CN215351385U - Animal blood oxygen monitoring mask - Google Patents

Abstract

The utility model relates to an animal blood oxygen monitoring mask. Animal blood oxygen monitoring mask includes mask main part, detects piece, monitoring shell, data processing module and wireless communication module. The detection piece is arranged on the mask main body. The mask main body is used for being fixed on the face of an animal so as to enable the detection piece to be attached to the nose part of the animal to carry out real-time monitoring on the blood oxygen saturation information. The monitoring shell is disposed on the mask body. The data processing module and the wireless communication module are both arranged in the monitoring shell. The data processing module is in communication connection with the detection piece and is used for processing the blood oxygen saturation information. The wireless communication module is in communication connection with the data processing module and is used for transmitting the processed blood oxygen saturation information to the data platform. Therefore, the animal blood oxygen monitoring mask can continuously monitor the blood oxygen saturation of the animal for a long time, and meanwhile, the probability of harm to the animal is reduced.

Description

Animal blood oxygen monitoring mask

Technical Field

The utility model relates to the technical field of animal breeding, in particular to an animal blood oxygen monitoring mask.

Background

Animals introduced from plateau areas (particularly at elevations above 2500 m) often have altitude reactions of different degrees, and if the altitude is low, the animals grow slowly, the productivity is reduced, and if the altitude is high, the animals die. The intake of high purity oxygen is helpful to relieve animal altitude diseases, reduce death rate and improve the growth and production capacity of animals.

At present, by monitoring the blood oxygen saturation of animals, the animals with oxygen deficiency can be found before the animals have oxygen deficiency symptoms, and then the animals are supplemented with high-concentration oxygen in time to relieve and treat altitude stress symptoms and prevent and treat disease deterioration. The traditional methods for monitoring the blood oxygen saturation of animals generally include two methods, one is to fix a detection piece for monitoring the blood oxygen saturation at a proper position of an animal ear by using a handheld ear clip, and monitor the blood oxygen index in a short time; alternatively, the blood oxygen index can be monitored over a long period of time by fixing the test piece to the ear of the animal by means of an ear tag by means of fixing through a perforation.

However, the way of fixing the detecting piece on the ear of the animal by using the handheld ear clip can not realize long-term continuous monitoring of the blood oxygen index, and is inconvenient to use; the mode of fixing the detection piece on the ear of the animal by using the ear tag can bring great pain to the animal in the process of punching and fixing, and also has the risks of wound infection and the like.

SUMMERY OF THE UTILITY MODEL

Based on the above drawbacks, it is necessary to provide a mask for monitoring blood oxygen for animals, which can monitor blood oxygen index for a long time and has less harm to animals.

An animal blood oxygen monitoring mask is characterized by comprising a mask main body, a detection piece, a monitoring shell, a data processing module and a wireless communication module;

the detection piece is arranged on the mask main body; the mask main body is used for being fixed on the face of an animal so as to enable the detection piece to be attached to the nose part of the animal for real-time monitoring of the blood oxygen saturation information;

the monitoring shell is disposed on the mask body; the data processing module and the wireless communication module are both arranged in the monitoring shell; the data processing module is in communication connection with the detection piece and is used for carrying out data processing on the blood oxygen saturation degree information;

the wireless communication module is in communication connection with the data processing module and is used for transmitting the processed blood oxygen saturation information to a data platform.

In some embodiments, the detecting element comprises a first blood oxygen probe and a second blood oxygen probe; the mask body is used for attaching the first blood oxygen probe and the second blood oxygen probe to two sides of the nasal septum of the animal.

In some embodiments, the detecting element comprises a first blood oxygen probe and a second blood oxygen probe; the mask body is used for respectively attaching the first blood oxygen probe and the second blood oxygen probe to the inner side and the outer side of the same nose wing.

