CN112369343B - Cat health condition monitoring method - Google Patents

Abstract

According to the health condition monitoring method for the cat, the weight data, the toilet times, the toilet time and the defecation amount of the cat are acquired, the weight change rate, the time change rate, the duration change rate and the defecation amount change rate are calculated, and the health condition of the cat is judged according to the weight change rate, the time change rate, the duration change rate and the defecation amount change rate.

Description

Cat health condition monitoring method

Technical Field

The invention belongs to the technical field of pet health detection, and particularly relates to a method for monitoring health conditions of cats.

Background

As the living standard of people is gradually improved, more and more people are willing to raise pets in leisure time to increase the living quality of the people. As the pet market grows larger, there are also a number of problems.

Because the owner of the pet needs to work in the daytime, the owner of the pet cannot accurately master the health condition of the pet in many times. Meanwhile, the weight and defecation conditions of the pet directly reflect the health condition of the pet, but the weight and defecation measurement of each pet is very complicated, and most pet owners cannot master the data of the pet in time. There is therefore a need for a method to facilitate the detection of health of a cat.

Disclosure of Invention

1. Technical problems to be solved by the invention

The invention aims to solve the problem that the health condition of the existing cat is difficult to monitor conveniently.

2. Technical scheme

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

according to the health condition monitoring method for the cat, the weight data, the toilet times, the toilet time and the defecation amount of the cat are acquired, the weight change rate, the time change rate, the duration change rate and the defecation amount change rate are calculated, and the health condition of the cat is judged according to the weight change rate, the time change rate, the duration change rate and the defecation amount change rate.

Preferably, the weight data comprise the daily average weight w1, the seven-day average weight w2, and the seven-day average weight w3 of cats of the same type; the number of toilet times comprises t1 of toilet times in the same day, t2 of seven-day average toilet times, and t3 of seven-day average toilet times of cats in the same type; the toilet flushing time length comprises the average toilet flushing time length d1 of the same day, the average toilet flushing time length d2 of seven days and the average toilet flushing time length d3 of cats in the same type on seven days; the defecation amount in the toilet comprises the average defecation amount b1 in the same day, the average defecation amount b2 in seven days and the average defecation amount b3 in seven days for cats of the same type.

Preferably, the body weight change rate comprises a self-contrast body weight change rate w% and a global contrast body weight change rate w'%; the frequency change rate comprises a self-comparison frequency change rate t% and a global comparison frequency change rate t'%; the duration change rate comprises a self-contrast duration change rate d% and a global contrast duration change rate d'%; the defecation quantity change rate comprises a self-comparison defecation quantity change rate b% and a global comparison defecation quantity change rate b'%.

Preferably, the self-contrast body weight change rate w% ═ s1((w1-w2)/w2) × 100%;

the self-contrast time change rate t% ═ s2((t1-t2)/t2) × 100%;

the self-contrast duration change rate d% ═ s3((d1-d2)/d2) × 100%;

the self-contrast defecation amount change rate b% ═ s4((b1-b2)/b2) × 100%;

wherein s1, s2, s3 and s4 are calculation correction coefficients;

when the numerical values of w%, t%, d% and b% are all 0-5%, judging that the health condition of the cat is good;

when at least one of the values of w%, t%, d% and b% is 5-10%, judging that the health condition of the cat is general and needing attention;

when at least one of the values of w%, t%, d% and b% is greater than 10%, it is determined that the health condition of the cat is abnormal and needs to be checked in time.

Preferably, the global contrast body weight rate of change w '% ═ s 1' ((w1-w3)/w3) × 100%;

the global contrast ratio change rate t '% ═ s 2' ((t1-t3)/t3) × 100%;

the global contrast duration change rate d '% ═ s 3' ((d1-d3)/d3) × 100%;

the global comparative defecation amount change rate b '% = s 4' ((b1-b3)/b3) × 100%;

wherein s1 ', s 2', s3 'and s 4' are calculation correction coefficients;

when the numerical values of w '%, t'%, d '%, and b'% are all 0-10%, the health condition of the cat is judged to be good;

when at least one of the values of w '%, t'%, d '%, and b'% is 10-20%, the health condition of the cat is judged to be general and needs attention;

when at least one of the values w '%, t'%, d '%, and b'% is greater than 20%, it is determined that the health condition of the cat is abnormal and needs to be checked in time.

