CN210124194U - Animal health monitoring device - Google Patents

Abstract

The utility model discloses an animal health monitoring device, it includes an at least bearing unit, an at least the control unit, an at least environment conditioning ware and an at least health unit. The control unit set up in the bearing unit, the environment regulator set up in the health unit with be connected in the control unit, wherein the health unit have at least one health space with communicate in at least a master control space in health space, wherein the bearing unit by drawable set up in the health unit the master control space, through the pull the mode of bearing unit can expose by the bearing unit bearing the control unit, so that it is right the control unit overhauls.

Description

Animal health monitoring device

Technical Field

The utility model relates to an animal health field, in particular to animal health monitoring device.

Background

In recent years, more and more families have been used to raise animals (e.g., cats, dogs, etc.), and the status of the animals in the families has been increased, so that the health status of the animals is more and more emphasized by owners and animal medical institutions (e.g., animal hospitals), and accordingly, when the animals are ill (ill or injured), special instruments for helping the animals receive treatment are gradually developed. As with humans, animals are also naturally living, ill and dead, and therefore, need to be treated to recover when they are ill. It will be appreciated that special equipment and rehabilitation environments are necessary and necessary to assist in the rehabilitation of a diseased animal, especially for a more diseased animal, where the animal's health care facility does not provide a good rehabilitation environment, the animal's rehabilitation process may be affected and even the animal's life may be threatened. For example, for a more ill animal, in the process of helping the more ill animal to recover, the vital signs of the animal need to be monitored, the environmental conditions of the recovery environment in which the animal is located, such as temperature, humidity, oxygen concentration, carbon dioxide concentration, and the like need to be monitored and controlled, the animal needs to receive blue light therapy, nebulization therapy, and the like, and at present, these items are respectively performed under different scenes, and there is no special recovery device to help the animal receive recovery therapy.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an animal health monitoring device, wherein animal health monitoring device provides an at least health space to help sick animal health.

An object of the utility model is to provide an animal health monitoring device, wherein the environmental status in health space can be detected and controlled, for example the carbon dioxide concentration in health air can be detected and controlled to help sick animal health.

An object of the utility model is to provide an animal health monitoring device, wherein animal health monitoring device provides an at least vent, works as when the air quality in health space is relatively poor, for example works as when the carbon dioxide concentration of health air is too high, the vent can be controlled the intercommunication the health space, with the permission the air in health space is exchanged with the air of external environment and is improved the air quality in health space.

An object of the utility model is to provide an animal health monitoring device, wherein animal health monitoring device provides a detecting element, so that detect the air quality in health space. For example, the detection unit can detect the oxygen concentration, the carbon dioxide concentration, and the like of the air in the health space.

An object of the utility model is to provide an animal health monitoring device, wherein animal health monitoring device provides a circulation unit and an environment conditioner, the environment conditioner warp the circulation unit is adjusted the air quality in health space, wherein the detecting element is through detecting the mode of the air quality in circulation space of circulation unit detects the air quality in health space, so that detect and avoid the detecting element is exposed in health space.

An object of the utility model is to provide an animal health monitoring device, wherein detecting element set up in animal health monitoring device's a bearing unit, perhaps promote through the pull detecting element warp circulating element's third opening certainly circulating space gets into a master control space and certainly master control space gets into and is kept in circulating space, thereby at the pull can be convenient for right behind the bearing unit detecting element overhauls.

An object of the utility model is to provide an animal health monitoring device, wherein the circulation unit the third opening orientation the pull direction of bearing unit, thereby at the pull during the bearing unit, detecting element can warp the third opening certainly the circulation space gets into the master control space, and promoting during the bearing unit, detecting element can warp the third opening certainly the master control space gets into and is kept the circulation space.

An object of the utility model is to provide an animal health monitoring device, wherein environment controller wholly can be installed by detachably in animal health monitoring device's a health unit, thereby work as when environment controller breaks down, can change fast environment controller, in order to maintain animal health monitoring device's normal work.

An object of the utility model is to provide an animal health monitoring device, wherein animal health monitoring device provides at least division board, the division board by detachably install in health unit, in order to adjust health unit the size in health space to satisfy the recovered needs of the animal of different sizes.

According to an aspect of the utility model, the utility model provides an animal health monitoring device, it includes an at least the control unit, an at least environment regulator, an at least detecting element and an at least health unit, wherein the environment regulator with the detecting element is connected respectively in the control unit, wherein the health unit has an at least health space, wherein the environment regulator set up in the health unit with communicate in the health space, for the regulation the air quality in health space, wherein the detecting element is set up and can be detected the air quality in health space.

According to the utility model discloses an embodiment, animal health monitoring device further includes an at least bearing unit, wherein the control unit with the detecting element set up respectively in the bearing unit, wherein the health unit further has a master control space, the bearing unit by drawable set up in the health unit master control space.

According to an embodiment of the present invention, the detection unit is detachably mounted to the bearing unit.

According to an embodiment of the present invention, the animal health monitoring device further comprises a circulation unit, wherein the circulation unit has a circulation space and a first opening, a second opening and a third opening respectively communicating with the circulation space, wherein the health unit has at least one exchange passage and at least one port, the exchange passage communicates with the health space and the main control space, the port communicates with the main control space and the outside, wherein the circulation unit is installed in the main control space of the health unit, and the first opening of the circulation unit corresponds to and communicates with the port of the health unit, the second opening of the circulation unit corresponds to and communicates with the exchange passage of the health unit, the third opening of the circulation unit faces the support unit, wherein the environmental regulator communicates with the port of the health unit, wherein the detection unit is disposed to enter through the third opening of the circulation unit and to be held in the circulation space of the circulation unit.

According to the utility model discloses an embodiment, the master control space is located the upper portion in health space.

According to the utility model discloses an embodiment, at least one exit and an at least pull mouth of health unit, exit intercommunication the health space, pull mouth intercommunication the master control space, wherein the bearing unit warp the health unit the pull mouth by drawable set up in the health unit the master control space.

According to the utility model discloses an embodiment, health unit exit with the pull mouth is located same one side of health unit.

