CN212212345U - Wearable equipment of sow - Google Patents

Abstract

The utility model provides wearable sow equipment, which comprises a wearing part, a controller, a communication part and an executing part; the controller is arranged in the wearing part and is respectively and electrically connected with the execution part and the communication part; the execution part comprises a first execution device partially arranged in the wearing part, and the first execution device is used for realizing electric shock operation under the control of the controller so as to execute stimulation operation; the communication component is arranged in the wearing component and is used for communicating with external equipment so as to receive a control instruction sent by the external equipment; the controller is used for controlling the execution part according to the control instruction. The utility model provides a wearable equipment of sow can wear on the sow health, when discovering the extrusion incident, can apply the electric shock amazing to the sow through the wearable equipment of control sow, convenient operation not only to it is easy to control to apply amazing intensity, is favorable to improving the success rate of rescuing the piglet.

Description

Wearable equipment of sow

Technical Field

The utility model relates to a breed technical field, especially relate to a wearable equipment of sow.

Background

In present pig breeding trade, the incident that the piglet was extruded by the sow takes place easily at the sow lactation, and then cause the economic loss of different degrees to the raiser easily, the solution mode of mainly adopting at present is patrolling the pig house through artifical mode, carry out artificial intervention when discovering the piglet is extruded by the sow, thereby amazing the sow and standing, reach the purpose of rescuing the piglet, the artificial intervention mode of mainly adopting at present includes blowing, use modes such as wooden rod is beaten, these modes are not only inconvenient to operate, and produce amazing intensity non-manageable to the sow, cause artificial intervention failure easily.

SUMMERY OF THE UTILITY MODEL

Based on above-mentioned current situation, the utility model discloses a main aim at provides a wearable equipment of sow, convenient operation not only to exert amazing intensity to the sow and easily control, be favorable to improving the success rate of rescuing the piglet.

In order to achieve the above purpose, the technical solution of the present invention provides a wearable sow device for performing stimulation operation on a sow wearing the wearable sow device, wherein the wearable sow device comprises a wearing part, a controller, a communication part and an executing part;

the wearable component is used for wearing the wearable sow device on the body of a sow;

the controller is arranged in the wearing part and is electrically connected with the execution part and the communication part respectively;

the execution part comprises a first execution device partially arranged in the wearing part, and the first execution device is used for realizing electric shock operation under the control of the controller so as to execute the stimulation operation;

the communication component is arranged in the wearing component and is used for communicating with external equipment so as to receive a control instruction sent by the external equipment;

the controller is used for controlling the execution component according to the control instruction.

Further, the wearable sow equipment further comprises a posture detection component electrically connected with the controller, the posture detection component is arranged in the wearable component and used for detecting posture information of the sow, and the controller is further used for sending the posture information detected by the posture detection component to external equipment through the communication component.

Further, the attitude detecting means includes an acceleration sensor and a gyroscope.

Further, the first executing device includes:

the boosting device is arranged in the wearing part, and at least one part of the electric shock electrode is exposed out of the surface of the wearing part.

Further, the electric shock electrode comprises conductive silica gel.

Further, the shock electrode includes an anti-slip structure.

Further, the anti-slip structure includes a groove structure on an exposed surface of the electric shock electrode.

Further, the actuator further includes a sound device for realizing a sound operation, the sound device being electrically connected to the controller.

Further, the execution part further comprises a second execution device which is arranged in the wearing part, and the second execution device is used for realizing vibration operation under the control of the controller so as to execute pre-stimulation operation.

Further, the second actuator includes a vibration motor for performing a vibration operation.

The utility model provides a wearable equipment of sow can wear on the sow health, when discovering the extrusion incident, can apply the electric shock amazing to the sow through the wearable equipment of control sow, convenient operation not only to it is easy to control to apply amazing intensity, is favorable to improving the success rate of rescuing the piglet.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings, in which:

fig. 1 is a schematic diagram illustrating connection of electrical devices in a wearable sow device according to an embodiment of the present invention;

fig. 2 is an external structure schematic diagram of a wearable sow device provided by the embodiment of the present invention.

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth in order to avoid obscuring the spirit of the present invention, well-known methods, procedures, flows, and components have not been described in detail.

Further, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The embodiment of the utility model provides a wearable sow equipment for carrying out stimulation operation to the sow wearing it, the wearable sow equipment comprises a wearing part, a controller, a communication part and an executing part;

the wearable component is used for wearing the wearable sow device on the body of a sow;

the controller is arranged in the wearing part and is electrically connected with the execution part and the communication part respectively;

the execution part comprises a first execution device partially arranged in the wearing part, and the first execution device is used for realizing electric shock operation under the control of the controller so as to execute the stimulation operation;

the communication component is arranged in the wearing component and is used for communicating with external equipment so as to receive a control instruction sent by the external equipment;

the controller is used for controlling the execution component according to the control instruction.

