CN116050440A

CN116050440A - Pigeon racing induction plate with multiple induction frequency bands

Info

Publication number: CN116050440A
Application number: CN202111262756.XA
Authority: CN
Inventors: 黄廷彰
Original assignee: Ruidelao Development Co ltd
Current assignee: Ruidelao Development Co ltd
Priority date: 2021-10-28
Filing date: 2021-10-28
Publication date: 2023-05-02

Abstract

The invention relates to a racing pigeon induction plate with multiple induction frequency bands, which comprises: the sensing equipment is connected with at least two sensing antennas and an interpretation device, wherein the sensing antennas have different sensing frequency bands and are connected with the interpretation device; a processing device; the device comprises a processing unit, a clock unit, a storage unit and a power supply unit; any induction antenna of the induction equipment generates induction and transmits induction content to the processing equipment after confirmation by the judging device; the processing unit transmits the sensing content and the real-time record data of the clock unit to the storage unit.

Description

Pigeon racing induction plate with multiple induction frequency bands

Technical Field

The present invention relates to a sensing device, and more particularly to a pigeon sensing board with multiple sensing frequency bands, which can sense and identify pigeon racing data.

Background

In the racing or training process of the racing pigeon, in order to automatically and truly perform the login action, a sensing board 10 is usually arranged at the end position, a sensing antenna 11 is arranged in the sensing board, the pigeon is provided with a corresponding foot ring 12 on the foot, a recognition element 13 corresponding to the frequency band of the sensing antenna 11 of the sensing board 10 is embedded in the foot ring 12, when the pigeon passes through the sensing board 10, the recognition element 13 in the foot ring 12 is excited by the sensing antenna 11 of the sensing board 10, and after only reading the data of the foot ring, the data is transmitted to another pigeon clock in a wired connection mode for data processing, time judgment and storage.

The conventional induction board 10 is provided with the induction antenna 11 with only a single frequency band, and during induction, the identification element 13 in the foot loop 12 may be affected by the frequency drift of the induction antenna 11, external factors, the number of induction foot loops, the induction time and the induction distance, so that the induction may not be completely performed, and thus the problem that the foot loop 12 cannot be normally identified may be caused, and the fairness of the overall competition or training may be affected. In addition, because of the lack of positioning monitoring and data transmission functions, disadvantages are often derived.

Disclosure of Invention

The main purpose of the invention is to provide a method for carrying out induction improvement and data processing storage on the radio frequency identification element worn by racing pigeons through a plurality of induction frequency bands; and the positioning and communication are combined into a whole.

In order to achieve the above-mentioned object, the present invention provides a racing pigeon sensing board with multiple sensing frequency bands, comprising:

the induction equipment is provided with at least two induction antennas to induce the radio frequency identification elements with different frequency bands and a judging device which can be used for judging the content of the radio frequency identification elements;

the processing equipment is provided with a processing unit, a clock unit, a storage unit, a power supply unit, a communication module and a satellite positioning module; the sensing antenna senses the corresponding radio frequency identification element, reads the content through the judging device, and combines the real-time of the clock unit and the position of the satellite positioning module to carry real-time record data and transmit the record data to the storage unit.

Preferably, the real-time recording data generated by the processing unit can be transmitted to the storage device corresponding to the sensing board through the communication module.

Preferably, the sensing antenna of the sensing device is turned on at intervals for sensing.

Preferably, the induction antenna is sensitive to at least two of Low Frequency (LF), high Frequency (HF), ultra High Frequency (UHF) and microwave frequency (MWF).

Preferably, the processing device further comprises a voice amplifier, and the voice amplifier is connected with the processing unit.

The pigeon racing induction plate with multiple induction frequency bands can be used for induction through the induction antennas with at least two different frequency bands arranged in the induction equipment, so that the induction effect and accuracy can be improved, and the pigeon racing induction plate can correspond to multiple different frequency bands only by arranging a single equipment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, a brief description will be given below of the drawings required for the embodiments or the prior art descriptions, and it is obvious that the drawings in the following description are some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of a prior art sensor plate and pigeon hole.

