KR20110027374A - Unmanned detector for mounting of cow - Google Patents

Abstract

PURPOSE: An unmanned detector for the mounting of cows is provided to maximize the accuracy of the detection by displaying the total number of the mounting and the initial mounting time of the cows. CONSTITUTION: An unmanned detector for the mounting of cows includes an impact grounding unit(1), a transmission module(2), a receiving module(3), and a display unit(4). The impact grounding unit is attached to hind leg ankles of the cow to be operated by impacts. The transmission module receives the input of an impact signal, and transmits wirelessly. The receiving module receives the impact signal from the transmission module, and transmits to the display unit.

Description

Unmanned detector for mounting of cow

The present invention relates to a cow's unmanned multiplier detector, and more particularly to a cow's unmanned ride detector for improving the convenience and efficiency of the estrous discovery by unestablished estrous discovery before artificial fertilization.

In general, the most important problem in the management of cattle is breeding management, among which estrous discovery is an important problem, and the estrous cycle of cattle is usually 18-24 days and average 21 days.

A horned cow may be a seungha act, which means tolerate the riding of another cow next to the horned cow or to get on the back of another cow.

In the related art, an estrous discovery aid and device developed using a cow's approval permission principle has been developed. In addition, aid devices and devices using principles such as vaginal mucus resistance, frequency of action, walking and speed, estrus sound and behavior monitoring Although there are many, but the behavior and breeding conditions of the cow is changed, the accuracy is not constant, there is a inconvenience in use and the price was expensive.

That is, in the past, when the estrus is expressed, the number of times of approving the riding tends to be high, but recently, the number of appraisal behaviors is higher than that of the approving acting frequency. In particular, assistive devices and devices based on the frequency of behavior are different in the breeding environment, and in recent years, the incidence of estrous abnormalities such as weak estrus is high.

The present invention has been made to solve the above problems, before the artificial insemination of cows in the unmanned state to provide the convenience of estrous discovery by the unattended state, by displaying the number of times to improve the accuracy of the estrus discovery, It is an object of the present invention to provide a small unmanned lift detector that efficiently displays comprehensive information related to artificial insemination by displaying the time of inflation and predicting the insemination time.

The unmanned riding sensor of the cow according to the present invention is attached to the cow's Fuji ankle, the shock grounding unit which is operated by the shock when the riding of the cow, a transmission module for receiving the shock signal sensed by the impact grounding unit and transmitting it wirelessly; And a receiving module for receiving a signal transmitted wirelessly from the transmitting module and transmitting the received signal to a display unit, and a display unit for receiving a signal of the receiving module and displaying a small recognition code, the number of rides, and an initial ride time.

The unmanned riding sensor of a cow according to the present invention has an effect of collecting information related to estrus discovery and artificial fertilization in an unattended state by displaying the number of riding times and the initial riding time by applying a grounding method by impact when riding a cow.

In addition, there are many difficulties in finding estrus due to changes in cow breeding conditions, increase in breeding disorders and weak estrous cows, and mass production of the multiplier detector is possible, and thus it can be distributed to livestock farms at low prices.

The unmanned riding sensor of the cow according to the present invention is attached to the cow's Fuji ankle, the shock grounding unit which is operated by the shock when the riding of the cow, a transmission module for receiving the shock signal sensed by the impact grounding unit and transmitting it wirelessly; And a receiving module for receiving a signal transmitted wirelessly from the transmitting module and transmitting the received signal to a display unit, and a display unit for receiving a signal of the receiving module and displaying a small recognition code, the number of rides, and an initial ride time.

In addition, the impact ground portion is a cylindrical case having an open top, a weight that is inserted into the inside of the case and elastically supported by a spring, and an electrode provided on the upper opening side of the case in contact with the weight by impact It is characterized by consisting of a plate.

In addition, the outside of the impact ground is characterized in that the protective case is installed to block the introduction of cow dung.

In addition, the transmitting module includes a power supply unit for supplying power, a control unit for outputting a control signal for transmitting a shock signal detected by the impact ground unit, a transmitting RF module for transmitting wirelessly by the control signal of the control unit; Characterized in that the antenna for amplifying the signal transmitted by the transmitting RF module.