The embodiment of the utility model provides a wearable equipment of sow can wear on the sow health, when discovering the extrusion incident, can apply the electric shock amazing to the sow through the wearable equipment of control sow, convenient operation not only to it is easily controlled to apply amazing intensity, is favorable to improving the success rate of rescuing the piglet.

Preferably, in an embodiment, the wearable sow device further includes a posture detection component electrically connected to the controller, the posture detection component is disposed in the wearable component and used for detecting posture information of the sow, the controller is further used for sending the posture information detected by the posture detection component to an external device through the communication component, and since a squeezing event only occurs when the sow is in a prone position, the squeezing event may occur only to the sow in the prone position, and the posture information of the sow is detected in real time through the posture detection component and sent to the external device, so that a user can be helped to know the posture information of the sow in real time.

The embodiment of the utility model provides a wearable equipment of sow, see fig. 1 and fig. 2, this wearable equipment of sow is including wearing parts, controller 10, communication part 20, executive component 30 and gesture detection part 40, controller 10 respectively with executive component 30 communication part 20 gesture detection part 40 electricity is connected:

the wearable component is used for wearing the wearable sow device on the body of a sow, and comprises two elastic belts 100 and a main body shell 200, wherein the main body shell 200 is provided with through holes 201 for installing the elastic belts, the number of the elastic belts can be two, and the two elastic belts can be connected through buckles or clamping holes so as to be fixed on the body of the sow;

the controller 10, the communication part 20, and the posture detection part 40 are disposed in the main body case 200;

the execution part 30 comprises a first execution device partially built in the wearing part, the first execution device is used for realizing electric shock operation (namely realizing electric shock stimulation to the sow) under the control of the controller 10, the first execution device comprises a voltage boosting device used for realizing electric shock operation and two electric shock electrodes 31 (one of which is a positive pole, and the other is a negative pole), the voltage boosting device is arranged in the main body shell 200, at least one part of the electric shock electrodes 31 is exposed outside the main body shell and is electrically connected with the voltage boosting device (the electric connection between the electric shock electrodes 31 and the voltage boosting device can be realized by arranging corresponding openings on the main body shell 200), the voltage boosting device can generate instantaneous high-voltage pulse, high-voltage and low-current electric shock stimulation is realized, and the sow body is ensured not to be damaged;

the execution part 30 further comprises a second execution device built in the wearing part, the second execution device is used for realizing the vibration operation (namely realizing the vibration stimulation to the sow) under the control of the controller 10, for example, the second execution device comprises a vibration motor used for realizing the vibration operation, and the vibration motor can be arranged in the main body shell 200;

the communication component 20 is configured to implement communication with an external device to receive a control instruction sent by the external device, for example, the communication component 20 may include a 433 wireless communication module, and correspondingly, a networking control key may be further disposed on the main body housing 200;

the posture detection part 40 is used for detecting the posture information of the sow, for example, the posture detection part 40 includes an acceleration sensor and a gyroscope;

the controller 10 is used for controlling the execution part 30 according to a control instruction sent by the external device, and sending the attitude information detected by the attitude detection part 40 to the external device through the communication part 20.

Preferably, in an embodiment, the material of the electric shock electrode 31 may be conductive silicone (such as flexible conductive medical silicone), so as to improve comfort and reduce skin sensitivity;

preferably, in an embodiment, the electric shock electrode 31 may further include an anti-slip structure, by which the wearing firmness of the wearable device for the sow can be further improved, and the wearable device for the sow can be prevented from moving during wearing, for example, the anti-slip structure may include a groove structure on the exposed surface of the electric shock electrode, for example, the exposed surface of the electrode 31 may be configured to be in a shape of "fingerprint";

preferably, in an embodiment, said actuator means 30 further comprise acoustic means (such as a horn) for performing an acoustic operation, electrically connected to the controller 10, by means of which acoustic stimulation of the sow can be performed.

Preferably, in an embodiment, the sow wearable device further comprises a rechargeable battery for supplying power to the sow wearable device, and correspondingly, a corresponding charging interface can be further arranged on the main body shell 200.

The embodiment of the utility model provides a wearable equipment of sow is convenient operation not only to exert amazing degree and easily control, be favorable to improving the success rate of rescuing the piglet, the gesture information of sow can also real-time supervision in addition helps discovering the piglet by the extruded incident of sow.