FIG. 2 is a perspective view of an induction plate and RFID device according to a preferred embodiment of the present invention.

FIG. 3 is a diagram showing the internal structure of an induction plate according to a preferred embodiment of the present invention.

FIG. 4 is an internal structure diagram of an RFID device according to a preferred embodiment of the present invention.

FIG. 5 is a block diagram of an induction plate and RFID device according to a preferred embodiment of the present invention.

FIG. 6 is a diagram showing an internal structure of an induction plate according to a second preferred embodiment of the present invention.

FIG. 7 is an internal structure diagram of a RFID device according to a second preferred embodiment of the present invention.

FIG. 8 is a block diagram of a second embodiment of an inductive board and RFID device.

Wherein, 10 induction plates; 11 an inductive antenna; 12 foot rings; 13 an identification element; 2, an induction plate; a 20 sensing device; a 21 sense antenna; 22 an inductive antenna; 23 interpretation means; 30 a processing device; 31 a processing unit; 32 storage units; 321 memory; 322 an external storage device; 33 power supply units; 34 a communication module; a 35 clock unit; 36 satellite positioning module; 37 a wireless network module; 38 a Bluetooth module; a 40 radio frequency identification element; a 41 radio frequency antenna; a 42 radio frequency antenna; 43 data units; 44 data units; a 50 voice player; 60 camera shooting unit.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 2, 3 and 5, a pigeon racing sensor board with multiple sensor frequency bands according to the present invention is shown, which is applied to pigeon racing or training in this embodiment, and comprises:

a sensing device 20 connected to two

sensing antennas

21, 22, wherein the

sensing antennas

21, 22 respectively sense signals of different frequency bands, in this embodiment, the sensing antenna 21 is a High Frequency (HF), and the other sensing antenna 22 is an Ultra High Frequency (UHF); the two

sensing antennas

21, 22 are disposed up and down and are not in contact with each other to avoid interference, the two

sensing antennas

21, 22 are connected with an interpretation device 23, and the interpretation device 23 can determine the information received from the two

sensing antennas

21, 22.

A processing device 30; it has a processing unit 31, a storage unit 32, a power supply unit 33, a communication module 34, a clock unit 35 and a satellite positioning module 36; the processing unit 31 is electrically connected to the interpretation device 23 of the sensing device 20, and can be electrically connected to the two

sensing antennas

21, 22 through the power unit 33 at intervals (alternately), so that the sensing antennas can sense in different operation, and mutual interference between the sensing antennas is avoided. Meanwhile, the processing unit 31 is electrically connected to the storage device 32 and the power unit 33. The storage unit 32 has a memory 321 for storing data, and an external storage device 322 is disposed outside the processing device 30, and is a hardware with data storage function connected to the memory 321 in a wired manner for storing data; the Clock unit 35 (Real Time Clock) and the satellite positioning module 36 (GPS) can provide Real Time and location information, when any one of the

sensing antennas

21, 22 of the sensing device 20 senses the content of a radio frequency identification device 40, the content is read by the interpretation devices 23 and then transmitted to the processing unit 31, and the processing unit 31 can simultaneously acquire the positioning data of the satellite positioning module 36 and the Real Time data of the Clock unit 35 in combination with the content of the radio frequency identification device 40 sensed by the sensing device, and then transmitted to the memory 321 of the storage unit 32 and the external storage device 322 for storage. The communication module 34 can transmit or receive the data of the storage device 32, or transmit the data of the racing pigeon identity authentication in the storage device 32 or receive the racing related information for updating through the WIFI signal of a wireless network module 37 or the Bluetooth signal of a Bluetooth module 38.

A voice playing device 50 can generate a notification effect, and after the processing unit 31 receives the pigeon identification data provided by the radio frequency identification device 40, relevant data of the pigeon identification data, such as pigeon number, game number and time, etc., can be played by voice.