According to an embodiment of the present invention, the circulation unit further has a fourth opening, the fourth opening communicates with the circulation space, wherein the health unit has a vent, the circulation unit the fourth opening corresponds to the health unit the vent, and the circulation unit the fourth opening can selectively communicate with the vent or close the vent.

According to an embodiment of the present invention, the environmental regulator is detachably mounted to the health unit.

According to the utility model discloses an embodiment, animal health monitoring device includes two the control unit, two environment regulator, two detecting element and one the health unit, wherein every the control unit, every environment regulator and every the detecting element set up respectively in the different sides of health unit, so that every environment regulator be connected respectively in the health unit the different regions in health space, and make every the detecting element is set up and to be detected the health unit the air quality in the different regions in health space.

According to an embodiment of the present invention, the animal health monitoring device includes two the control unit, two the environment adjuster, two the detecting unit and two the health unit, wherein every the control unit, every the environment adjuster and every the detecting unit is set up in every respectively the health unit, and two the health unit is set up adjacently.

According to the utility model discloses an embodiment, animal health monitoring device includes four the control unit, four environmental conditioning ware, four detecting element and four the health unit, wherein every the control unit, every environmental conditioning ware and every the detecting element is set up respectively in every the health unit, and four the health unit is "field" font and is set up.

According to the utility model discloses an embodiment, animal health monitoring device further includes a division board, wherein the division board by detachably set up in the health unit, in order to separate the health unit the health space is two the health space, wherein every the control unit, every environment conditioner and every the detecting element corresponds to after being separated respectively the health space.

According to another aspect of the present invention, the present invention further provides an air quality detecting method for an animal health monitoring device, wherein the air quality detecting method comprises the following steps:

(a) allowing an environmental conditioner to adjust air quality of a health space of a health unit through a circulation space of a circulation unit; and

(b) and maintaining a detection unit in the circulating space of the circulating unit so as to detect the air quality of the health space by detecting the air quality of the circulating space.

According to an embodiment of the present invention, in the step (b), the method further comprises the steps of:

(b.1) drawing a supporting unit to drive the detection unit to enter a main control space of the health unit from the circulation space through a third opening of the circulation unit; and

(b.2) pushing the supporting unit to drive the detection unit to enter from the main control space of the health unit through the third opening of the circulating unit and to be kept in the circulating space of the circulating unit.

According to an embodiment of the present invention, in the above method, the third opening of the circulation unit is oriented toward the drawing direction of the support unit, and the circulation unit is fixed in the main control space of the health unit and the support unit is arranged in the main control space in a drawable manner.

According to an embodiment of the invention, the detection unit comprises a carbon dioxide sensor and/or an oxygen sensor.

Drawings

Fig. 1A is a perspective view of an animal health monitoring device according to a preferred embodiment of the present invention.

Fig. 1B is a perspective view of another perspective view of the animal health monitoring device according to the above preferred embodiment of the present invention.

Fig. 2A is a partially exploded view of a viewing angle of the animal health monitoring device according to the above preferred embodiment of the present invention.

Fig. 2B is an exploded view of another perspective of the animal health monitoring apparatus according to the above preferred embodiment of the present invention.

Fig. 3 is a schematic view illustrating another exploded state of the animal health monitoring apparatus according to the above preferred embodiment of the present invention.

Fig. 4 is a partial perspective view of the animal health monitoring apparatus according to the above preferred embodiment of the present invention, which illustrates the relationship between a supporting unit and a detecting unit of the animal health monitoring apparatus.

Fig. 5 is a partially exploded view of the animal health monitoring apparatus according to the above preferred embodiment of the present invention, illustrating the relationship between the supporting unit and the detecting unit of the animal health monitoring apparatus.

Fig. 6 is a schematic cross-sectional view of the animal health monitoring apparatus according to the above preferred embodiment of the present invention, which illustrates the relationship among the supporting unit, the detecting unit and a circulating unit of the animal health monitoring apparatus.

Fig. 7 is a schematic perspective view of one of the overhaul processes of the animal health monitoring device according to the above preferred embodiment of the present invention.

Fig. 8 is a schematic perspective view of a second maintenance process of the animal health monitoring device according to the above preferred embodiment of the present invention.

Fig. 9 is a three-dimensional schematic view illustrating a maintenance process of the animal health monitoring apparatus according to the above preferred embodiment of the present invention.

Fig. 10 is a perspective view of an animal health monitoring device according to another preferred embodiment of the present invention.

Fig. 11A is a schematic view of a state of the animal health monitoring apparatus according to the above preferred embodiment of the present invention.

Fig. 11B is a schematic view of another state of the animal health monitoring apparatus according to the above preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1A to 9 of the drawings of the present application, an animal health monitoring device according to a preferred embodiment of the present invention is disclosed and illustrated in the following description, wherein the animal health monitoring device comprises at least one health unit 10, at least one control unit 30, at least one environmental conditioner 50 and at least one detection unit 70, wherein the health unit 10 has at least one health space 101, wherein the environmental conditioner 50 and the detection unit 70 are respectively connected to the control unit 30 to control the working states of the environmental conditioner 50 and the detection unit 70 by the control unit 30, wherein the environmental conditioner 50 is disposed at the health unit 10 and the health space 101 communicated with the health unit 10 to be able to adjust the air quality of the health space 101 of the health unit 10, for example, the environment conditioner 50 can adjust the temperature, humidity, oxygen concentration, carbon dioxide concentration, etc. of the health space 101 of the health unit 10, wherein the detection unit 70 is provided to detect the air quality of the health space 101 of the health unit 10, for example, the detection unit 70 can detect the temperature, humidity, oxygen concentration, carbon dioxide concentration, etc. of the health space 101 of the health unit 10.