For example, in an embodiment, the external device may include a handheld terminal (e.g., a mobile phone, a tablet computer, etc.), a user may know posture information of a sow in real time through the handheld terminal, during patrol, the user only needs to patrol the sow in a prone posture, when a squeezing event is found, the user may send a corresponding control instruction to the wearable sow device through the handheld terminal, so as to control the wearable sow device to apply electric shock stimulation and vibration stimulation to the sow, and in addition, the user may also send an intensity adjustment instruction to the wearable sow device through the handheld terminal, so as to control the wearable sow device to apply the intensity of stimulation, for example, the wearable sow device may change the intensity of the applied stimulation by changing the type of stimulation or the intensity of vibration or the intensity of electrical stimulation or the intensity of sound;

in another embodiment, the external device may further include a control center, the control center has functions of voice recognition and voice positioning, and can recognize and position screaming sounds of piglets (namely, sounds emitted by piglets when a squeezing event occurs), and the control center can accurately judge an incident position according to a sound source positioning result of target sounds (namely, screaming sounds of piglets) and posture information of a sow, and then send a corresponding control instruction to a sow wearable device at the incident position, so as to control the sow wearable device to apply corresponding stimulation to the sow;

for example, in the present embodiment, each sow wearable device may be associated with a breeding area (each breeding area represents a position of a sow, for example, each breeding area may be a breeding field) (different wearable devices are associated with different breeding areas), worn on the body of the sow in the breeding area associated therewith, posture-monitored, and controlled by the control center to perform a shock operation and a vibration operation, and the posture detection component in each sow wearable device transmits the monitored posture information of the sow to the control center in real time;

when the control center identifies the target sound, determining the sound source coordinate position (namely fuzzy positioning of the sound source) of the target sound, wherein the obtained sound source coordinate position of the target sound can be one or more, judging whether at least one sound source coordinate position exists in each culture area, if so, determining that the culture area is a culture area which is possible to generate a squeezing event, if not, determining that the squeezing event does not occur, and through the above mode, obtaining a plurality of culture areas which are possible to generate the squeezing event, then, for each culture area which is possible to generate the squeezing event, judging whether the attitude information detected by the attitude detection component in the sow wearable equipment associated with the culture area in the preset time meets the preset condition, if so, further determining that the squeezing event occurs in the culture area, the control center sends corresponding control instructions to the sow wearable devices associated with the control center, so that the sow wearable devices are controlled to apply vibration stimulation and electric shock stimulation to the sows, and if the vibration stimulation and electric shock stimulation are not met, the fact that the squeezing event does not occur in the breeding area can be further determined. For example, the preset condition includes that the non-lying posture is changed to the lying posture and then the lying posture continues (i.e. the lying posture continues from the time of changing to the lying posture to the end of the preset time) within the preset time, wherein the preset time is a period of backtracking from the moment when the sound source positioning result is obtained by the control center, and the preset time can be 10 seconds, 15 seconds or 20 seconds, for example.

The embodiment of the utility model provides a wearable equipment of sow is favorable to improving the success rate that the cub was rescued, improves the survival rate of lactation cub, compares traditional rescue scheme in addition and can also reduce the stress injury to the sow.

It will be appreciated by those skilled in the art that the above-described preferred embodiments may be freely combined, superimposed, without conflict.

It will be understood that the above-described embodiments are illustrative only and not restrictive, and that various obvious and equivalent modifications and substitutions may be made in the details described herein by those skilled in the art without departing from the basic principles of the invention.

Claims (10)

1. A sow wearable device is used for stimulating a sow wearing the sow wearable device and is characterized by comprising a wearing part, a controller, a communication part and an executing part;

the wearable component is used for wearing the wearable sow device on the body of a sow;

the controller is arranged in the wearing part and is electrically connected with the execution part and the communication part respectively;

the execution part comprises a first execution device partially arranged in the wearing part, and the first execution device is used for realizing electric shock operation under the control of the controller so as to execute the stimulation operation;

the communication component is arranged in the wearing component and is used for communicating with external equipment so as to receive a control instruction sent by the external equipment;

the controller is used for controlling the execution component according to the control instruction.

2. The wearable sow device of claim 1, further comprising a posture detection component electrically connected with the controller, wherein the posture detection component is arranged in the wearable component and used for detecting posture information of the sow, and the controller is further used for sending the posture information detected by the posture detection component to an external device through the communication component.

3. The sow wearable device of claim 2, wherein the posture detection component includes an acceleration sensor and a gyroscope.

4. The sow wearable device of claim 1, wherein the first performing means comprises:

the boosting device is arranged in the wearing part, and at least one part of the electric shock electrode is exposed out of the surface of the wearing part.

5. The sow wearable device of claim 4, wherein the shock electrode comprises conductive silicone.

6. The sow wearable device of claim 4, wherein the shock electrode comprises a non-slip structure.

7. The sow wearable device of claim 6, wherein the anti-slip structure comprises a groove structure on an exposed surface of the shock electrode.

8. The sow wearable device of claim 1, wherein the actuation component further comprises a sound device for enabling a sound operation, the sound device being electrically connected with the controller.

9. The wearable sow device of any one of claims 1-8, wherein the execution component further comprises a second execution device built into the wearable component, the second execution device being configured to implement a shaking operation under the control of the controller to perform a pre-stimulation operation.

10. The sow wearable device of claim 9, wherein the second actuator includes a rumble motor for performing a rumble operation.

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