In some of these embodiments, the mask body includes a body formed according to the contours of an animal's face and a mounting portion disposed at one end of the body;

the animal blood oxygen monitoring mask further comprises a clamping mechanism; the clamping mechanism comprises two clamping pieces, a guide post and an elastic piece; each clamping piece is provided with a mounting end and a monitoring end;

the guide post is mounted on the mounting part; the two mounting ends are slidably sleeved at the two ends of the guide column; the elastic piece is used for providing a driving force for driving the two clamping pieces to be close to each other so as to clamp the two monitoring ends on two sides of the nasal septum of the animal or the inner side and the outer side of the same alar part of the nose respectively;

the first blood oxygen probe and the second blood oxygen probe are respectively fixed at the two monitoring ends.

In some of these embodiments, the clamping mechanism further comprises a tightening adjuster; the fastening adjusting piece is arranged on the mounting part and one clamping piece and abuts against the other clamping piece so as to adjust the clamping distance between the two monitoring ends.

In some of these embodiments, at least two mounting adjustment straps are secured to the mask body; each of the mounting adjustment straps is used for being detachably connected with a binding band bound on the head of the animal so as to fix the mask main body on the face of the animal; the length of each installation adjusting belt is adjustable.

In some of these embodiments, a cushion disposed on the mask body; the cushion is located on a side of the mask body facing the detection member.

In some embodiments, the mask body further comprises an oxygen supply channel; the oxygen supply channel is provided with an access port and an oxygen inhalation port; the access port is used for connecting an oxygen generating device; the mask main body is used for being fixed on the face of an animal, so that the oxygen inhalation port is positioned in or outside the nostril of the animal and is arranged towards the nostril.

In some of these embodiments, further comprising an oxygen supply tube disposed on the mask body; a channel in the oxygen supply pipe is used as the oxygen supply channel; the oxygen supply pipe is provided with the access port and the oxygen inhalation port.

In some of these embodiments, the oxygen supply tube comprises a main tube having the access port and two branch tubes communicating with the main tube; and one end of each branch pipe, which is far away from the main pipe, is opened to serve as the oxygen absorbing port.

Above-mentioned animal blood oxygen control face guard, in the in-service use process, only need fix the face guard main part at animal face, just can utilize the structure of face guard main part to laminate the nose position of detecting the piece to the animal, need punch the mode of fixing to the animal ear with detecting the piece among the prior art and compare, the aforesaid utilizes the face guard main part to laminate the mode of detecting the piece to animal nose position, the process of installing detecting the piece on the animal body has not only been simplified, but also avoided the injury that the fixed in-process of detecting the piece led to the fact the animal. In addition, the mask main body fixed on the face of the animal can realize long-time wearing of the detection piece on the nose part of the animal, so that long-time continuous monitoring of the blood oxygen saturation of the animal can be realized. Therefore, the animal blood oxygen monitoring mask can continuously monitor the blood oxygen saturation of the animal for a long time, and meanwhile, the probability of harm to the animal is reduced.

Drawings

FIG. 1 is a schematic view of an animal blood oxygen monitoring mask in accordance with a preferred embodiment of the present invention;

FIG. 2 is a schematic view of another aspect of the animal blood oxygen monitoring mask in accordance with the preferred embodiment of the present invention;

fig. 3 is a cross-sectional view of the animal blood oxygen monitoring mask of fig. 1 and 2;

fig. 4 is another cross-sectional view of the animal blood oxygen monitoring mask shown in fig. 1 and 2.

Description of reference numerals: 100. an animal blood oxygen monitoring mask; 110. a mask body; 111. a body; 112. an installation part; 113. an oxygen supply channel; 1131. an access port; 1132. an oxygen inhalation port; 1133. a main pipe; 1134. pipe distribution; 120. a detection member; 121. a first blood oxygen probe; 122. a second blood oxygen probe; 130. monitoring the housing; 140. installing an adjusting belt; 150. a clamping mechanism; 151. a clamping member; 152. fastening the adjusting piece; 153. a guide post; 154. an elastic member; 160. a soft cushion.