Further, the animal health monitoring apparatus includes at least one support unit 20 for supporting the control unit 30 mounted on the support unit 20, wherein the health unit 10 has at least one main control space 102, the support unit 20 is drawably disposed in the main control space 102 of the health unit 10, so as to allow the control unit 30 to be held in the main control space 102 of the health unit 10, and allow the control unit 30 to be exposed to the outside of the main control space 102 in a manner that the support unit 20 is drawn. After the cradle unit 20 is drawn so that the control unit 30 is exposed to the outside of the main control space 102 of the health unit 10, a service man can service the control unit 30. In the animal health monitoring device, the maintainer need not unpack apart any shell of animal health monitoring device, only through the pull bearing unit 20's mode can expose by the bearing unit 20 bearing the control unit 30, it is right with the control unit 30 overhauls, thereby the maintenance efficiency of control unit 30 can be improved by a wide margin.

The detecting unit 70 is disposed on the supporting unit 20, wherein when the supporting unit 20 is pulled or pushed, the detecting unit 70 can be driven to move synchronously, and after the control unit 30 supported by the supporting unit 20 is hidden in the main control space 102 of the health unit 10, the detecting unit 70 can detect the air quality of the health space 101 of the health unit 10. Preferably, the sensing unit 70 is detachably mounted to the holder unit 20 so that a service person can detach the sensing unit 70 from the holder unit 20 to service the sensing unit 70 after the holder unit 20 is drawn to expose the control unit 30 to the outside of the main control space 102 of the health unit 10.

Preferably, the main control space 102 of the health unit 10 is located at an upper portion of the health space 101 so that the seating unit 20 can allow the control unit 30 to be maintained at a high position, so that a service person may not need to bend down when servicing the control unit 30, thereby contributing to a reduction in labor intensity of the service person. Optionally, the main control space 102 of the health unit 10 is maintained at a lower portion or a side portion of the health space 101.

Further, the health unit 10 has an entrance 103 and an exit 104, wherein the entrance 103 of the health unit 10 is connected to the health space 101 of the health unit 10 to allow the animal to enter or exit the health space 101 through the entrance 103 of the health unit 10, and the exit 104 of the health unit 10 is connected to the main control space 102 of the health unit 10 to allow the support unit 20 to enter and exit the main control space 102 through the exit 104 of the health unit 10. Preferably, after the supporting unit 20 enters the main control space 102 of the health unit 10 through the drawing opening 104, the supporting unit 20 can close the drawing opening 104 of the health unit 10 to prevent the control unit 30 supported by the supporting unit 20 from being exposed, thereby being beneficial to ensure the safety and reliability of the control unit 30.

Preferably, the drawing opening 104 and the entrance opening 103 of the health unit 10 are located on the same side, and the drawing direction of the cradle unit 20 is identical to the opening direction of the health space 101 of the health unit 10, so that no additional space is occupied even if the cradle unit 20 is drawn during the process of servicing of the control unit 30, which enables the animal health monitoring apparatus to be arranged in a narrow space for use. For example, the animal health monitoring device can be arranged to be used at a wall location. Alternatively, the pull opening 104 and the access opening 103 of the health unit 10 may be located on adjacent sides of the health unit 10.

With continued reference to fig. 1A to 9, in this preferred example of the animal health monitoring device of the present invention, the number of the health units 10, the supporting unit 20, the control unit 30, the environmental regulators 50 and the detecting units 70 is four, wherein each of the supporting unit 20, each of the control unit 30, each of the environmental regulators 50 and each of the detecting units 70 is respectively disposed on each of the health units 10, and four of the health units 10 are disposed in a "field" shape. Alternatively, in some other examples of the animal health monitoring apparatus of the present invention, the number of the health units 10, the supporting units 20, the control units 30, the environmental regulators 50 and the detecting units 70 is two, wherein each of the supporting units 20, each of the control units 30, each of the environmental regulators 50 and each of the detecting units 70 is respectively disposed at each of the health units 10, and two of the health units 10 are adjacently disposed.

With continued reference to fig. 1A to 9, each of the health units 10 includes a bottom plate 11, a top plate 12, a back plate 13, a door plate 14, a partition plate 15, and two side plates 16, wherein the bottom plate 11 and the top plate 12 are disposed corresponding to each other, wherein two of the side plates 16 extend upward from two sides of the bottom plate 11 to two sides of the top plate 12, respectively, wherein edges of the back plate 13 are connected to edges of the bottom plate 11, the top plate 12, and each of the side plates 16, respectively, wherein edges of the partition plate 15 are connected to a middle portion of the back plate 13 and a middle portion of each of the side plates 16, respectively, to form the health space 101 and the entrance/exit 103 between the bottom plate 11, the back plate 13, the partition plate 15, and each of the side plates 16, and form the main control space 102 and the drawing opening 104 between the top plate 12, the back plate 13, the partition plate 15, and each of the side plates 16, wherein the door panel 14 is operatively disposed to one of the two side panels 16, and the door panel 14 is capable of closing the entrance 103 of the health unit 10 after being operated to relatively close the health space 101, for example, the door panel 14 is pivotally connected to the side panels 16 so that the entrance 103 can be opened or closed by rotating the door panel 14.

It is worth mentioning that at least one plate of two adjacent health units 10 may be a unitary structure, for example, in the preferred example of the animal health monitoring apparatus shown in fig. 1A to 9, the side plates 16 of the two health units 10 located at the bottom may be the same plate, and the bottom plate 11 of the health unit 10 located at the upper portion and the top plate 12 of the health unit 10 located at the lower portion may be the same plate. Alternatively, four of the health units 10 may be independent of each other, wherein four of the health units 10 may be directly adjacently placed to form a "tian" shaped structure, or four of the health units 10 may be adjacently prevented by a supporting device to form a "tian" shaped structure.

