CN112602619A - Pet electronic collar based on image recognition - Google Patents

Abstract

The application discloses pet electronics neck ring based on image recognition, include pet neck ring and drive away the device, it includes to drive away the device: the one-dimensional code scanning module is used for scanning one-dimensional codes on the step-forbidding adhesive tape and extracting the number information of the one-dimensional codes; the two-dimensional code scanning module is used for scanning the two-dimensional code on the step-forbidding adhesive tape and extracting the number information of the two-dimensional code; the processor is used for acquiring the corresponding control signal according to the number information; the memory is used for storing the control signal corresponding to the number information; the electric shock module is used for generating pulse current according to the control signal; wherein, banning one side of step sticky tape is provided with a plurality of two-dimensional code and one-dimensional code, and banning sticky tape another side is provided with the gluing agent. Compared with the existing positioning module identification method, the accuracy of code scanning identification is higher. The pet equipment can be widely applied to the technical field of pet equipment.

Description

Pet electronic collar based on image recognition

Technical Field

The application relates to the technical field of pet equipment, in particular to an electronic pet collar based on image recognition.

Background

The pet is raised in a city, the space in the residence is narrow, the living area of the pet is mostly overlapped with the living area of people, and the domestic sanitation of the pet is easily messed. At present, a pet is generally positioned by additionally arranging a positioning module on a pet collar, positioning information is transmitted to user equipment, and a user determines whether to start an electric shock module on the pet collar to shock the pet according to the position of the pet, so that the pet is driven away from a designated area. However, because the positioning module has low precision and needs real-time electric shock control, the pet collar cannot be precisely controlled to drive the pet away from the prohibited area.

Disclosure of Invention

In view of the above, it is an object of the present invention to provide an image recognition-based pet electronic collar to precisely control the pet electronic collar to drive a pet away from a prohibited area.

The first technical scheme adopted by the application is as follows:

an electronic pet collar based on image recognition, comprising a pet collar and a dislodging means, the dislodging means comprising:

the one-dimensional code scanning module is used for scanning one-dimensional codes on the step-forbidding adhesive tape and extracting the number information of the one-dimensional codes;

the two-dimensional code scanning module is used for scanning the two-dimensional code on the step-forbidding tape and extracting the serial number information of the two-dimensional code;

the processor is used for acquiring a corresponding control signal according to the serial number information;

the memory is used for storing the control signal corresponding to the number information;

the electric shock module is used for generating pulse current according to the control signal;

the step forbidding adhesive tape comprises a step forbidding adhesive tape body and is characterized in that one side of the step forbidding adhesive tape body is provided with a plurality of two-dimensional codes and one-dimensional codes, and the other side of the step forbidding adhesive tape body is provided with an adhesive.

Further, the driving-away device further comprises a vibration motor, and the vibration motor is used for vibrating according to the control signal.

Further, the driving-away device further comprises a loudspeaker, and the loudspeaker is used for making a sound according to the control signal.

Further, the driving-away device further comprises a WIFI module, and the WIFI module is used for receiving remote control signals; the processor is used for generating a corresponding control signal according to the remote control signal, and the remote control signal is generated by external equipment.

Further, the external device is configured to receive input information, scan the two-dimensional code, extract link information and number information of the two-dimensional code, and generate a remote control signal according to the input information, the link information, and the number information.

Further, the external device is configured to receive input information, scan the one-dimensional code to extract number information of the one-dimensional code, and generate a remote control signal according to the number information and the input information.

Further, the driving-away device further comprises a WIFI module, and the WIFI module is used for receiving a setting signal; the processor is used for generating a corresponding storage signal according to the setting signal, and the setting signal is generated by external equipment.

Further, the external device is configured to receive input information, scan the two-dimensional code, extract link information and number information of the two-dimensional code, and generate a setting signal according to the input information, the link information, and the number information.

Further, the scanning module is detachably connected to the pet electronic collar.

Furthermore, a tying hole is formed in the driving-away device and used for fixing the driving-away device on the pet collar.

According to the pet electronic collar, the scanning module is arranged on the pet electronic collar, the two-dimensional code and the one-dimensional code in the visual field range are scanned in real time, the serial number information is extracted from the scanned two-dimensional code and the scanned one-dimensional code, the serial number information corresponds to the serial number of the forbidden area, and after the serial number information is acquired, the pet electronic collar can control the electric shock module to shock the pet according to the serial number information, so that the pet leaves the forbidden area. Compared with the existing positioning module identification method, the accuracy of code scanning identification is higher.