Detailed Description

To facilitate an understanding of the utility model, the utility model 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 utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. 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.

Fig. 1 shows the structure of an animal blood oxygen monitoring mask in an embodiment of the present invention. For the purpose of illustration, the drawings show only the structures associated with the embodiments.

Referring to fig. 1 and 2, an animal blood oxygen monitoring mask 100 according to a preferred embodiment of the present invention includes a mask body 110, a detecting element 120, a monitoring shell 130, a data processing module (not shown), and a wireless communication module (not shown).

The detection member 120 is disposed on the mask body 110. The mask body 110 is used to be fixed to the face of an animal to attach the detection piece 120 to the nose portion of the animal for real-time monitoring of blood oxygen saturation information. Wherein the mask body 110 may be secured to the animal's face by structure of the mask body 110 itself or other auxiliary structure (e.g., straps, tape, etc.). The mask body 110 mainly functions as a support, and may have a plate-like or block-like structure or a structure formed according to the contour of the animal face.

Specifically, at least two mounting adjustment straps 140 are secured to the mask body 110. Each mounting adjustment strap 140 is adapted to be removably coupled to a head strap that is strapped to the head of an animal to secure the mask body 110 to the animal's face. The length of each mounting adjustment strap 140 is adjustable. It should be noted that the head strap may be a strap structure dedicated to the fixation of the mask body 110, or a strap structure for hooking an animal halter.

When it is desired to fix the mask body 110 to the animal's face, it is sufficient to detachably attach each of the mounting adjustment straps 140 to a head strap that is strapped to the head of the animal, so that the fixing process of the mask body 110 to the animal's face is made easier. Moreover, the length of the mounting adjustment strap 140 can be adjusted according to the field situation and the size of the head of the animal, thereby improving the applicability of the animal blood oxygen monitoring mask 100.

The monitoring shell 130 is disposed on the mask body 110. The data processing module and the wireless communication module are both installed in the monitoring housing 130. The data processing module and the wireless communication module are integrated on the mask body 110 and protected by the monitoring shell 130, which not only makes the structure of the animal blood oxygen monitoring mask 100 more compact, but also eliminates the fixing process of the blood oxygen monitoring structure on the animal body.

The data processing module is in communication connection with the detection member 120 and is used for performing data processing on the blood oxygen saturation degree information.

The wireless communication module is in communication connection with the data processing module and is used for transmitting the processed blood oxygen saturation information to the data platform. In the animal feeding process, the wireless communication module can transmit the processed oxyhemoglobin saturation information to the data platform in real time, and the data platform can process, store and display the processed oxyhemoglobin saturation information so as to facilitate workers to check the animal oxygen deficiency condition, the oxyhemoglobin saturation information and other information data (such as electric quantity information of an animal blood oxygen monitoring mask, working mode information, identity identification information of a detected animal and the like) in the blood oxygen monitoring process at any time.

Because the mask main body 110 can be worn and fixed on the face of an animal for a long time in the animal feeding process, the animal blood oxygen monitoring mask can continuously monitor the blood oxygen saturation information of the animal for a long time through the detection piece 120, so that workers can find the animals with oxygen deficiency in the body in time, and oxygen inhalation treatment is carried out on the animals with oxygen deficiency, so that whether the animals can grow healthily is ensured.

Moreover, the fixing of the blood oxygen monitoring devices such as the detection piece 120 on the animal body can be realized only by fixing the mask main body 110 on the animal face through a head strap and the like, so that the damage to the animal caused by a hole drilling fixing mode is avoided. Therefore, the animal blood oxygen monitoring mask 100 can not only continuously monitor the blood oxygen saturation information of the animal for a long time, but also achieve high blood oxygen detection efficiency and extremely low probability of damage to the animal.