Both sides of the cradle unit 20 are slidably provided to each of the side plates 16 of the health unit 10, respectively, so that the cradle unit 20 is drawably provided to the main control space 102 of the health unit 10. Specifically, referring to fig. 1A to 9, the animal health monitoring apparatus includes at least one pair of telescopic rails 40, wherein each of the pair of telescopic rails 40 has a first end portion 41 and a second end portion 42 corresponding to the first end portion 41, wherein the first end portion 41 of the telescopic rail 40 is disposed at the side plate 16 of the health unit 10, and the telescopic rail 40 is held at the main control space 102 of the health unit 10, and the second end portion 42 of the telescopic rail 40 is disposed at the holder unit 20, wherein when the holder unit 20 is drawn, the holder unit 20 can bring the second end portion 42 of the telescopic rail 40 to unfold the telescopic rail 40, in such a manner that the holder unit 20 can be drawn to make a movement relative to the health unit 10, thereby exposing the control unit 30 held by the holding unit 20, wherein the holding unit 20 can press against the second end 42 of the telescopic rail 40 to shorten the telescopic rail 40 when pushing the holding unit 20, in such a way that the holding unit 20 can be held in the main control space 102 of the health unit 10 and close the drawing opening 104 of the health unit 10, thereby holding the control unit 30 held by the holding unit 20 in the main control space 102 of the health unit 10.

Each side of the supporting unit 20 is mounted to the side plate 16 of the health unit 10 by at least one telescopic rail 40, so that after the supporting unit 20 is pulled out of the main control space 102 of the health unit 10 from the drawing opening 104 of the health unit 10, the supporting unit 20 does not separate from the health unit 10 and tilt, thereby ensuring the reliability of the animal health monitoring device during the repair.

That is, in the utility model discloses an animal health monitoring device, every flexible track 40 not only allows the bearing unit 20 to be set up in the master control space 102 of health unit 10 with being pulled, but also after the bearing unit 20 is pulled out the master control space 102 of health unit 10 through the pull mouth 104 of health unit 10, every flexible track 40 can also guarantee that the bearing unit 20 is reliably connected in the health unit 10 to by the support unit 20 is stably supported to predetermineeing the height by health unit 10, thereby the maintainer overhauls by the control unit 30 of bearing unit 20 bearing. In other words, each of the telescopic rails 40 allows the supporting unit 20 to be held in suspension on one side of the health unit 10 to facilitate the service personnel to service the control unit 40 supported by the supporting unit 20.

Further, with continued reference to fig. 1A to 9, the holder unit 20 includes a holder 21 and an operation panel 22 disposed on the holder 21, and a control unit 30 having an installation space 23 formed between the holder 21 and the operation panel 22 and an upward-facing installation opening 24 communicating with the installation space 23, wherein the control unit 30 includes a control body 31 and at least one operation member 32 connected to the control body 31, wherein the control body 31 is mounted on the holder 21 of the holder unit 20 through the installation opening 24 of the holder unit 20, so that the control body 31 is held in the installation space 23 of the holder unit 20, and wherein the operation member 32 is mounted on the operation panel 22 to allow operation by a user.

The second end 42 of each of the telescopic rails 40 is installed at both sides of the support part 21 of the holding unit 20 so as to allow the support part 21 of the holding unit 20 to be pushed into and pulled out of the main control space 102 of the health unit 10 through the drawing opening 104 of the health unit 10, wherein after the support part 21 of the holding unit 20 is pushed into the main control space 102 of the health unit 10 through the drawing opening 104 of the health unit 10, the control body 31 held by the support part 21 is held at the main control space 102 of the health unit 10, and the operation panel 22 of the holding unit 20 closes the drawing opening 104 of the health unit 10, at which time the operation member 32 provided at the operation panel 22 is exposed to the outside of the animal health monitoring apparatus, to allow the user to operate, wherein after the holder portion 21 of the holder unit 20 is pulled out of the main control space 102 of the health unit 10 through the drawing opening 104 of the health unit 10, the control body 31 held by the holder portion 21 is exposed to the outside of the animal health monitoring apparatus to allow a service person to service the control body 31.

It is worth mentioning that the type of the operating element 32 of the control unit 30 is not limited in the animal health monitoring device of the present invention, for example, the operating element 32 of the control unit 30 may be, but not limited to, a button, a touch screen.

The detecting unit 70 is detachably mounted to the receiving portion 21 of the receiving unit 20 to allow a service person to detach the detecting unit 70 from the receiving portion 21 or to mount the detecting unit 70 to the receiving portion 21. Preferably, the supporting part 21 has an installation channel 211, the installation channel 211 is communicated with the installation space 23 of the supporting unit 20, and the detecting unit 70 can be installed on the supporting part 21 and protruded from the installation space 23 of the supporting unit 20 through the installation channel 211 of the supporting part 21.

Specifically, the detecting unit 70 includes a mounting bracket 71 and a detecting portion 72, wherein the mounting bracket 711 has a mounting end 711 and a free end 712 corresponding to the mounting end 711, wherein the detecting portion 72 is disposed at the free end 712 of the mounting bracket 71, and the detecting portion 72 is connected to the control unit 30. When the detecting unit 70 is mounted on the supporting part 21 of the supporting unit 20, the free end 712 of the mounting bracket 71 is allowed to extend from the mounting space 23 of the supporting unit 20 to the outside of the supporting part 21 through the mounting channel 211 of the supporting part 21, and the mounting end 711 of the mounting bracket 71 is mounted on the supporting part 21, for example, but not limited to, the mounting end 711 of the mounting bracket 71 is screwed to the supporting part 21 by screws, so that the free end 712 of the mounting bracket 71 of the detecting unit 70 protrudes from the outside of the supporting part 21, and the detecting part 72 protrudes from the outside of the supporting part 21.

In the animal health monitoring device of the present invention, the detecting portion 72 can detect the health unit 10, the temperature, the humidity, the oxygen concentration, the carbon dioxide concentration, etc. of the health space 101. That is, the detection part 72 of the detection unit 70 may include a temperature sensor, a humidity sensor, an oxygen sensor, a carbon dioxide sensor, etc. for detecting the temperature, humidity, oxygen concentration, carbon dioxide concentration, etc. of the health space 101 of the health unit 10.

