CN112690784A - Real-time monitoring system for animal blood oxygen saturation - Google Patents

Abstract

The invention relates to a real-time monitoring system for the blood oxygen saturation of animals. The animal blood oxygen saturation real-time monitoring system comprises a detection piece, a data processing module, a data storage module and a power supply. The detection piece is used for being fixed at a specific detection part of an animal body so as to detect the blood oxygen saturation information of the animal in real time. The data processing module is connected with the detection piece. And the data storage module is connected with the data processing module and is used for storing the processed blood oxygen saturation information. The power supply is used for respectively providing electric energy for the detection piece, the data processing module and the storage module. The use of the real-time monitoring system for the blood oxygen saturation of the animals can realize the real-time monitoring of the blood oxygen saturation of the raised animals, so that the workers can find the abnormal animals in time, and the death rate of the animals in the animal breeding process can be reduced.

Description

Real-time monitoring system for animal blood oxygen saturation

Technical Field

The invention relates to the technical field of animal breeding, in particular to a real-time monitoring system for the blood oxygen saturation of animals.

Background

With the development of economy and the improvement of the life quality of people, people put higher requirements on the taste, quality, nutritional ingredients and the like of meat products and dairy products. And because of the influence of climatic environment, regional environment and diet mode, the animal quality raised in some places is relatively better. With the continuous development of breeding technology, people can also gradually breed a plurality of better animal varieties, such as plateau cows and the like.

And for the breeding of some newly cultivated varieties or new varieties introduced from other places, a physical adaptation transition process exists, and the animals are easy to get ill and even die, so that the cost is increased for animal breeding.

Disclosure of Invention

Therefore, it is necessary to provide a real-time monitoring system for the blood oxygen saturation of animals, which can reduce the death rate of animals, aiming at the problem that the death rate of animals is high when new species of animals are cultured in the traditional culture mode.

A real-time monitoring system for the blood oxygen saturation of animals comprises a detection piece, a data processing module, a data storage module and a power supply;

the detection piece is used for being fixed at a specific detection part of an animal body so as to detect the blood oxygen saturation information of the animal in real time;

the data processing module is connected with the detection piece and is used for carrying out data processing on the blood oxygen saturation degree information;

the data storage module is connected with the data processing module and is used for storing the processed blood oxygen saturation information;

the power supply is used for respectively providing electric energy for the detection piece, the data processing module and the data storage module.

In one embodiment, the detecting element comprises a first blood oxygen probe and a second blood oxygen probe;

the real-time monitoring system for the blood oxygen saturation of the animal further comprises an ear tag; the ear tag comprises a first fixing piece and a second fixing piece; the first fixing piece is used for fixing the first blood oxygen probe at one side of an animal ear; the second fixing piece is used for fixing the second blood oxygen probe on the other side of the ear of the animal, and the signal sending end of the first blood oxygen probe is arranged opposite to the signal receiving end of the second blood oxygen probe.

In one embodiment, the device further comprises a protective shell; the data processing module and the data storage module are accommodated and sealed in the protective shell; the protective shell is used for being fixed on the body of an animal.

In one embodiment, the power source is a rechargeable battery; the power supply is accommodated and sealed in the protective shell;

a data interface is arranged on the side wall of the protective shell; the data interface is electrically connected with the data processing module and the rechargeable battery respectively;

the real-time monitoring system for the blood oxygen saturation of the animal further comprises a data transmission line electrically connected with the detection piece; the data interface is electrically connected with the data transmission line and is used for starting the detection piece and transmitting information or is electrically connected with an external power supply.

In one embodiment, the safety device further comprises a bandage for fixing the protective shell on the body of the animal.

In one embodiment, the power source is a solar charging power source.

In one embodiment, the device further comprises an alarm device capable of being fixed on the body of an animal, a control module electrically connected with the alarm device and a switch control terminal in remote communication connection with the control module; the switch control terminal is used for receiving interactive operation and generating a preset control instruction; the control module is electrically connected with the data processing module and is used for controlling the alarm device to send out warning information according to the preset control instruction.

