feeding container 300, the solenoid valve 430 is operated to supply water from the control unit 600 so that water is supplied for a predetermined time and then the water supply is stopped.

As such, when water is supplied to the feeding container 300, the electrical conductivity signal value is measured by the controller 600 from the plurality of electrode pairs installed in the feeding container 300, and the electrical conductivity value increases as the water is supplied and is saturated at the highest point. At this time, the value is stored in the internal storage of the controller, and if the value of the conductivity falls below the predetermined value among the set values (5-30%) at the highest value, the controller operates the solenoid valve 430 again to supply water to the feeder. To be supplied.

100: hopper 110: feed inlet
120: support 130: diffusion rod
140: axis of rotation 300: feed container
310: outlet 400: water supply means
410: water supply pipe 420: water outlet
430: solenoid valve 500: moisture sensor
510: (+) electrode 520: (-) electrode
600: control unit 610: display unit
620: setting button 621: up button
622: down button 623: setting mode switch
630: sensor connection 640: solenoid connection

Claims (8)

In the feeder equipped with a water conductivity sensor of the conductivity type for detecting whether there is a feed mixed with water in the feeder of the pig,
The moisture sensor is composed of an electrode pair of + electrode and-electrode, the plurality of electrode pairs are connected in parallel to the bottom of the feed tank,
The electrode of the electrode pair is installed to protrude from the bottom of the feeding container 3 ~ 15mm high,
The + electrode of the electrode pair is inserted between the bottom of the feed container and the + electrode is inserted into the non-conductive washer of 1 ~ 5mm height protrudes 4 ~ 20mm high from the bottom of the feed container, characterized in that the + electrode and the-electrode to form a step Electronic feeder with moisture sensor.
The method of claim 1,
The feeder bottom of the feeder is an electronic feeder having a moisture sensor, characterized in that the insulator.
In the control device of the feeder to supply water with a conductivity sensor and a solenoid to detect the water mixed with water in the feeder of the pig feeder,
An analog-to-digital converter for converting the measured value of the analog electrode pair inputted from the water conductivity sensor of the conductivity type into digital; And
A display unit which displays a measured value and an operation state of the electrode pair; And
A setting button for changing a setting value of the control device; And
And a solenoid valve configured to control supplying or stopping water to the feeder according to the measured value of the electrode pair.
The method of claim 3,
And the set value is a ratio of the measured value of the electrode pair to the highest value at which the measured value of the increased electrode pair is no longer increased.
The method of claim 3,
The control device further comprises an operating time setting unit for setting the operating time of the solenoid valve.
The method of claim 3,
The control device of the electronic feeder characterized in that it further comprises an operation time setting unit to increase the operation time of the solenoid valve when increasing the supply time of water as the pig grows and develops.
The method of claim 3,
The control device may further include an alarm function that warns, in the manner of buzzer, speaker, and warning light, that water is not supplied when the time measured from the electrical resistance moisture sensor is less than a predetermined value. Control device of electronic feeder.
In the feeder equipped with a moisture sensor,
The feeder is a hopper for holding the feed, the discharge portion for discharging the feed of the hopper downward, the spreading rod to rotate so that the feed discharged from the discharge portion smoothly, the feed container containing the discharged feed, the hopper It is composed of a water supply pipe installed in a circular shape along the circumferential surface of the lower outlet, the water outlet is installed,
The moisture sensor has a plurality of electrode pairs are installed at a predetermined interval on the bottom of the feed container consisting of a + electrode and a-electrode,
The electrode of the electrode pair is installed to protrude at a height of 3 ~ 15mm at the bottom of the feeding container,
The + electrode of the electrode pair is installed between the non-conductor 1 ~ 5mm washer is inserted between the bottom of the feed container and the + electrode to protrude 4 ~ 20mm height from the bottom of the feed container,
An analog digital converter for converting the analog sensor measurement value inputted from the water conductivity sensor of the electrical conductivity method into a digital device and a display unit for displaying the measured value and the operation state of the electrode pair are mounted on a controller outside the hopper.
The control unit controls the solenoid valve by comparing the set value of the water set by the setting button and the measured value of the electrode pair to determine the supply and interruption of the water to supply or stop the water supply to the feeding container

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