Drawings

FIG. 1 is a block diagram of an apparatus for driving an electronic pet collar based on image recognition according to an embodiment of the present application;

FIG. 2 is a block diagram of an apparatus for driving an electronic pet collar based on image recognition according to an embodiment of the present invention;

FIG. 3 is an exploded view of a device for driving away an electronic pet collar based on image recognition according to an embodiment of the present application;

FIG. 4 is a block diagram of a step inhibition tape for an electronic pet collar based on image recognition according to an embodiment of the present application;

FIG. 5 is a circuit diagram of a processor and a memory of an apparatus for driving an electronic pet collar based on image recognition according to an embodiment of the present application;

FIG. 6 is a circuit diagram of a shock module of the apparatus for driving an electronic collar for pets based on image recognition according to an embodiment of the present application;

FIG. 7 is a circuit diagram of a one-dimensional code scanning module of an apparatus for driving an electronic collar of a pet based on image recognition according to an embodiment of the present application;

FIG. 8 is a circuit diagram of a two-dimensional code scanning module of a device for driving away an electronic collar of a pet based on image recognition according to an embodiment of the present application;

FIG. 9 is a circuit diagram of a speaker of the apparatus for driving an electronic collar for pets based on image recognition according to an embodiment of the present application;

FIG. 10 is a driving circuit diagram of a vibration motor of the apparatus for driving an electronic pet collar based on image recognition according to an embodiment of the present application;

FIG. 11 is a flowchart illustrating an exemplary configuration of an operating mode of the pet electronic collar based on image recognition according to an embodiment of the present application;

FIG. 12 is a flowchart illustrating a control procedure of a manual mode of the pet electronic collar based on image recognition according to an embodiment of the present application;

FIG. 13 is a flowchart illustrating an exemplary control process for a code scanning mode of the pet electronic collar based on image recognition according to an embodiment of the present disclosure.

Detailed Description

The conception, specific structure and technical effects of the present application will be described clearly and completely with reference to the following embodiments and the accompanying drawings, so that the purpose, scheme and effects of the present application can be fully understood.

The present application will now be described in further detail with reference to the accompanying drawings and specific examples. The step numbers in the following embodiments are provided only for convenience of illustration, the order between the steps is not limited at all, and the execution order of each step in the embodiments can be adapted according to the understanding of those skilled in the art. Further, for several described in the following embodiments, it is denoted as at least one.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly fixed or connected to the other feature or indirectly fixed or connected to the other feature. Furthermore, the descriptions of upper, lower, left, right, etc. used in the present disclosure are only relative to the mutual positional relationship of the constituent parts of the present disclosure in the drawings. As used in this disclosure, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any combination of one or more of the associated listed items.

A pet refers to an organism that people have housed for mental purposes, not for economic purposes. In the process of raising a pet, the range of motion of the pet generally needs to be limited to prevent the pet from touching the home appliances or damaging furniture, but at present, the pet is generally limited to a certain range of motion by a fence or a cage to prevent the pet from touching the home appliances or damaging furniture. But pens and cages limit the range of activity of pets and also result in a somewhat smaller range of activity in the home. In some methods, a pet collar is positioned by additionally arranging a positioning module on the pet collar, positioning information is transmitted to user equipment, and a user determines whether to start an electric shock module on the pet collar to shock the pet according to the position of the pet, so that the pet is driven away from a designated area. However, due to the low precision of the positioning module and the need for real-time shock control by the consumer, the pet collar cannot be precisely controlled to drive the pet away from the prohibited area.