In addition, compare with the mode that utilizes handheld ear clip formula animal blood oxygen appearance to carry out blood oxygen detection on the animal ear among the prior art, above-mentioned animal blood oxygen monitoring mask 100's setting has reduced staff's work load greatly, and a staff can monitor the blood oxygen information of a plurality of animals simultaneously, has improved blood oxygen detection efficiency greatly.

In one embodiment of the present invention, the detecting element 120 includes a first blood oxygen probe 121 and a second blood oxygen probe 122. The mask body 110 is used to attach the first blood oxygen probe 121 and the second blood oxygen probe 122 to the two sides of the nasal septum of the animal.

When the mask body 110 is fixed on the face of the animal, the first blood oxygen probe 121 and the second blood oxygen probe 122 are clamped on two sides of the nasal septum of the animal, so that the first blood oxygen probe 121 and the second blood oxygen probe 122 can conveniently acquire the blood oxygen saturation information of the nasal septum of the animal in real time. Moreover, due to the specific structure of the animal nose, the first blood oxygen probe 121 and the second blood oxygen probe 122 are respectively attached to two sides of the nasal septum, so that the fixing effect is very good, the situations that the first blood oxygen probe 121 and the second blood oxygen probe 122 are separated and loosened in the animal movement process can be avoided, and the accuracy of blood oxygen detection is greatly improved.

In another embodiment of the present invention, the detecting element 120 comprises a first blood oxygen probe 121 and a second blood oxygen probe 122. The mask body 110 is used to attach the first blood oxygen probe 121 and the second blood oxygen probe 122 to the inner side and the outer side of the same nose wing.

When the mask main body 110 is fixed on the face of the animal, the first blood oxygen probe 121 and the second blood oxygen probe 122 are clamped on the nasal wings on the same side of the animal, so that the first blood oxygen probe 121 and the second blood oxygen probe 122 can conveniently acquire the blood oxygen saturation information of the nasal wings of the animal in real time.

In the two embodiments, the first blood oxygen probe 121 is used for sending a detection signal, and the second blood oxygen probe 122 is used for receiving the detection signal sent by the first blood oxygen probe 121, so that the collection of the blood oxygen saturation information can be realized in the process of sending the detection signal by the first blood oxygen probe 121 and receiving the detection signal by the second blood oxygen probe 122, and the bonding positions of the first blood oxygen probe 121 and the second blood oxygen probe 122 can be interchanged in the same embodiment.

It should be further noted that the first blood oxygen probe 121 and the second blood oxygen probe 122 are directly clamped to the nose of the animal by the mask body 110, so that the animal is not hurt during the fixing process of the detecting member 120.

Referring to fig. 3, in some embodiments, the mask body 110 includes a body 111 formed according to the contour of the face of the animal, and a mounting portion 112 disposed at one end of the body 111. When mask main part 110 is fixed on the animal face, more laminating between body 111 and the animal face not only makes mask main part 110 more stable at the animal face, has improved the fixed effect of animal blood oxygen monitoring mask and has further improved the accuracy that blood oxygen detected, but also has reduced the uncomfortable sense that mask main part 110 caused to the animal face.

Animal blood oxygen monitoring mask 100 further includes a clamping mechanism 150. The clamping mechanism 150 includes two clamping members 151, a guide post 153, and an elastic member 154. Each clamping member 151 has a mounting end and a monitoring end. The guide posts 153 are attached to the mounting portion 112. One or more guide posts 153 may be provided, and the plurality of guide posts 153 are arranged in parallel and at intervals.

The two mounting ends are slidably sleeved at two ends of the guide column 153. The elastic member 154 is used to provide an elastic force that urges the two clamping members 151 toward each other to clamp the two monitoring ends to the two sides of the animal's nasal septum or the inside and outside of the same alar. Wherein, the elastic member 154 may be a rubber band, a spring, a metal spring, etc.; the guide posts 153 are mainly used for guiding so as to ensure the operation accuracy of the two clamping members 151 and improve the reliability of the animal blood oxygen monitoring mask 100.