The receiving module may include a power supply unit for supplying power, a reception RF module for receiving a signal transmitted from the transmission module and transmitting the signal wirelessly, and a control unit for outputting a control signal for transmitting the signal transmitted from the reception RF module. And a data transmission unit for transmitting the signal output by the control unit to the display unit.

In addition, the frequency band of the receiving module is characterized in that 433Mhz.

In addition, the display unit is characterized in that consisting of a display panel that can display the number.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing the overall configuration of a cow unmanned multiplier detector according to the invention, Figure 2 is a view showing the internal appearance of the cow unmanned multiplier detector according to the invention, Figure 3 is a cow unmanned multiplier detector according to the present invention 4 is a configuration diagram showing a transmission module of the cattle unmanned multiplier detector according to the present invention, Figure 5 is a configuration diagram showing a receiving module of the cattle unmanned multiplier detector according to the present invention, Figure 6 FIG. 7 is a view showing an electronic board of a cattle unmanned multiplier detector according to the present invention, and FIG. 7 is a view showing a state of use of the cattle unmanned multiplier detector according to the present invention.

As shown in Figures 1 to 3, the unmanned lift sensor of the cow according to the present invention is attached to the Fuji ankle of the cow and the impact ground (1) that is operated by the impact when riding the cow, and the impact ground (1) A transmission module 2 for receiving the shock signal sensed by the wireless signal and transmitting the signal wirelessly, a receiving module 3 for receiving a signal transmitted wirelessly from the transmission module 2 and transmitting the received signal to the display unit 4, and the reception And a display unit 4 which receives the signal of the module 3 and displays the small recognition code, the number of times of riding, and the first time of riding.

Cows subject to the installation of the unmanned ride detector of the cows are cows about 40 days after delivery, cows that induce estrus, and cows that have been artificially fertilized for about 18-23 days.

The impact ground 1 is operated by the vertical impact of the strong foot cloud of the cow.

The impact ground portion 1 has a cylindrical case 11 having an open top, a weight weight 13 inserted into the case 11 and elastically supported by a spring 12, and the case 11. It is provided on the upper open side of the) is composed of an electrode plate 14 in contact with the weight weight 13 by the impact.

One side of the spring 12 is fixed to the upper end of the case 11 and the other side is fixed to the weight 13. Accordingly, when the estrous ova tries to climb, the weight 13 comes into contact with the electrode plate 14 by the impact, and thus transmits the impact signal generated to the transmission module 2.

The protective case (5) is installed outside the impact ground (1) to block the introduction of cow dung. In addition, the outside of the protective case 5 is provided with a Velcro-type fixing belt (not shown) to be fixed to the cow's Fuji ankle.

The protective case (5) is formed of a pair of brackets that can be combined and detached with a space formed therein so as to mount the impact ground (1) and the transmission module (2) therein.

As shown in FIG. 4, the transmission module 2 includes a power supply unit 21, a control unit 22, a transmission RF module 23, and an antenna 24. The power supply unit 21 is connected to the transmission module 2 to supply the overall power, and alternatively used among batteries or batteries.

The control unit 22 serves to output a control signal for transmitting the shock signal detected by the impact ground unit 1, the transmitting RF module 23 is wireless by the control signal of the control unit 22 It performs the role of transmitting to.

The antenna 24 amplifies the signal transmitted by the transmitting RF module 23 so that the signal can be transmitted as far as possible.

As shown in FIG. 5, the receiving module 3 includes a power supply unit 31, a receiving RF module 32, a control unit 33, and a data transmission unit 34. The power supply unit 31 is connected to the receiving module 3 to supply power, and alternatively used among batteries or batteries.

The receiving RF module 32 receives a signal transmitted from the transmitting module 2 and transmits the signal wirelessly, and the control unit 33 transmits a signal transmitted from the receiving RF module 32. It outputs a control signal.

The data transmission unit 34 transmits a signal output by the control unit 33 to the display unit 34 and is connected by a plurality of wires.

Meanwhile, the frequency band of the reception module 3 is 433Mhz, and the reception module 3 is always mounted to the display unit 4.

As shown in FIG. 6, the display unit 4 is composed of an electronic display panel capable of displaying a number. As described above, the display board receives the signal of the receiving module 3 and displays a small recognition code, the number of times of riding, and the first time of riding.