As shown in FIG. 1, the present application provides an electronic pet collar based on image recognition, which includes a pet collar generally worn on the neck of a pet for protecting, controlling and drawing the pet, and a driving-away device. The dislodging device may be mounted on the pet collar, and referring to fig. 2 and 3, the dislodging device may be provided with a fastening hole 111, and the pet collar may pass through the fastening hole 111 on the dislodging device to fix the dislodging device on the pet collar. The driving and separating device is provided with a one-dimensional code scanning module 182, the one-dimensional code scanning module 182 can adopt a long-distance red light CCD linear image sensor scanning module, and the driving and separating device is also provided with a two-dimensional code scanning module 181; referring to fig. 4, a plurality of two-dimensional codes and a long one-dimensional code are arranged on the step-forbidding tape 187, the two-dimensional codes include the number information and the link information of the step-forbidding tape, and the one-dimensional code includes the number information of the step-forbidding tape. After the one-dimensional code scanning module 182 or the two-dimensional code scanning module 181 scans the number information of the forbidden tape, the number information is transmitted to the processor, the processor queries a corresponding control signal in the memory according to the number information, and transmits the control signal to the electric shock module 102, the vibration motor 106 and the loudspeaker 103, the electric shock module 102 outputs a pulse current according to the control signal, the vibration motor 106 vibrates according to the control signal, and the loudspeaker 103 sounds according to the control signal. Referring to fig. 5, the processor and the memory are connected through a circuit, and the processor may receive a setting signal transmitted by an external device, generate a storage signal according to the setting signal, and store corresponding information in the memory. Referring to fig. 6, the electric shock module 102 has two electrodes respectively connected to two ends of the electric shock contact 171 for emitting a pulse current when a pet needs to be punished, and the pulse high voltage generated by the electric shock module 102 has a small current and does not harm the pet. Referring to fig. 7 and 8, the one-dimensional code scanning module 182 and the two-dimensional code scanning module 181 are respectively used for scanning the one-dimensional code and the two-dimensional code on the step-forbidding tape 187, extracting the number information therein and transmitting the number information to the processor. Referring to fig. 9, the speaker 103 is used for receiving the signal sent by the processor and making a sound, so that the pet can be reminded before entering the forbidden area. Referring to fig. 10, the vibration motor 106 is configured to vibrate in response to a signal sent by the processor to alert a pet that it has approached the exclusion area.

Before the pet electronic collar is used, the step inhibition tape 187 needs to be set, and different shock intensity, shock time, vibration intensity, vibration time, sound volume and playing content can be set for different step inhibition tapes 187. The two-dimensional code can be scanned through a mobile phone or other external equipment, the link information and the serial number information of the two-dimensional code are obtained, the link information of the two-dimensional code is linked to the corresponding operation platform, the setting information of the corresponding serial number is displayed, and a user can change the setting information corresponding to the two-dimensional code according to requirements. Also can scan one-dimensional code or two-dimensional code through operation platform or APP, acquire the number information on one-dimensional code or the two-dimensional code, operation platform and APP can show the corresponding setting information according to number information, and the user can change the setting information that number information corresponds according to self demand.

The scheme adopts a code scanning module 108 and a forbidden tape 187 to identify and judge whether the pet enters the forbidden area, and punishment is correspondingly carried out on the pet entering the forbidden area. The exterior of the dislodging means is composed of a housing 101 and a back cover 107. The top of the shell 101 is provided with a single ear 112 used for being connected with the code scanning module 108, two sides of the shell 101 are provided with tying holes 111 used for tying the pet collar, two rows of serial port pins 113 are fixed on the front part of the shell 101, one end of each serial port pin 113 is connected with a processor on the internal control circuit board 105, and the other end of each serial port pin 113 is connected with a serial port plug 186 of the external code scanning module 108. The sound hole 114 in the bottom of the casing 101 is used for sound reproduction. The rear cover 107 is fixed with the housing 101 by screws 172, two shock contacts 171 are installed on one side of the outer part of the rear cover 107 for contacting the fur of the pet and giving an electric shock, and a circular hole 173 for placing the vibration motor 106 is provided in the middle of the rear cover 107. There is electric shock module 102 inside the device of driving away, the positive negative pole of the electric shock module 102 electric shock line is connected with corresponding electric shock contact 171 respectively, thereby it drives away the pet from forbidden region to produce pulse high voltage at electric shock contact 171 department, loudspeaker 103 is fixed in sound hole 114 department of shell 101 bottom, be used for producing sound warning pet and keep away from forbidden region, vibrating motor 106 places in round hole 173, be used for producing vibration warning pet, inside control circuit board 105 is used for analyzing the data of sweeping code module 108 and sending, carry out analysis to data, and control corresponding part punishment, also be used for being connected with cell-phone APP, through cell-phone APP selection mode, select punishment mode and punishment's region, and store the information that cell-phone APP configured in the memory, the device of driving away can work according to the configuration information in the SD card of memory. A battery compartment 104, which is fixed inside the housing 101, is used to supply power to the entire device. The Code scanning module 108 contains a one-dimensional Code scanning module 182 that can identify 40mil density one-dimensional Code model Code39 at the farthest 70 cm, can scan up to 100 times per second, and can also identify barcodes within range when the pet is moving rapidly. The one-dimensional code scanning module 182 has a high response speed, can accurately scan in the dark, but has a high requirement on a scanning angle, so that the two-dimensional code scanning module 181 is added in the code scanning module 108, can identify the two-dimensional code at the maximum of 80 centimeters, can perform scanning at most 300 times per second, has a low requirement on the scanning angle, but requires that a pet cannot move too fast, or cannot identify the two-dimensional code. The one-dimensional code scanning module 182 and the two-dimensional code scanning module 181 are connected with two rows of serial pins 113 through two serial plugs 186, and finally access to the processor on the control circuit board 105, and send the identified information to the processor. The code scanning module 108 is threaded into the double lugs 185 of the code scanning module 108 through the bolts 184 and is screwed with the single lug 112 of the casing 101 through the nuts 183, so that the code scanning module 108 is fixed on the casing 101, and the code scanning angle can be adjusted. Forbidden sticky tape 187 of need pasting near forbidden region when Code module 108 is swept in the use, forbidden sticky tape 187 style is the same two-dimensional Code of upper portion one deck, the lower part one deck is the one-dimensional bar Code of Code39 type density for the unlimited extension of 40mil two, contain the information of one-dimensional Code in the upper portion two-dimensional Code, can obtain the information of one-dimensional Code when cell-phone APP scans the two-dimensional Code, and sweep the information phase-match that contains the one-dimensional Code in the information of the one-dimensional Code that Code module 108 read and the two-dimensional Code, the inside has also included the information of one-dimensional Code and two-dimensional Code when cell-phone APP connects the WIFI module and sends configuration information for the treater.