With reference to fig. 1A to 9, the health unit 10 further has at least one fluid channel 105, wherein the fluid channel 105 is capable of communicating the health space 101 with the external environment, wherein an aerosolization device is capable of communicating the health space 101 via the fluid channel 105 of the health unit 10 for aerosolization treatment of an animal held in the health space 101 of the health unit 10. It will be appreciated that if it is not desired to administer the aerosol treatment to an animal held in the health space 101 of the health unit 10, the fluid passage 105 of the health unit 10 can be closed to prevent the health space 101 of the health unit 10 from communicating to the external environment via the fluid passage 105 of the health unit 10, thereby rendering the health space 101 of the health unit 10 relatively sealed. Preferably, the fluid passage 105 of the health unit 10 is formed at the door panel 14. Alternatively, the fluid passage 105 of the health unit 10 is formed at the side plate 16. For example, in a preferred example of the animal health monitoring apparatus of the present invention, the fluid passage 105 of the health unit 10 is formed at a lower portion of the door plate 14, as shown in fig. 1A, so that the fluid passage 105 of the health unit 10 communicates with a lower portion of the health space 101 of the health unit 10, so that when the atomization apparatus is used to perform atomization treatment on an animal held in the health space 101 of the health unit 10, atomized gas can be introduced into the health space 101 from the lower portion of the health space 101 of the health unit 10, thereby facilitating the diffusion of the atomized gas in the health space 101 of the health unit 10.

With continued reference to fig. 1A to 9, in this particular example of the animal health monitoring apparatus of the present invention, the environment adjuster 50 is detachably mounted to the health unit 10, for example, the environment adjuster 50 is detachably mounted to the back plate 13 of the health unit 10 as a whole, so that when the environment adjuster 50 malfunctions, a serviceman can quickly replace the environment adjuster 50 to ensure that the animal health monitoring apparatus can continuously work. The environment conditioner 50 may be mounted to the rear plate 13 of the health unit 10 by means of, but not limited to, screw-coupling.

Further, the environment conditioner 50 includes a temperature control portion and a humidity control portion, wherein the temperature control portion and the humidity control portion are respectively and controllably disposed on the control main body 31 of the control unit 30, so as to respectively control the working states of the temperature control portion and the humidity control portion by the control main body 31 of the control unit 30, wherein the temperature control portion and the humidity control portion are respectively communicated with the health space 101 of the health unit 10, so as to adjust the environmental state of the health space 101 of the health unit 10 after the working states of the temperature control portion and the humidity control portion are adjusted.

It is worth mentioning that the type of the temperature control part of the environment conditioner 50 is not limited in the animal health monitoring device as long as it can generate heat. For example, the temperature control part may generate heat sealing and/or cold air, wherein the temperature control part may adjust the temperature of the health space 101 of the health unit 10 in such a manner that the air of the health space 101 of the health unit 10 is convectively exchanged with the external air.

Accordingly, the type of the humidity control part of the environment conditioner 50 is not limited in the animal health monitoring apparatus of the present invention as long as it can generate humidity. For example, the humidity control portion may be a humidifier. In one example of the animal health monitoring apparatus, the humidity control part may directly humidify the health space 101 of the health unit 10 to adjust the humidity of the health space 101 of the health unit 10. In another example of the animal health monitoring apparatus, the moisture generated by the humidity control part may be mixed with the hot or cold wind generated by the temperature control part to humidify the health space 101 of the health unit 10 to adjust the humidity of the health space 101 of the health unit 10.

With continued reference to fig. 1A-9, the animal health monitoring apparatus further comprises at least one circulation unit 60, wherein the circulation unit 60 has a first opening 61, a second opening 62 and a circulation space 63, and the first opening 61 and the second opening 62 are respectively communicated with the circulation space 63. The back plate 13 of the health unit 10 has at least one through hole 131, wherein the through hole 131 communicates the main control space 102 and the outside. The partition 15 of the health unit 10 has at least one exchange passage 151, and the exchange passage 151 communicates the health space 101 and the main control space 102. The circulation unit 60 is installed in the main control space 102 of the health unit 10 in such a manner that the circulation unit 60 is fixed to the rear plate 13 and the partition plate 15 of the health unit 10, respectively, wherein the first opening 61 of the circulation unit 60 corresponds to and communicates with the through opening 131 of the rear plate 13, and wherein the second opening 62 of the circulation unit 60 corresponds to the exchange passage 151 of the partition plate 15. The environment conditioner 50 is installed to the back plate 13 of the health unit 10, and the environment conditioner 50 is communicated with the health space 101 of the health unit 10 through the through port 131 of the back plate 13, the first opening 61 of the circulation unit 60, the circulation space 63, the second opening 62, and the exchange passage 151 of the partition 15 in this order.

Preferably, in this specific example of the animal health monitoring apparatus shown in fig. 1A to 9, the number of the circulation units 60 is two, wherein two of the circulation units 60 are disposed adjacent to each other. Accordingly, the back plate 13 of the health unit 10 has two of the through ports 131, and the partition plate 15 has two of the exchange passages 151.

For convenience of description, one of the two circulation units 60 is defined as a first circulation unit 60a, and the other circulation unit 60 is defined as a second circulation unit 60b, wherein the first circulation unit 60a and the second circulation unit 60b are adjacently disposed, and the first circulation unit 60a and the second circulation unit 60b communicate with the environment conditioner 50 and the health space 101 of the health unit 10, respectively.

The first circulation unit 60a and the second circulation unit 60b respectively have a third opening 64, wherein the third opening 64 of the first circulation unit 60a communicates with the circulation space 63 of the first circulation unit 60a, and the third opening 64 of the second circulation unit 60b communicates with the circulation space 63 of the second circulation unit 60 b.

The detecting unit 70 can be held in the circulation space 63 of the first circulating unit 60a to detect the air quality of the health space 101 of the health unit 10 by detecting the air quality of the circulation space 63 of the first circulating unit 60 a. The cradle unit 20 can move the detecting unit 70 synchronously so that the cradle unit 20 can move the detecting unit 70 from the circulation space 63 of the first circulation unit 60a into the main control space 102 of the health unit 10 through the third opening 64 of the first circulation unit 60a when the cradle unit 20 is drawn, and the cradle unit 20 can move the detecting unit 70 from the main control space 102 of the health unit 10 through the third opening 64 of the first circulation unit 60a and be held in the circulation space 63 of the first circulation unit 60a when the cradle unit 20 is pushed.