When needing to carry out the blood oxygen saturation monitoring to certain animal, break off two monitoring ends earlier under the exogenic action, later place two monitoring ends respectively in the both sides of septum of nose or the inside and outside of same alar, later remove the exogenic force again, two clamping piece 151 will be close to each other under the effect of elastic component 154 this moment, with automatic press from both sides tight both sides at the animal septum of nose or the inside and outside of same alar with first blood oxygen probe 121 and second blood oxygen probe 122 respectively, later fix the face of animal with mask body 111 again, with the fixed effect of guaranteeing first blood oxygen probe 121 and second blood oxygen probe 122, be favorable to the accuracy of blood oxygen testing result.

When the blood oxygen monitoring of the animal is not needed, the mask body 111 is released from the face of the animal; then, the two monitoring ends are broken off under the action of external force, so that the animal blood oxygen monitoring mask 100 can be conveniently taken off from the head of the animal subsequently. Thus, the provision of the clamping mechanism 150 facilitates the use of the animal blood oxygen monitoring mask 100.

The first blood oxygen probe 121 and the second blood oxygen probe 122 are respectively fixed at two monitoring ends. Thus, when the two clamping members 151 are close to each other under the elastic force provided by the elastic member 154, the first blood oxygen probe 121 and the second blood oxygen probe 122 can be clamped on both sides of the nasal septum or on the inner and outer sides of the same nasal wing, respectively.

Referring also to fig. 4, in some embodiments, the clamping mechanism 150 further includes a fastening adjuster 152. The fastening adjustment member 152 is mounted to the mounting portion 112 and one of the clamping members 151 and abuts the other clamping member 151 to adjust a clamping distance between the two monitoring ends. The clamping distance between the two monitoring ends is the distance between the two monitoring ends when the first blood oxygen probe 121 and the second blood oxygen probe 122 are respectively attached to the inner side and the outer side of two or the same nasal alar of the nasal septum of the animal.

Therefore, the fastening adjusting piece can adjust the clamping distance between the two monitoring ends so as to adapt to the use of animals with different positions, different body types and different varieties, and the adaptability of the animal blood oxygen monitoring mask 100 is improved.

In addition, because the elastic force that elastic component 153 provided can order about two monitoring ends and be close to each other, it is very likely that this moment can take place two monitoring ends and in the too tight condition of clamp of animal septum or same alar part of the nose, thereby cause this position blood circulation not smooth, be unfavorable for the monitoring to animal oxyhemoglobin saturation, and adjust the clamping distance of two monitoring ends through fastening adjusting part 152, so that two monitoring ends guarantee the animal when guaranteeing to press from both sides tight effect and monitor the blood circulation at the position, avoid reducing the blood perfusion at the monitored position, animal blood oxygen monitoring mask 100's reliability has further been improved.

Specifically, the fastening adjusting member 151 is a fastening screw, a first threaded hole is formed in the mounting portion 112, a second threaded hole is formed in one of the mounting ends, and the fastening screw sequentially penetrates through the first threaded hole and the second threaded hole and is screwed to the first threaded hole and the second threaded hole, and abuts against the other mounting end. In practice, the clamping distance between the two clamping members 151 can be adjusted by tightening the adjustment member by screwing.

Referring again to fig. 2, in some embodiments, the blood oxygen monitoring mask further includes a cushion 160 disposed on the mask body 110. The cushion 160 is located on the side of the mask body 110 that faces the detection member 120. Specifically, the cushion 160 is located on the side of the mask body 110 that faces the animal's face when the mask body 110 is secured to the animal's face. The cushion 160 mainly plays a role in buffering and protecting, so that the face of the animal is prevented from being crushed and scratched by the mask main body 110 in the movement process of the animal, and the probability of injury to the animal is further reduced.