In one embodiment, the device further comprises an alarm device capable of being fixed on the body of an animal and a control module electrically connected with the alarm device; the control module is electrically connected with the data processing module and is used for controlling the alarm device to send out warning information according to the oxyhemoglobin saturation information.

In one embodiment, the system further comprises an upper computer and a communication module; the data processing module is in communication connection with the upper computer through the communication module; the communication module is used for uploading the blood oxygen saturation information to the upper computer; and the upper computer is used for processing, analyzing, storing and displaying the blood oxygen saturation information.

In one embodiment, the device further comprises an image acquisition device; the image acquisition device is used for acquiring behavior information of the animal in real time; the communication module is in communication connection with the image acquisition device and is used for uploading the behavior information to the upper computer; and the upper computer is used for processing, storing and displaying the behavior information.

According to the animal blood oxygen saturation real-time monitoring system, the power supply can provide electric energy for the detection piece, the data processing module and the data storage module so as to ensure that the detection piece, the data processing module and the data storage module can normally operate. When the real-time monitoring system for the blood oxygen saturation of the animal is used, the detection piece is fixed at a specific detection part of an animal body, the blood oxygen saturation information of the animal is detected in real time, and the blood oxygen saturation information is transmitted to the data processing module in real time; the data processing module carries out data processing on the blood oxygen saturation information, and then the blood oxygen saturation information is transmitted to the data storage module to be stored, so that workers can conveniently check the vital sign data of the animals at any time. Therefore, the real-time monitoring system for the blood oxygen saturation of the animals can realize the real-time detection of the blood oxygen saturation of the raised animals, so that the working personnel can timely perform intervention measures such as medication, physical therapy, food therapy and the like on the animals with abnormal bodies, and the death rate of the animals in the breeding process is reduced.

Drawings

FIG. 1 is a block diagram of a system for monitoring blood oxygen saturation of an animal in real time according to a preferred embodiment of the present invention.

Description of reference numerals: 100. an animal blood oxygen saturation real-time monitoring system; 110. a detection member; 120. a data processing module; 130. a data storage module; 140. a power source; 150. a protective shell; 160. an alarm device; 170. a control module; 180. an upper computer; 190. a communication module; 201. an image acquisition device.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

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 to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

When an element is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present, unless otherwise specified. It will also be understood that when an element is referred to as being "between" two elements, it can be the only one between the two elements, or one or more intervening elements may also be present.

Where the terms "comprising," "having," and "including" are used herein, another element may be added unless an explicit limitation is used, such as "only," "consisting of … …," etc. Unless mentioned to the contrary, terms in the singular may include the plural and are not to be construed as being one in number.

As mentioned in the background, animals are typically raised in hundreds of animals in animal farms, and even some large farms may have tens of thousands of animals. Due to the fact that the number of animals is large, when health problems occur to the animals, workers often cannot find the health problems timely and quickly, particularly sudden health problems occur to the workers, and the workers are not ready to rescue or die. Particularly, in the breeding process, the living environment of new species introduced by some farms, such as plateau cows, is changed, so that the death of animals caused by health problems is easy to occur in the breeding process. Based on the above, the applicant provides a real-time monitoring system for the blood oxygen saturation of animals, which can monitor the vital signs of the animals in real time, so that the following workers can conveniently and quickly take intervention measures for the animals with health problems in time, and the survival rate of the animals in the process of breeding is ensured.

Note that the blood oxygen saturation is the percentage of the volume of oxygenated hemoglobin bound by oxygen in blood to the total bindable hemoglobin volume, i.e., the concentration of blood oxygen in blood. If the blood oxygen saturation degree is abnormal, the normal metabolism of cells can be directly influenced, and even the life of the animal is seriously threatened, so the blood oxygen saturation degree can directly reflect whether the body of the animal is healthy or not.