Preferably, the third opening 63 of the first circulating unit 60a faces the drawing direction of the cradle unit 20, so that when the cradle unit 20 is drawn, the cradle unit 20 can bring the detecting unit 70 from the circulating space 63 of the first circulating unit 60a into the main control space 102 of the health unit 10 through the third opening 64 of the first circulating unit 60a, and when the cradle unit 20 is pushed, the cradle unit 20 can bring the detecting unit 70 from the main control space 102 of the health unit 10 through the third opening 64 of the first circulating unit 60a and be held in the circulating space 63 of the first circulating unit 60 a.

The animal health monitoring apparatus further comprises a supply unit 80, wherein the supply unit 80 is disposed at the supporting portion 21 of the supporting unit 20, and the supply unit 80 is connected to the control body 31 of the control unit 30, wherein the supply unit 80 can extend to the circulation space 63 of the second circulation unit 60b through the third opening 64 of the second circulation unit 60b to supply oxygen or negative ions, etc. to the health space 101 of the health unit 10 through the circulation space 63 of the second circulation unit 60 b.

Preferably, the supply unit 80 protrudes from the support part 21 of the support unit 20, so that when the support unit 20 is drawn to expose the control body 31 of the control unit 30 to perform maintenance on the control body 31, the supply unit 80 can be synchronously carried out of the circulation space 63 of the second circulation unit 60b by the support part 21 of the support unit 20 to expose the supply unit 80, thereby facilitating maintenance on the supply unit 80. When the holder unit 20 is pushed to hide the control body 31 of the control unit 30 from the main control space 102 of the health unit 10, the supply unit 80 can be synchronously carried by the holder 21 of the holder unit 20 to enter the circulation space 63 of the second circulation unit 60b from the third opening 64 of the second circulation unit 60 b.

With continued reference to fig. 1A to 9, the side plate 16 of the health unit 10 has a ventilation opening 161, wherein the first circulation unit 60a has a fourth opening 65, the fourth opening 65 communicates with the circulation space 63 of the first circulation unit 60a, wherein the first circulation unit 60a is further fixed to the side plate 16 such that the fourth opening 65 of the first circulation unit 60a corresponds to and communicates with the ventilation opening 161 of the side plate 16. The ventilation openings 161 of the side plates 16 can provide emergency ventilation so that the air of the health space 101 of the health unit 10 is exchanged with the external air through the ventilation openings 161 of the side plates 16, thereby securing the safety of the animals in the health space 101 of the health unit 10. For example, in case of power failure, the ventilation opening 161 of the side plate 16 can be opened to communicate with the health space 101 of the health unit 10, thereby exchanging the gas of the health space 101 of the health unit 10 with the external gas to secure the safety of the animal in the health space 101 of the health unit 10; when the oxygen concentration is too low, the ventilation opening 161 of the side plate 16 can be opened to communicate with the health space 101 of the health unit 10, so that the gas of the health space 101 of the health unit 10 is exchanged with the external gas to ensure the safety of the animal in the health space 101 of the health unit 10; when the concentration of carbon dioxide is too high, the ventilation opening 161 of the side plate 16 can be opened to communicate with the health space 101 of the health unit 10, so that the gas of the health space 101 of the health unit 10 is exchanged with the external gas to secure the safety of the animal in the health space 101 of the health unit 10.

Fig. 7 to 9 show a process in which a serviceman overhauls the animal health monitoring apparatus. Specifically, when the animal health monitoring apparatus needs to be serviced, a service person may pull the supporting unit 20 so that the supporting unit 20 drives each of the telescopic rails 40 to extend, thereby gradually exposing the supporting unit 20 from the main control space 102 of the health unit 10, and at this time, the control unit 30 supported by the supporting unit 20 is exposed, so that the service person can service the control unit 30. Meanwhile, the detecting unit 70 is driven by the supporting unit 20 to enter the main control space 102 of the health unit 10 from the circulating space 63 of the first circulating unit 60a through the third opening 64 of the first circulating unit 60 a. If the inspection person needs to inspect the inspection unit 70, the inspection person can detach the mounting bracket 711 of the inspection unit 70 from the supporting portion 21 of the supporting unit 20 to take out the inspection unit 70 and inspect it.

It is worth mentioning that after the supporting unit 20 is drawn out of the main control space 102 of the health unit 10, each of the telescopic rails 40 supports the supporting unit 20 to a predetermined height on both sides of the supporting unit 20, respectively, reliably and stably, thereby facilitating the maintenance of the control unit 30 supported by the supporting unit 20 and the sensing unit 70 provided to the supporting unit 20 by the maintenance personnel. That is, even if the holding unit 20 is exposed to the outside of the main control space 102 of the health unit 10, each of the telescopic rails 40 can stably maintain the holding unit 20 at a predetermined height, thereby facilitating a service worker to service the control unit 30 held by the holding unit 20 and the sensing unit 70 provided to the holding unit 20.

After the inspection personnel has inspected the control unit 30 supported by the support unit 20 and the detection unit 70 provided in the support unit 20, the support unit 20 is pushed so that the support unit 20 presses each of the telescopic rails 40, and thus the support unit 20 hides the control unit 30 in the main control space 102 of the health unit 10, and the operation panel 22 of the support unit 20 can close the drawing opening 104 of the health unit 10. Meanwhile, the sensing unit 70 mounted to the susceptor 20 of the seating unit 20 enters from the main control space 102 of the health unit 10 through the third opening 64 of the first circulation unit 60a and is held in the circulation space 63 of the first circulation unit 60a, so that the sensing unit 70 senses the air quality of the health space 101 of the health unit 10 by sensing the air quality of the first circulation unit 60a at a later time.

That is, according to another aspect of the present invention, the present invention further provides an air quality detecting method of the animal health monitoring apparatus, wherein the air quality detecting method includes the steps of:

(a) allowing the environment conditioner 50 to adjust the air quality of the health space 101 of the health unit 10 through the circulation space 63 of the circulation unit 60; and

(b) the detection unit 70 is held in the circulation space 63 of the circulation unit 60 to detect the air quality of the health space 101 by detecting the air quality of the circulation space 63.