An image pickup unit 60; the camera unit 60 is started after the identification data of the pigeon is received by the identification device 23, and can take relevant images of the pigeon, such as head portraits, pupils, feathers, etc., for identifying the characteristics of the pigeon, and along with the identification data of the pigeon, the position and time data are transmitted to the storage device 32, and the relevant data are transmitted through the communication module 34 or external racing pigeon data can be received.

In addition, referring to fig. 2, 4 and 5, the rfid device is disposed on the ankle of the pigeon, and has two

different rf antennas

41 and 42, the two

rf antennas

41 and 42 have different sensing frequency bands, in this embodiment, a High Frequency (HF) and an Ultra High Frequency (UHF) respectively correspond to the two

rf antennas

21 and 22, the two

rf antennas

41 and 42 can be respectively excited by the two

rf antennas

21 and 22 to generate induction and transmit the content providing the rfid device, the two

rf antennas

41 and 42 are connected to a data unit 43, the data unit 43 can store the relevant identification, game or other data of the pigeon, the content of the data unit 43 is fixed, and can also be increased according to the training or game related matters, in addition, referring to fig. 7, the two

rf antennas

41 and 42 can also be connected to

different data units

43 and 44, and the

data units

43 and 44 can respectively store the same or different data.

Referring to fig. 2 to 5, in actual use, the sensing board 2 may be disposed at the pigeonry destination for pigeon identification verification and real-time data generation, in this embodiment, the real-time of the clock unit 35 and the location of the satellite positioning module 36 are marked; the

induction antennas

21, 22 of the induction device 20 can be conducted at intervals, the data transmission is not affected during the conduction, but the mutual interference between the two

induction antennas

21, 22 can be avoided, when a pigeon approaches the induction plate 2, the two

radio frequency antennas

41, 42 of the radio frequency identification element 40 on the pigeon foot approach the

induction antennas

21, 22 of the induction device 20, and when the two

induction antennas

21, 22 are conducted at intervals, the two

radio frequency antennas

41, 42 can be respectively excited to act through the induction action of the same frequency band. Because the frequency bands between the two

induction antennas

21, 22 and the two

radio frequency antennas

41, 42 are different, the induction speeds and the induction distances are different, and complementary effects can be formed between the two induction antennas, so that corresponding sensing can be performed under the conditions that the quick passing induction time of the racing pigeon is too short, or the induction distance of the racing pigeon is longer, and the like, and thus, the occurrence of sensing failure can be reduced.

When one or both of the

rf antennas

41 and 42 are driven by one or both of the two

sensing antennas

21 and 22, the two

rf antennas

41 and 42 transmit the identification data in the data unit 43 to the two

sensing antennas

21 and 22 through the two

rf antennas

41 and 42, and the identification data of the pigeon provided by the two

rf antennas

41 and 42 is the same, so that the transmission of the identification data of the pigeon can be completed no matter which rf antenna is driven, when the identification data of the pigeon in the data unit 43 is transmitted to the

sensing antennas

21 and 22, the identification data of the pigeon can be interpreted by the interpretation device 23, and when the interpretation device 23 is operated, the processing unit 31 of the processing device 30 combines the identification data of the pigeon with the position data provided by the satellite positioning module 36 and the real-time data of the clock unit 35 into the pigeon data, and then transmits the pigeon identification data to the memory 321 in the storage unit 32, by which the pigeon identification data can be combined with the position data of the user or the time-related position data can be determined by time. In addition, after the data recording is completed, the voice playing device 50 can also play the relevant pigeon racing data, such as numbers, time and the like, so that the user can directly confirm the pigeon racing data without consulting the data of the sensing plate 2. Meanwhile, in order to increase the integrity of the data, the identification data of pigeons can be added into the image data shot by the shooting unit 60 for storage, so that the data can be more complete.

Fig. 6 to 8 show a second preferred embodiment of a pigeon racing induction plate with multiple induction bands according to the present invention, wherein the main structure is the same as that of the previous embodiment, and the same symbols are used for the same structure, and the description is omitted. Wherein:

the external storage device 322 of the data providing unit 33 is a cloud hard disk; the processing device 30 of the sensing board 2 transmits the data in the storage device 32 to the cloud hard disk of the external storage device 322 for storage in a wireless transmission manner through the communication module 34, so that the sensing board 2 located in different areas (pigeon house) can concentrate and collect the received data to the cloud hard disk of the external storage device 322 for centralized placement for users to inquire and judge the result of the competition.