Referring again to fig. 1 and 2, in some embodiments, the mask body 110 further includes an oxygen supply passage 113. The oxygen supply channel 113 has an inlet 1131 and an oxygen inhalation port 1132. The access 1131 is used to switch on the oxygen production system. The mask body 110 is adapted to be secured to the animal's face such that the oxygen inhalation ports 1132 are positioned within and toward the nostrils of the animal or outside of the nostrils of the animal. It should be noted that the external portion of the animal nostril is arranged toward the nostril, which means the external portion of the animal nostril is closer to the nostril, and the oxygen inhalation port 1132 is arranged toward the nostril, i.e. the position near the nostril. The oxygen generation equipment can be an oxygen generator, an oxygen generation system and the like, and only oxygen with higher concentration can be prepared; the oxygen inhalation passage can be a passage formed on the mask body 110, or can be a pipe arranged on the mask body 110; one or more oxygen inhalation ports 1132 may be provided. When one oxygen inhalation port 1132 is provided, the oxygen inhalation port 1132 is positioned in any nostril of the animal or near any nostril; when there are multiple oxygen inhalation ports 1132, the multiple oxygen inhalation ports 1132 are divided into two groups, two of which may be respectively located in two nostrils of the animal, or respectively located near two nostrils, or one group may be located in one nostril, and the other group may be located near the other nostril.

In the blood oxygen monitoring process, when the blood oxygen saturation information shows that the animal is in an oxygen deficiency state, oxygen prepared by the oxygen preparing device is conveyed into the nostrils of the animal or the position near the nostrils through the oxygen supplying channel 113, so that the animal can conveniently take oxygen for treatment. Compared with the mode of oxygen therapy in which the animal is driven to the closed space full of oxygen in the prior art, the use of the animal blood oxygen monitoring mask 100 can directly convey the oxygen produced by the oxygen production equipment into the nostrils of the animal or nearby the nostrils, greatly improves the utilization rate of the oxygen and is beneficial to the reduction of the oxygen therapy cost. In addition, in the process of oxygen inhalation treatment of animals, only enough oxygen needs to be provided in or near the nostrils of the animals, so the requirement on the oxygen generation capacity of the oxygen generation equipment is not high (the stronger the oxygen generation capacity of the oxygen generation equipment is, the higher the purchase and use cost of the oxygen generation equipment is), and the oxygen treatment cost is further reduced.

Further, in some embodiments, the animal blood oxygen monitoring mask 100 further includes an oxygen supply tube disposed on the mask body 110. The passage in the oxygen supply tube serves as an oxygen supply passage 113. The oxygen supply tube has an inlet 1131 and an oxygen intake 1132. When the mask body 110 is secured to the animal's face, the end of the oxygen supply tube having the oxygen inhalation port 1132 is positioned within or near the animal's nares. In the manufacturing process of the animal blood oxygen monitoring mask 100, the oxygen supply channel 113 can be formed on the mask main body 110 only by mounting the oxygen supply tube on the mask main body 110, so that the manufacturing process of the animal blood oxygen monitoring mask 100 is simpler.

Further, in some embodiments, the oxygen supply tube includes a main tube 1133 having an access port 1131 and two branch tubes 1134 in communication with the main tube 1133. One end of each branch pipe 1134 away from the main pipe 1133 is opened as an oxygen absorbing port 1132. Specifically, the two branch pipes 1134 are communicated with the main pipe 1133 through a three-way joint, or directly communicated with the main pipe 1133 through bonding, welding, and the like.

In practical application, when the mask body 110 is fixed on the face of an animal, one end of each of the two branch tubes 1134 having the oxygen inhalation port 1132 extends into each of two nostrils of the animal, or is located near the two nostrils of the animal, or one branch tube 1134 extends into one nostril of the animal and the other branch tube is located near the other nostril of the animal, so as to provide oxygen to the two nostrils of the animal at the same time, thereby greatly improving the oxygen therapy effect of the animal during the oxygen inhalation therapy.