Referring to fig. 1, a system 100 for monitoring blood oxygen saturation of animals in real time according to a preferred embodiment of the present invention is used for detecting blood oxygen saturation of animals (e.g., cattle, sheep, horses, etc.) in real time during animal cultivation. The system 100 for monitoring the blood oxygen saturation level of an animal in real time comprises a detection piece 110, a data processing module 120, a data storage module 130 and a power supply 140.

The detecting member 110 is used to be fixed at a specific detecting portion of the animal body to detect the blood oxygen saturation information of the animal in real time. Thus, the detection member 110 is fixed at a position on the animal body where blood vessels are dense to effectively detect the blood oxygen saturation of the animal.

In some embodiments, the detecting element 110 includes a first blood oxygen probe (not shown) and a second blood oxygen probe (not shown). The first blood oxygen probe is used for sending a detection signal, and the second blood oxygen probe is used for receiving the detection signal sent by the first blood oxygen probe, so that the detection signal is sent by the first blood oxygen probe, and in the process of receiving the detection signal by the second blood oxygen probe, the acquisition of blood oxygen content information can be realized.

The system 100 for monitoring blood oxygen saturation of animals in real time further comprises an ear tag (not shown). The ear tag includes a first fixing member (not shown) and a second fixing member (not shown). The first fixing piece is used for fixing the first blood oxygen probe at one side of the ear of the animal. The second fixing piece is used for fixing the second blood oxygen probe on the other side of the ear of the animal, and the signal sending end of the first blood oxygen probe is arranged opposite to the signal receiving end of the second blood oxygen probe. Concretely, fix first blood oxygen probe and second blood oxygen probe respectively on first mounting and second mounting, later the cooperation of first mounting and second mounting of rethread to fix first blood oxygen probe and second blood oxygen probe respectively in the both sides of animal ear, thereby realize blood oxygen detector fixed on the animal ear, in order to realize the real-time detection to animal blood oxygen content information.

The data processing module 120 is connected to the detecting member 110 and is configured to perform data processing on the blood oxygen saturation information. The data processing module 120 and the detecting element 110 may be connected by wires, data lines, etc. or wirelessly through bluetooth, infrared, and data communication technologies (e.g., 4G, 5G communication, etc.). The data storage module 130 is connected to the data processing module 120 and is used for storing the processed blood oxygen saturation information. The power source 140 is used for respectively providing electric energy for the detecting element 110, the data processing module 120 and the data storage module 130, so as to ensure the normal operation of the data processing module 120, the data storage module 130 and the detecting element 110 in the real-time detection process of the animal vital signs. Specifically, the power source 140 may be electrically connected to the detecting element 110, the data processing module 120 and the data storage module 130, or may be electrically connected to the detecting element 110 and the data storage module 130 through the data processing module 120. The power source 140 may be a storage battery, a disposable battery, a rechargeable battery, a solar rechargeable battery, or other rechargeable batteries with new energy, or may be a power source structure electrically connected to an external power source.

Specifically, in one embodiment, the data processing module 120, the data storage module 130 and the power supply 140 are integrated with the detecting element 110 to form an integral structure. Specifically, in another embodiment, the data processing module 120, the data storage module 130 and the power supply 140 are integrated, and the detecting element 120 and the data processing module 120 are configured as a split structure and can be connected in a wired manner or a wireless manner.

When the system 100 for monitoring the blood oxygen saturation level of an animal is used, in the cultivation period of the animal, the detection piece 110 is fixed at a specific detection part of the animal body, and the power supply 140 is used for providing electric energy for the detection piece 110, so that the detection piece 110 can detect the blood oxygen saturation level information of the animal in real time in the cultivation period of the animal; the power source 140 provides electric energy for the data processing module 120 and the data storage module 130, so that the data processing module 120 performs data processing on the blood oxygen saturation information acquired by the detection part 110 in real time, and the data storage module 130 stores the processed blood oxygen saturation information, so that workers can conveniently check the blood oxygen saturation information of animals at any time, and can timely and quickly find the animals with abnormal bodies, and take intervention measures such as drug treatment, physical therapy, treatment and the like on the animals with abnormal bodies, so as to reduce the death rate in the animal breeding process.