Further, the step (b) includes the steps of:

(b.1) drawing the holder unit 20 to bring the detecting unit 70 from the circulation space 63 into the main control space 102 of the health unit 10 through the third opening 64 of the circulation unit 60; and

(b.2) pushing the seating unit 20 to bring the sensing unit 70 from the main control space 102 of the health unit 10 into and held in the circulation space 64 of the circulation unit 60 through the third opening 64 of the circulation unit 60.

Preferably, in the above method, the circulation unit 60 is fixed to the main control space 102 of the health unit 10 and the cradle unit 20 is drawably installed to the main control space 102 in such a manner that the third opening 64 of the circulation unit 60 faces the drawing direction of the cradle unit 20.

Fig. 10 to 11B show another preferred example of the animal health monitoring apparatus, different from the animal health monitoring apparatus shown in fig. 1A to 9, in the preferred example of the animal health monitoring apparatus shown in fig. 10 to 11B, the animal health monitoring apparatus includes one said health unit 10, two said holding units 20, two said control units 30 and two said environment conditioners 50, wherein the health unit 10 has one said health space 101 and two said main control spaces 102 passing through the health space 101, wherein each said control unit 30 is provided to each said holding unit 20, each said holding unit 20 is provided to each said main control space 102 of the health unit 10 in a drawable manner, and the two said holding units 20 are independent from each other, wherein each of the environment conditioners 50 is connected to each of the control units 30 and the health space 101 communicating with the health unit 10, respectively.

In this preferred example of the animal health monitoring apparatus shown in fig. 10 to 11B, two of the environmental regulators 50 can be respectively operated to regulate the environmental state of the health space 101 of the health unit 10. Alternatively, two of the environment conditioners 50 may be operated simultaneously to adjust the environmental state of the health space 101 of the health unit 10.

Further, the health unit 10 includes two door panels 14, wherein each door panel 14 is connected to each side plate 16, so that the two door panels 14 can cooperate with each other to close the entrance/exit 103 of the health unit 10.

Further, the animal health monitoring apparatus includes a partition plate 90, wherein the partition plate 90 is detachably mounted to the health unit 10 to partition the health space 101 of the health unit 10. When the partition plate 90 is taken out of the health space 101 of the health unit 10, the two environment conditioners 50 can communicate with the same health space 101, and at this time, the animal health monitoring apparatus can perform rehabilitation on a large animal. When the partition plate 90 is installed in the health unit 10 to partition the health space 101 of the health unit 10 into two independent health spaces 101, each of the environment conditioners 101 can partition and communicate with each of the separated health spaces 101, and at this time, the animal health monitoring apparatus can recover two small animals. By providing the partition plate 90 to adjust the size of the health space 101 of the health unit 10, the flexibility of the animal health monitoring apparatus when being used can be improved, which is particularly useful for use in animal medical institutions.

Of course, it should be understood by those skilled in the art that the examples of the animal health monitoring device shown in fig. 1A to 11B are only examples for disclosing and describing the present invention, for example, in other examples of the present invention, the animal health monitoring device may further include more of the health unit 10, the supporting unit 20, the control unit 30, and the environmental conditioner 50, i.e., the health device of the present invention includes at least one of the health unit 10, at least one of the supporting unit 20, at least one of the control unit 30, and at least one of the environmental conditioner 50.

It will be appreciated by persons skilled in the art that the above embodiments are only examples, wherein features of different embodiments may be combined with each other to obtain embodiments which are easily imaginable in accordance with the disclosure of the invention, but which are not explicitly indicated in the drawings.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (30)

1. Animal health monitoring device, its characterized in that includes at least a control unit, an environmental conditioner at least, a detecting element and an at least healthy unit, wherein the environmental conditioner with the detecting element is connected respectively in the control unit, wherein the healthy unit has an at least healthy space, wherein the environmental conditioner set up in the healthy unit with communicate in the healthy space for adjust the air quality in healthy space, wherein the detecting element is set up can detect the air quality in healthy space.

2. The animal health monitoring device of claim 1, further comprising at least one support unit, wherein the control unit and the detection unit are respectively disposed on the support unit, wherein the health unit further comprises a master control space, and the support unit is drawably disposed in the master control space of the health unit.

3. The animal health monitoring device of claim 2, wherein the sensing unit is removably mounted to the racking unit.

4. The animal health monitoring device of claim 2, further comprising a circulation unit, wherein the circulation unit has a circulation space and a first opening, a second opening and a third opening respectively communicating with the circulation space, wherein the health unit has at least one exchange passage and at least one port, the exchange passage communicates with the health space and the main control space, the port communicates with the main control space and the outside, wherein the circulation unit is installed in the main control space of the health unit, and the first opening of the circulation unit corresponds to and communicates with the port of the health unit, the second opening of the circulation unit corresponds to and communicates with the exchange passage of the health unit, the third opening of the circulation unit faces the support unit, wherein the environmental regulator communicates with the port of the health unit, wherein the detection unit is disposed to enter through the third opening of the circulation unit and to be held in the circulation space of the circulation unit.

5. The animal health monitoring device of claim 3, further comprising a circulation unit, wherein the circulation unit has a circulation space and a first opening, a second opening and a third opening respectively communicating with the circulation space, wherein the health unit has at least one exchange passage and at least one port, the exchange passage communicates with the health space and the main control space, the port communicates with the main control space and the outside, wherein the circulation unit is installed in the main control space of the health unit, and the first opening of the circulation unit corresponds to and communicates with the port of the health unit, the second opening of the circulation unit corresponds to and communicates with the exchange passage of the health unit, the third opening of the circulation unit faces the support unit, wherein the environmental regulator communicates with the port of the health unit, wherein the detection unit is disposed to enter through the third opening of the circulation unit and to be held in the circulation space of the circulation unit.

6. The animal health monitoring device of claim 4, wherein the master space is located at an upper portion of the health space.

7. The animal health monitoring device of claim 5, wherein the master space is located at an upper portion of the health space.