Of course, in other embodiments, two branch pipes 1134 may be provided as a whole pipe, in which case the main pipe 1133 is communicated with the middle of the whole pipe, and two oxygen inhalation ports 1132 are respectively opened at two ends of the whole pipe.

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 utility model. 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. An animal blood oxygen monitoring mask is characterized by comprising a mask main body, a detection piece, a monitoring shell, a data processing module and a wireless communication module;

the detection piece is arranged on the mask main body; the mask main body is used for being fixed on the face of an animal so as to enable the detection piece to be attached to the nose part of the animal for real-time monitoring of the blood oxygen saturation information;

the monitoring shell is disposed on the mask body; the data processing module and the wireless communication module are both arranged in the monitoring shell; the data processing module is in communication connection with the detection piece and is used for carrying out data processing on the blood oxygen saturation degree information;

the wireless communication module is in communication connection with the data processing module and is used for transmitting the processed blood oxygen saturation information to a data platform.

2. The animal blood oxygen monitoring mask of claim 1, wherein the detecting member comprises a first blood oxygen probe and a second blood oxygen probe; the mask body is used for attaching the first blood oxygen probe and the second blood oxygen probe to two sides of the nasal septum of the animal.

3. The animal blood oxygen monitoring mask of claim 1, wherein the detecting member comprises a first blood oxygen probe and a second blood oxygen probe; the mask body is used for respectively attaching the first blood oxygen probe and the second blood oxygen probe to the inner side and the outer side of the same nose wing.

4. The animal blood oxygen monitoring mask according to claim 2 or 3, wherein the mask body comprises a body formed according to the contour of the animal face and a mounting portion disposed at one end of the body;

the animal blood oxygen monitoring mask further comprises a clamping mechanism; the clamping mechanism comprises two clamping pieces, a guide post and an elastic piece; each clamping piece is provided with a mounting end and a monitoring end;

the guide post is mounted on the mounting part; the two mounting ends are slidably sleeved at the two ends of the guide column; the elastic piece is used for providing an elastic force for driving the two clamping pieces to be close to each other so as to clamp the two monitoring ends on two sides of the nasal septum of the animal or the inner side and the outer side of the same alar part of the nose respectively;

the first blood oxygen probe and the second blood oxygen probe are respectively fixed at the two monitoring ends.

5. The animal blood oxygen monitoring mask of claim 4, wherein the clamping mechanism further comprises a fastening adjustment; the fastening adjusting piece is arranged on the mounting part and one clamping piece and abuts against the other clamping piece so as to adjust the clamping distance between the two monitoring ends.

6. The animal blood oxygen monitoring mask of claim 1, wherein at least two mounting adjustment straps are secured to the mask body; each of the mounting adjustment straps is used for being detachably connected with a binding band bound on the head of the animal so as to fix the mask main body on the face of the animal; the length of each installation adjusting belt is adjustable.

7. The animal blood oxygen monitoring mask of claim 1, further comprising a cushion disposed on the mask body; the cushion is located on a side of the mask body facing the detection member.

8. The animal blood oxygen monitoring mask of claim 1, wherein the mask body further includes an oxygen supply channel; the oxygen supply channel is provided with an access port and an oxygen inhalation port; the access port is used for connecting an oxygen generating device; the mask main body is used for being fixed on the face of an animal, so that the oxygen inhalation port is positioned in or outside the nostril of the animal and is arranged towards the nostril.

9. The animal blood oxygen monitoring mask of claim 8, further comprising an oxygen supply tube disposed on the mask body; a channel in the oxygen supply pipe is used as the oxygen supply channel; the oxygen supply pipe is provided with the access port and the oxygen inhalation port.

10. The animal blood oxygen monitoring mask of claim 9, wherein the oxygen supply tube comprises a main tube having the access port and two branch tubes in communication with the main tube; and one end of each branch pipe, which is far away from the main pipe, is opened to serve as the oxygen absorbing port.

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