In some embodiments, the animal blood oxygen saturation real-time monitoring system 100 further comprises a protective housing 150. The data processing module 120 and the data storage module 130 are housed and sealed in the protective case 150. The protective shell 150 is intended to be secured to the body of an animal. The power source 140 may be housed and sealed in the protective casing 150, or may be located outside the protective casing 150. The protective shell 150 is used for protecting the data processing module 120 and the data storage module 130, so as to reduce the probability that external water, dust, impurities and the like enter the data processing module 120 and the data storage module 130, and prolong the service life of the data processing module 120 and the data storage module 130.

Specifically, the system 100 for monitoring blood oxygen saturation level of an animal in real time further comprises a strap (not shown). The strap is used to secure the protective shell 150 to the animal's body. Therefore, in the breeding period of the animal, the protective shell 150 is fixed on the body of the animal through the binding band, so that the data processing module 120 and the data storage module 130 can be fixed on the body of the animal, the connection among the detection piece 110, the data processing module 120 and the data storage module 130 is facilitated, and the convenience of detecting the vital signs of the animal in real time is further improved.

It should be noted that, if the power source 140 is located outside the protective shell 150, the power source 140 may be fixed on the strap, or may be fixed on the animal body in other manners.

Specifically, in one embodiment, power source 140 is a rechargeable battery. The power source 140 is housed and sealed within the protective housing 150. A data interface (not shown) is disposed on a side wall of the protective housing 150. The data interface is electrically connected to the data processing module 120 and the rechargeable battery, respectively.

The system 100 for monitoring blood oxygen saturation level of animal in real time further comprises a data transmission line (not shown) electrically connected to the detecting element 110. The data interface is electrically connected to the data transmission line and is used to start the detecting element 110 and transmit information. Or for electrical connection to an external power source.

When the vital signs of the animal need to be monitored in real time, the protective shell 150 is firstly communicated with the components in the protective shell 150 and then fixed on the body of the animal; then fixing the detecting piece 110 connected with the data transmission line at a specific detection part of the animal; then, one end of the data transmission line far away from the detecting element 110 is electrically connected with the data interface to start the detecting element 110, so that the detecting element 110 can perform real-time detection of the vital signs of the animal.

In the working process of the animal blood oxygen saturation real-time monitoring system 100, the blood oxygen saturation information collected by the detecting element 110 is transmitted to the data processing module 120 through the data transmission line and the data interface, so as to realize the transmission of the information; the power source 140 provides electric energy to the detecting element 110 through the data interface and the data transmission line to ensure the normal operation of the detecting element 110; when the storage battery is dead, the data interface is electrically connected with an external power supply to charge the storage battery.

From this, data interface has the function of starting detection piece 110, information transfer and charging to the quantity of trompil on the reducible protective housing 150, and then has reduced the probability that external water, dust, impurity etc. got into protective housing 150, with the life of guarantee electronic components in the protective housing 150, and then the life of extension animal blood oxygen saturation real-time supervision system 100.

In another embodiment, the storage battery is a solar charging battery. Therefore, the storage battery can realize self-charging through external solar energy, so that the animal blood oxygen saturation real-time monitoring system 100 can continuously and normally operate, and the animal blood oxygen saturation real-time monitoring system 100 is more energy-saving and environment-friendly.