In order to avoid that the rfid element 40 is destroyed and the data cannot be transmitted accurately, each

rf antenna

41, 42 is connected to a

different data unit

43, 44, and the two

data units

43, 44 store the identification data of the relevant pigeon, so that the identification data of the pigeon transmitted from either

rf antenna

41, 42 is identical, and in addition, the identification data of the pigeon is written into the two

data units

43, 44 by the processing unit 31 of the processing device 30. When in use, the functions of the

data units

43 and 44 can be used separately, namely, one is to output identification data of pigeons, the other is to write new record data, and the different actions of data transmission and reception are respectively carried out through two different frequency bands of induction antennas and radio frequency antennas.

The pigeon racing induction plate with multiple induction frequency bands provided by the invention provides at least two induction antennas with different frequency bands through the induction equipment, can induce the radio frequency identification element with multiple frequency bands and record data and transmit data in real time, and compared with the conventional induction plate with single frequency band, the induction equipment can induce more than two signals, can unify the equipment, can prevent the defect of equipment connection, and achieves the effect of truly recording the data.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims

1. A pigeon racing induction plate with multiple induction frequency bands, comprising:

the induction equipment is provided with at least two induction antennas and an interpretation device, wherein the induction antennas are provided with different induction frequency bands and can be used for inducing the contents of the radio frequency identification elements in the different frequency bands, the induction antennas are respectively connected with the interpretation device, and the interpretation device can be used for reading the contents of the radio frequency identification elements induced by the induction antennas;

the processing equipment is provided with a processing unit, a storage unit, a power supply unit, a clock unit and a satellite positioning module; the power supply unit can be electrically connected with the processing unit and the interpretation device, and after any induction antenna of the induction equipment induces the radio frequency identification element, the processing unit can read the content through the interpretation device and combine time data provided by the clock unit and the position provided by the satellite positioning module to form a real-time record data, and the real-time record data is transmitted into the storage unit for storage.

2. The racing pigeon sensor board with multiple sensor frequency bands according to claim 1, wherein the storage unit is externally connected with an external storage device.

3. The pigeon sensor board with multiple sensor frequency bands according to claim 2, wherein the external storage device is connected to the storage unit in a wired manner.

4. The pigeon competition sensor panel with multiple sensor frequency bands according to claim 2, further comprising a communication device, wherein the external storage device and the storage unit perform wireless data transmission through the communication device.

5. The racing pigeon sensor board with multiple sensor frequency bands according to claim 4, wherein the communication device is a bluetooth module or a wireless network module, so that the storage unit can transmit data to the external storage device in a wireless manner.

6. The pigeon sensor board with multiple sensor frequency bands according to claim 4 or 5, wherein the communication device is also capable of receiving external data and transmitting to the storage unit of the processing apparatus.

7. A pigeon competition sensor panel according to claim 1 or claim 3 wherein the sensor antennas of different sensor frequency bands of the sensor device are conductive at intervals.

8. The pigeon competition sensor panel with multiple sensor frequency bands according to claim 1, further comprising a radio frequency identification element having at least two radio frequency antennas and at least one data unit, wherein each radio frequency antenna can write data into or/and read data from the data unit.

9. The pigeon racing sensor board with multiple sensor frequency bands according to claim 1, further comprising a camera unit, wherein the processing unit drives the camera unit to capture an image data when the processing unit receives the signal.

10. The pigeon racing induction plate with multiple induction frequency bands according to claim 1, wherein the induction antenna is induced with two or more of low frequency, high frequency, ultra-high frequency and microwave frequency.

11. The pigeon competition sensor panel with multiple sensor frequency bands of claim 1, wherein the processing device further comprises a voice amplifier, the voice amplifier being connected to the processing unit.