8. The animal health monitoring device of claim 6, wherein the health unit comprises at least one inlet and outlet opening and at least one drawing opening, the inlet and outlet opening is connected to the health space, the drawing opening is connected to the main control space, and the supporting unit is drawably disposed in the main control space of the health unit through the drawing opening of the health unit.

9. The animal health monitoring device of claim 7, wherein the health unit comprises at least one inlet and outlet opening and at least one drawing opening, the inlet and outlet opening is connected to the health space, the drawing opening is connected to the main control space, and the supporting unit is drawably disposed in the main control space of the health unit through the drawing opening of the health unit.

10. The animal health monitoring device of claim 8, wherein the access opening and the withdrawal opening of the health unit are located on a same side of the health unit.

11. The animal health monitoring device of claim 9, wherein the access opening and the withdrawal opening of the health unit are located on a same side of the health unit.

12. The animal health monitoring device of any one of claims 4 to 11, wherein the circulation unit further has a fourth opening communicating with the circulation space, wherein the health unit has a vent opening, the fourth opening of the circulation unit corresponds to the vent opening of the health unit, and the fourth opening of the circulation unit can selectively communicate with or close the vent opening.

13. The animal health monitoring device of any of claims 1-11, wherein the environmental regulator is removably mounted to the health unit.

14. The animal health monitoring device of claim 12, wherein the environmental regulator is removably mounted to the health unit.

15. The animal health monitoring device of any one of claims 1 to 11, wherein the animal health monitoring device comprises two of the control units, two of the environmental regulators, two of the detection units, and one of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units are respectively disposed at different sides of the health unit such that each of the environmental regulators is respectively connected to different areas of the health space of the health unit, and such that each of the detection units is disposed to be capable of detecting air quality of different areas of the health space of the health unit.

16. The animal health monitoring device of claim 12, wherein the animal health monitoring device comprises two of the control units, two of the environmental regulators, two of the detection units, and one of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units are respectively disposed at different sides of the health unit such that each of the environmental regulators is respectively connected to different areas of the health space of the health unit, and such that each of the detection units is disposed to be capable of detecting air quality at different areas of the health space of the health unit.

17. The animal health monitoring device of claim 13, wherein the animal health monitoring device comprises two of the control units, two of the environmental regulators, two of the detection units, and one of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units are respectively disposed at different sides of the health unit such that each of the environmental regulators is respectively connected to different areas of the health space of the health unit, and such that each of the detection units is disposed to be capable of detecting air quality at different areas of the health space of the health unit.

18. The animal health monitoring device of claim 14, wherein the animal health monitoring device comprises two of the control units, two of the environmental regulators, two of the detection units, and one of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units are respectively disposed at different sides of the health unit such that each of the environmental regulators is respectively connected to different areas of the health space of the health unit, and such that each of the detection units is disposed to be capable of detecting air quality at different areas of the health space of the health unit.

19. The animal health monitoring apparatus of any one of claims 1 to 11, wherein the animal health monitoring apparatus comprises two of the control units, two of the environmental regulators, two of the detection units, and two of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units are respectively provided to each of the health units, and the two health units are adjacently provided.

20. The animal health monitoring device of claim 12, wherein the animal health monitoring device comprises two of the control units, two of the environmental regulators, two of the detection units, and two of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units are respectively disposed at each of the health units, and the two of the health units are adjacently disposed.

21. The animal health monitoring device of claim 13, wherein the animal health monitoring device comprises two of the control units, two of the environmental regulators, two of the detection units, and two of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units are respectively disposed at each of the health units, and the two of the health units are adjacently disposed.

22. The animal health monitoring device of claim 14, wherein the animal health monitoring device comprises two of the control units, two of the environmental regulators, two of the detection units, and two of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units are respectively disposed at each of the health units, and the two of the health units are adjacently disposed.

23. The animal health monitoring device of any one of claims 1 to 11, wherein the animal health monitoring device comprises four of the control units, four of the environmental regulators, four of the detection units, and four of the health units, wherein each of the control units, each of the environmental regulators, and each of the detection units is respectively provided to each of the health units, and four of the health units are provided in a shape of a "tian".

24. The animal health monitoring device of claim 12, comprising four said control units, four said environmental regulators, four said detection units and four said health units, wherein each said control unit, each said environmental regulator and each said detection unit is disposed at each said health unit, respectively, and four said health units are disposed in a "tian" shape.

25. The animal health monitoring device of claim 13, comprising four of said control units, four of said environmental regulators, four of said detection units, and four of said health units, wherein each of said control units, each of said environmental regulators, and each of said detection units is disposed at each of said health units, respectively, and four of said health units are disposed in a "tian" shape.

26. The animal health monitoring device of claim 14, comprising four of said control units, four of said environmental regulators, four of said detection units, and four of said health units, wherein each of said control units, each of said environmental regulators, and each of said detection units is disposed at each of said health units, respectively, and four of said health units are disposed in a "tian" shape.

27. The animal health monitoring device of claim 15, further comprising a partition plate, wherein the partition plate is detachably disposed to the health unit to partition the health space of the health unit into two health spaces, wherein each of the control unit, each of the environment conditioner, and each of the detection units respectively correspond to the health spaces after being partitioned.

28. The animal health monitoring device of claim 16, further comprising a partition plate, wherein the partition plate is detachably disposed to the health unit to partition the health space of the health unit into two health spaces, wherein each of the control unit, each of the environment conditioner, and each of the detection units respectively correspond to the health spaces after being partitioned.

29. The animal health monitoring device of claim 17, further comprising a partition plate, wherein the partition plate is detachably disposed to the health unit to partition the health space of the health unit into two health spaces, wherein each of the control unit, each of the environment conditioner, and each of the detection units respectively correspond to the health spaces after being partitioned.

30. The animal health monitoring device of claim 18, further comprising a partition plate, wherein the partition plate is detachably disposed to the health unit to partition the health space of the health unit into two health spaces, wherein each of the control unit, each of the environment conditioner, and each of the detection units respectively correspond to the health spaces after being partitioned.

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