In an embodiment of the present application, the system 100 for monitoring blood oxygen saturation of an animal further includes an alarm device 160 capable of being fixed on the body of the animal, a control module 170 electrically connected to the alarm device 160, and a switch control terminal (not shown) connected to the control module 170 for remote communication. The switch control terminal is used for receiving the interactive operation and generating a preset control instruction. The control module 170 is electrically connected to the data processing module 120 and configured to control the alarm device 160 to send out warning information according to a preset control command. The switch control terminal may be an independent switch controller such as a remote controller, or may be a control switch provided in other electronic devices such as a computer.

In the breeding period of the animal, transmitting the oxyhemoglobin saturation information collected by the detection part 110 to the data processing module 120 for data processing, when the staff finds that the processed oxyhemoglobin saturation information shows that the vital sign data of the animal is abnormal, performing interactive operations such as pressing, touching or rotating on the switch control terminal immediately, generating a preset control instruction by the switch control terminal, and transmitting the preset control instruction to the control module 170; the control module 170 controls the alarm device 160 to send out warning information according to a preset control command, so as to remind the worker that the body of the animal in the farm is abnormal, further confirmation is needed, and intervention measures are taken in time. Therefore, the alarm device 160, the switch control terminal and the control module 170 are arranged, so that the animal blood oxygen saturation real-time monitoring system 100 can realize manual alarm, and can quickly find out the abnormal animal in the body, so that the worker can timely and quickly find out the abnormal animal in the body, precious time is provided for subsequently taking intervention measures for the animal, and the animal death rate in the animal breeding process is further reduced.

In another embodiment of the present application, the system 100 for monitoring blood oxygen saturation of an animal in real time further comprises an alarm device 160 capable of being fixed on the body of the animal and a control module 170 electrically connected to the alarm device 160. The control module 170 is electrically connected to the data processing module 120 and is configured to control the alarm device 160 to send out warning information according to the blood oxygen saturation information.

In the breeding period of the animal, the oxyhemoglobin saturation information collected by the detection part 110 is transmitted to the data processing module 120 for data processing, the control module 170 analyzes and judges the processed oxyhemoglobin saturation information, if the oxyhemoglobin saturation information shows that the vital sign data of the animal is abnormal, the control module 170 immediately controls the alarm device 160 to send out warning information to remind a worker that the body of the animal is abnormal and needs further confirmation, and intervention measures are taken in time. Therefore, the control module 170 and the alarm device 160 are arranged, so that the animal blood oxygen saturation real-time monitoring system 100 can realize an automatic alarm function, so that a worker can timely and quickly find and find an animal with abnormal physical condition, precious time is provided for subsequently taking intervention measures for the animal, and the animal death rate in the animal breeding process is further reduced.

In the above two embodiments, the warning information may be soft music, suddenly flashing light, suddenly shining light, or the like, and may also exist in a form of playing soft sound and simultaneously shining light, as long as the warning information does not frighten animals and plays a role in prompting.

The vital sign data abnormality refers to blood oxygen content exceeding a predetermined content value, body temperature higher than a normal animal body temperature range or lower than a normal animal body temperature range, too fast or slow swallowing, too fast or slow pulse, blood pressure value exceeding a predetermined maximum value or lower than a predetermined minimum value, shortness of breath or slow breath, excessive or insufficient steps in a counting period, and the like.

Specifically, the control module 170 is housed and sealed within the protective housing 150. The alarm device 160 may be secured to the enclosure 150, may be secured to a strap, or may be secured to the animal's body in other ways.

Specifically, the stored electric energy 140 is electrically connected to the control module 170 and the alarm device 160, and is used for providing electric energy to the control module 170 and the alarm device 160, respectively, so as to ensure normal operation of the control module 170 and the alarm device 160.

In some embodiments, the real-time animal blood oxygen saturation monitoring system 100 further includes an upper computer 180 and a communication module 190. The data processing module 120 is in communication connection with the upper computer 180 through a communication module 190. The communication module 190 is used for uploading the blood oxygen saturation information to the upper computer 180. The upper computer 180 is used for processing, analyzing, storing and displaying the blood oxygen saturation degree information.