Hereinafter, the operation of the cattle unmanned multiplier detector according to the present invention.

As shown in Figures 1 to 7, when the cow is equipped with a cow's unmanned multiplier detector starts estrus, it is put on the back of another cow, the cow's unmanned multiplier detector to operate by the impact generated when the cow's riding do.

As the spring 12 of the impact grounding portion 1 is extended by the impact generated during the small riding, the weight 13 is in contact with the electrode plate 14 to generate a signal.

The signal detected by the weight 13 and the electrode plate 14 is transmitted to the control unit 22 of the transmission module 2, the control unit 22 outputs a control signal for transmitting this signal.

The signal output from the control unit 22 is wirelessly transmitted through the transmitting RF module 23.

The signal transmitted from the transmitting RF module 23 is received by the receiving RF module 32 and transmitted to the control unit 33, and the control unit 33 transmits a signal to the display unit 4 through the data transmission unit 34. Will be sent).

The display unit 4 receiving the signal of the receiving module 3 displays the small recognition code, the number of rides, and the initial ride time.

Therefore, by confirming whether a cow is heat-established with the cow's recognition code, the number of rides, and the initial time of riding, the information related to the estrus discovery and artificial insemination can be collected.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the invention from this description. Therefore, the scope of the invention should be construed by the claims described to include examples of many such variations.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing the overall configuration of a cattle unmanned multiplier detector according to the present invention.

Figure 2 is a view showing the inside of the cattle unmanned multiplier detector according to the invention.

Figure 3 is a perspective view showing the impact ground of the cattle unmanned multiplier detector according to the present invention.

Figure 4 is a block diagram showing a transmission module of a cattle unmanned multiplier detector according to the present invention.

Figure 5 is a block diagram showing a receiving module of the cattle unmanned multiplier detector according to the present invention.

6 is a view showing an electronic sign of a cattle unmanned multiplier detector according to the present invention.

7 is a view showing a state of use of the cattle unmanned multiplier detector according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: Shock ground part

    11: case

    12: spring

    13: weight weight

    14: electrode plate

2: Transmission module

    21: power supply

    22: control unit

    23: transmitting RF module

    24: antenna

3: receiving module

    31: power supply

    32: receiving RF module

    33: control unit

    34: data transmission unit

4: display unit

5: protective case

Claims (7)

An impact ground part (1) attached to the cow's Fuji ankle and operated by the impact when the cow is riding, A transmission module 2 for receiving an impact signal sensed by the impact ground unit 1 and transmitting it wirelessly; A receiving module 3 for receiving a signal transmitted wirelessly from the transmitting module 2 and transmitting the received signal to the display unit 4; And a display unit (4) which receives the signal of the receiving module (3) and displays the cow's recognition code, the number of rides, and the initial ride time. According to claim 1, wherein the impact ground (1) is a cylindrical case 11 of which the top is open, the weight weight 13 is inserted into the case 11 and elastically supported by a spring (12) And an electrode plate (14) provided on the upper open side of the case (11) to be in contact with the weight (13) by impact. The cattle unmanned ride detector according to claim 1 or 2, wherein a protective case (5) is provided on the outside of the impact ground unit (1) to block the introduction of cow waste. According to claim 1, wherein the transmission module 2 is a power supply unit 21 for supplying power, a control unit 22 for outputting a control signal for transmitting a shock signal detected by the impact grounding unit 1, The unattended unattended, comprising a transmitting RF module 23 for wireless transmission by the control signal of the control unit 22, and an antenna 24 for amplifying the signal transmitted by the transmitting RF module 23. Sanga detector. The reception module (3) of claim 1, wherein the reception module (3) includes a power supply unit (31) for supplying power, a reception RF module (32) for receiving a signal transmitted from the transmission module (2) and transmitting it wirelessly; Control unit 33 for outputting a control signal for transmitting a signal transmitted from the RF module 32, and a data transmission unit 34 for transmitting the signal output by the control unit 33 to the display unit 4 Cow's unmanned Sangha detector characterized in that. The cattle unmanned multiplier detector according to claim 5, wherein the frequency band of the receiving module is 433Mhz. The small unmanned multiplier detector according to claim 1, wherein the display unit (4) is composed of an electronic display panel capable of displaying a number.

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