Referring to fig. 11, before using, corresponding working mode needs to be set, and the mobile phone APP is connected through the WIFI module of the collar, and the working mode of the pet electronic collar includes a manual mode and a code scanning mode. Referring to fig. 12, when the manual mode is set, the turning on of the electric shock, the vibration of the vibration motor and the playing of the audio are all manually controlled in the APP, the APP sends the configuration information to the processor through the WIFI module, the processor stores the configuration information in the memory, when the electric shock button on the APP is clicked, the APP sends the electric shock signal to the processor through the WIFI module, the processor controls the electric shock module 102 to turn on, and the electric shock module 102 releases the pulse high voltage electricity through the electric shock contact 171. When the vibration button on the APP is clicked, the processor controls the vibration motor 106 to start operating. The audio content needs to be sent to the processor through WIFI before clicking the audio playing key on the APP, the processor stores the audio content in the memory, and when the audio playing key on the APP is clicked, the processor controls the audio driving circuit to drive the loudspeaker 103 to play the audio content in the memory. Referring to fig. 13, when the code scanning mode is required, the step inhibition tape 187 is adhered to the ground, the step inhibition tape 187 is transversely adhered to the ground of the entrance of the forbidden area, or the step inhibition tape 187 is perpendicularly adhered to the door frame of the entrance of the forbidden area, and when there are a plurality of forbidden areas, the step inhibition tapes 187 with different bar code information can be adhered to the entrance of different forbidden areas. The two-dimensional codes on the step-forbidding adhesive tape 187 are scanned through the mobile phone APP, the two-dimensional codes are named after information of the two-dimensional codes is read, the vibration duration of electric shock duration is set, the audio content and the audio playing duration are selected, the step-forbidding adhesive tapes 187 with different two-dimensional code information can be set to be different punishment modes, finally, the configuration information is sent to the processor, the processor stores the configuration information in the memory, and when the code scanning mode is started, the processor works according to the configuration in the memory. When the step-forbidding tape 187 is transversely pasted on the ground of the access opening of the forbidden area, the bottom lens of the code scanning module 108 needs to be aligned with the ground, at this time, the collar can be worn on the esophagus or abdomen of the neck of the pet, when the step-forbidding tape 187 is vertically pasted on the frame of the access opening of the forbidden area, the bottom lens of the code scanning module 108 needs to be kept horizontal with the ground, and at this time, the collar can be worn on the left and right sides of the neck or the left and right sides of the waist of the pet. After the collar enters the code scanning working mode, when the pet passes through the forbidden step tape 187, the code scanning module 108 scans the information of the two-dimensional code or the one-dimensional code and sends the information to the processor, the processor matches the information with the configuration information in the memory, and the electric shock module 102, the loudspeaker 103 and the vibration motor 106 are controlled according to a pre-configured punishment mode, so that the pet fast entering the forbidden region is punished.

In the use process of the pet electronic collar, the user can change the punishment configuration of the entered step inhibition tape 187 at any time, for example, after the user scans the two-dimensional code on the step inhibition tape 187 through the mobile phone APP, the information of the step inhibition tape 187 is entered into the mobile phone APP. When the user needs to modify the step inhibition tape 187 entered into the mobile phone APP, the user can directly select the already entered step inhibition tape 187 in the mobile phone APP and configure the punishment mode. If the step control tape 187 is pasted at the door, after the step control tape 187 is recorded into the mobile phone APP, the step control tape 187 can be selected to be named as a 'large door area', when a pet does not go out of the home, the step control tape named as the 'large door area' can be directly selected through the mobile phone APP, scanning is not needed again, and then a corresponding punishment mode is set; when the pet is needed to go out and walk, the mobile phone APP can directly select the entrance-forbidden tape named as the 'entrance area', and then all punishments are closed.