The upper computer 180 may be a computer, a cloud platform, a display control terminal, or the like. The upper computer 180 and the communication module 190 may be connected through wired communication or wireless communication. Specifically, in this embodiment, the upper computer 180 is connected to the communication module 190 in a wireless communication manner.

When the real-time monitoring system 100 for the blood oxygen saturation of animals is used, the communication module 190 can upload the blood oxygen saturation information processed by the data processing module 120 to the upper computer 180 in real time, and the upper computer 180 analyzes, processes, stores and displays the blood oxygen saturation information, so that the working personnel can check the current and previous vital sign data at any time, and the working personnel can be helped to judge the health condition of each animal according to the vital sign data of the animals in time. Therefore, the upper computer 180 is arranged, so that the use of the animal blood oxygen saturation real-time monitoring system 100 is more convenient.

The upper computer 180 is used for long-term storage of blood oxygen saturation information; and the case where the data storage module 130 stores the blood oxygen saturation information includes the following two cases: firstly, the data storage module 130 stores the blood oxygen saturation information for a long time, and workers can call data from the storage module to check the blood oxygen saturation information of the animal by using other electronic equipment at any time; secondly, the data storage module 130 stores the oxyhemoglobin saturation information for a short time, that is, the data storage module 130 only stores the latest detected oxyhemoglobin saturation information and uses the latest oxyhemoglobin saturation information to cover the original oxyhemoglobin saturation information, when the communication module 190 fails to upload the oxyhemoglobin saturation information to the upper computer 180 in real time, the upper computer 180 only needs to read the oxyhemoglobin saturation information stored in the storage module through the processing module after communication is restored, and the probability that the detected oxyhemoglobin saturation information is lost after the equipment fails can be avoided.

Further, in some embodiments, the system 100 for monitoring blood oxygen saturation of animals in real time further includes an image capturing device 201. The image acquisition device 201 is used for acquiring behavior information of animals in real time. The communication module 190 is in communication connection with the image acquisition device 201 and is used for uploading the behavior information to the upper computer 180. The upper computer 180 is used for processing, storing and displaying the behavior information.

The behavior information of the animals refers to various behaviors of the animals in the animal breeding process, such as grass eating behaviors, water drinking behaviors, sleeping behaviors, running behaviors, walking behaviors, interaction behaviors of nearby animals and the like. The image acquisition device 201 can be fixed on the body of part or all of the animals in the farm, and can also be distributed in the animal activity area of the farm, as long as each animal can be ensured to be in the shooting range of the image acquisition device 201, so as to ensure that the behavior information of each animal can be clearly and comprehensively acquired.

In the breeding period of the animals, the detection piece 110 detects the blood oxygen saturation of the animals in real time, the image acquisition device 201 synchronously acquires the moving process of the animals in real time so as to obtain monitoring images for recording animal behavior information, and the upper computer 180 synchronously receives the blood oxygen saturation information and the behavior information, processes and stores the information. When the oxyhemoglobin saturation information shows that the body of the animal is abnormal, the worker can immediately call animal behavior information of the blood oxygen content data in the abnormal time period on the upper computer 180 and compare the oxyhemoglobin saturation information with the behavior information in real time to judge whether the body of the animal is abnormal or not.

For example, when the blood oxygen saturation information shows that the blood oxygen saturation is too low, the staff can immediately check the behavior information of the animal in the period, and if the body of the animal is always kept in a fixed posture or the detection part is always kept in a bent posture in the period, the staff can check whether the blood oxygen saturation of the animal is normal when the animal walks, eats grass or performs other normal activities; if the animal does not have the conditions that the detection piece is loosened, the body of the animal keeps a fixed posture for a long time or the detection part is bent and the like in the period, the condition that the body of the animal is abnormal really indicates that the body of the animal is abnormal, and intervention measures need to be taken in time to ensure the health of the body of the animal.

Therefore, the setting of the image acquisition device 201 improves the detection accuracy of the animal blood oxygen saturation real-time monitoring system 100, and avoids misjudgment and misuse of the detected blood oxygen saturation information, thereby causing misjudgment of the physical condition of the animal.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A real-time monitoring system for the blood oxygen saturation of animals is characterized by comprising a detection piece, a data processing module, a data storage module and a power supply;

the detection piece is used for being fixed at a specific detection part of an animal body so as to detect the blood oxygen saturation information of the animal in real time;

the data processing module is connected with the detection piece and is used for carrying out data processing on the blood oxygen saturation degree information;

the data storage module is connected with the data processing module and is used for storing the processed blood oxygen saturation information;

the power supply is used for respectively providing electric energy for the detection piece, the data processing module and the data storage module.

2. The system for monitoring the blood oxygen saturation level of an animal in real time as claimed in claim 1, wherein said detecting member comprises a first blood oxygen probe and a second blood oxygen probe;

the real-time monitoring system for the blood oxygen saturation of the animal further comprises an ear tag; the ear tag comprises a first fixing piece and a second fixing piece; the first fixing piece is used for fixing the first blood oxygen probe at one side of an animal ear; the second fixing piece is used for fixing the second blood oxygen probe on the other side of the ear of the animal, and the signal sending end of the first blood oxygen probe is arranged opposite to the signal receiving end of the second blood oxygen probe.

3. The system for monitoring the blood oxygen saturation level of an animal in real time as claimed in claim 1, further comprising a protective shell; the data processing module and the data storage module are accommodated and sealed in the protective shell; the protective shell is used for being fixed on the body of an animal.

4. The system for monitoring the blood oxygen saturation level of an animal in real time as claimed in claim 3, wherein said power source is a rechargeable battery; the power supply is accommodated and sealed in the protective shell;

a data interface is arranged on the side wall of the protective shell; the data interface is electrically connected with the data processing module and the rechargeable battery respectively;

the real-time monitoring system for the blood oxygen saturation of the animal further comprises a data transmission line electrically connected with the detection piece; the data interface is electrically connected with the data transmission line and is used for starting the detection piece and transmitting information or is electrically connected with an external power supply.

5. The system for monitoring blood oxygen saturation of an animal in real time as claimed in claim 4, further comprising a strap for fixing said protective shell on the body of the animal.

6. The system for real-time monitoring of blood oxygen saturation level of an animal as claimed in claim 1, wherein said power source is a solar charging power source.

7. The system for monitoring the blood oxygen saturation level of an animal in real time as claimed in claim 1, further comprising an alarm device capable of being fixed on the body of the animal, a control module electrically connected with the alarm device and a switch control terminal in remote communication connection with the control module; the switch control terminal is used for receiving interactive operation and generating a preset control instruction; the control module is electrically connected with the data processing module and is used for controlling the alarm device to send out warning information according to the preset control instruction.

8. The system for monitoring the blood oxygen saturation level of an animal in real time is characterized by further comprising an alarm device capable of being fixed on the body of the animal and a control module electrically connected with the alarm device; the control module is electrically connected with the data processing module and is used for controlling the alarm device to send out warning information according to the oxyhemoglobin saturation information.

9. The system for monitoring the blood oxygen saturation level of an animal according to claim 1, further comprising an upper computer and a communication module; the data processing module is in communication connection with the upper computer through the communication module; the communication module is used for uploading the blood oxygen saturation information to the upper computer; and the upper computer is used for processing, analyzing, storing and displaying the blood oxygen saturation information.

10. The system for monitoring the blood oxygen saturation level of an animal according to claim 9, further comprising an image acquisition device; the image acquisition device is used for acquiring behavior information of the animal in real time; the communication module is in communication connection with the image acquisition device and is used for uploading the behavior information to the upper computer; and the upper computer is used for processing, storing and displaying the behavior information.

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