The scheme has the following advantages: the code scanning module is detachable and replaceable, the code scanning module can be detached and replaced when the code scanning module fails, and the code scanning module can be detached when the working mode is set to be the manual mode, so that the weight of the pet electronic collar is reduced; forbidden sticky tape pattern is the same two-dimensional Code of upper portion one deck, and the lower part one deck is the one-dimensional bar Code that Code39 type density is the unlimited extension of 40mil two, contains the information of one-dimensional Code in the two-dimensional Code of upper portion, can obtain the information of one-dimensional Code when cell-phone APP scans the two-dimensional Code, and sweep the information phase-match that contains in the information of the one-dimensional Code that the Code module read and the two-dimensional Code, the information that has also contained one-dimensional Code and two-dimensional Code inside when cell-phone APP connects the WIFI module and sends configuration information for the treater. The step-forbidden adhesive tape is transversely pasted on the ground of the forbidden area opening or is vertically pasted on the door frame of the forbidden area opening, and the effect of stopping the forbidden area of the pet is achieved by matching with the code scanning module. Different forbidden zones can be pasted with different forbidden tapes, and the forbidden tapes at the mouths of the different forbidden zones are punished and configured through the mobile phone APP, so that the different forbidden zones are classified, and the effect that the punishment of the forbidden zone with higher grade is more serious, and the punishment of the forbidden zone with lower grade is lighter can be achieved; the step-forbidden adhesive tape does not need a power supply, so that the cost is low, and the setting and the use are more convenient.

The above description is only a preferred embodiment of the present application, and the present application is not limited to the above embodiment, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present application should be included in the protection scope of the present application as long as the technical effects of the present application are achieved by the same means. Various modifications and variations of the technical solution and/or embodiments thereof are possible within the protective scope of the present application.

Claims (10)

1. An electronic pet collar based on image recognition, comprising a pet collar and a driving-away device, wherein the driving-away device comprises:

the one-dimensional code scanning module is used for scanning one-dimensional codes on the step-forbidding adhesive tape and extracting the number information of the one-dimensional codes;

the two-dimensional code scanning module is used for scanning the two-dimensional code on the step-forbidding tape and extracting the serial number information of the two-dimensional code;

the processor is used for acquiring a corresponding control signal according to the serial number information;

the memory is used for storing the control signal corresponding to the number information;

the electric shock module is used for generating pulse current according to the control signal;

the step forbidding adhesive tape comprises a step forbidding adhesive tape body and is characterized in that one side of the step forbidding adhesive tape body is provided with a plurality of two-dimensional codes and one-dimensional codes, and the other side of the step forbidding adhesive tape body is provided with an adhesive.

2. The image recognition-based pet electronic collar of claim 1, wherein the dislodging means further comprises a vibration motor for vibrating in accordance with the control signal.

3. The image recognition-based pet electronic collar of claim 1, wherein the dislodging means further comprises a speaker for emitting a sound in accordance with the control signal.

4. The image recognition-based pet electronic collar of claim 1, wherein the dislodging means further comprises a WIFI module for receiving a remote control signal; the processor is used for generating a corresponding control signal according to the remote control signal, and the remote control signal is generated by external equipment.

5. The image recognition-based pet electronic collar according to claim 4, wherein the external device is configured to receive input information, scan the two-dimensional code to extract link information and number information of the two-dimensional code, and generate a remote control signal according to the input information, the link information, and the number information.

6. The pet electronic collar based on image recognition according to claim 4, wherein the external device is configured to receive input information, scan the one-dimensional code to extract number information of the one-dimensional code, and generate a remote control signal according to the number information and the input information.

7. The image recognition-based pet electronic collar of claim 1, wherein the dislodging means further comprises a WIFI module for receiving a setting signal; the processor is used for generating a corresponding storage signal according to the setting signal, and the setting signal is generated by external equipment.

8. The image recognition-based pet electronic collar according to claim 6, wherein the external device is configured to receive input information, scan the two-dimensional code to extract link information and number information of the two-dimensional code, and generate a setting signal according to the input information, the link information, and the number information.

9. The image recognition-based pet electronic collar of claim 1, wherein the scanning module is removably attachable to the pet electronic collar.

10. The image recognition-based pet electronics collar of claim 1, wherein the dislodging means is provided with a tie hole for securing the dislodging means to the pet collar.

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