Preferably, the data acquisition needs to be performed by the following devices: the equipment comprises a base and an inner bin, wherein the inner bin is connected with the base through a driving assembly, a motor of the driving assembly is connected with a current sensor, an elastic protective layer is arranged on the side wall of an opening of the inner bin, and a crescent baffle is further arranged at the opening of the inner bin; the excrement collecting bin is arranged in the base, an outlet of the inner bin is communicated with the excrement collecting bin, a handle is arranged on the outer wall of the excrement collecting bin, a plurality of air holes are formed in the periphery of the handle on the outer wall of the excrement collecting bin, and a deodorization unit is arranged in the excrement collecting bin; the bottom shell of the base is internally provided with four weight sensors for weighing the excrement collecting bin, the four weight sensors are uniformly distributed at four corners of the excrement collecting bin, and contact surfaces of the four weight sensors and the excrement collecting bin are positioned on a uniform horizontal plane; the bottom of the base is provided with four weight sensors, and the bottom surfaces of the weight sensors are positioned on a uniform horizontal plane; the outer side of the inner bin is wrapped with a top cover, the top cover is fixedly connected with the base, and an inner bin support is fixedly connected with the base and is arranged at the bottom of the inner bin.

Preferably, still include PCB mainboard subassembly and sensor module, PCB mainboard subassembly includes the PCB board and solidifies signal collector, timing administrative unit and wifi unit above that, sensor module all with PCB board electricity is connected, it includes infrared thermal sensor, light curtain receiving transducer and weight sensor the front of base be equipped with the touch panel that PCB board electricity is connected be equipped with on the front panel with the on-off control integrated board that PCB board electricity is connected.

Preferably, the inner bin is a hollow spherical bin, the bottom of the inner bin is arranged in the inner bin containing cavity of the base, and the outer wall surface of the inner bin is provided with tooth rings distributed along the circumferential direction of the inner bin; the driving component is meshed with the teeth to drive the inner bin to rotate clockwise or anticlockwise in the inner bin containing cavity.

Preferably, infrared thermal sensor is located in the top cover, light curtain send sensor with light curtain receiving sensor all is in the top in collection just storehouse, weight sensor is in the bottom in collection just storehouse and/or the bottom of base, touch panel is located the rear side of on-off control integrated board, and the two are corresponding, infrared thermal sensor is formed by temperature and humidity sensor, light sensor and the integration of LED lighting unit mutually.

Preferably, the driving assembly comprises a motor and a transmission gear connected with the motor, the motor is electrically connected with the PCB, and the transmission gear is engaged with the corresponding teeth located in the through hole region, so as to drive the inner bin to rotate clockwise or counterclockwise in the inner bin accommodating cavity under the driving of the motor; the motor is further connected with a Hall sensor, and the Hall sensor is further electrically connected with the PCB.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

according to the health condition monitoring method for the cat, the weight data, the toilet-taking times, the toilet-taking duration and the defecation amount of the cat are obtained, the weight change rate, the time change rate, the duration change rate and the defecation amount change rate are calculated, and the health condition of the cat is judged according to the weight change rate, the time change rate, the duration change rate and the defecation amount change rate.

Drawings

FIG. 1 is a front view of the apparatus of the present embodiment;

FIG. 2 is a schematic structural diagram of a bottom case of the apparatus of the present embodiment;

FIG. 3 is an exploded view of the apparatus of the present embodiment;

fig. 4 is a connection block diagram of the PCB board of the apparatus of the present embodiment.

The reference numerals in the schematic drawings illustrate:

1. a top cover; 2. an infrared thermal sensor; 3. an inner bin; 4. an inner bin support; 5. a drive assembly; 6. a Hall sensor; 7. a base; 8. a touch panel; 9. a light curtain transmitting sensor; 10. a light curtain receiving sensor; 11. a weight sensor; 12. a bottom case; 13. a PCB board; 14. a deodorizing unit; 15. a switch control integration board; 16. an excrement collecting bin; 17. a pedal; 18. a front panel; 19. a signal collector; 20. a timing management unit; 21. a temperature and humidity sensor; 22. a wifi unit; 23. a dental ring; 24. an inner bin cavity; 25. a light-sensitive sensor; 26. an LED illumination unit; 27. an opening; 28. a motor; 29. a current sensor; 31. a protective layer; 32. a baffle plate; 33. a handle.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in many different forms and are not limited to the embodiments described herein, but rather are provided for the purpose of providing a more thorough disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present; when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present; the terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

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

Example 1

Referring to the attached drawings 1-4, the method for monitoring the health condition of the cat obtains the weight data of the cat, the times of using the cat, the time of using the cat and the defecation amount of the cat, calculates the weight change rate, the time change rate and the defecation amount change rate, judges the health condition of the cat according to the weight change rate, the time change rate and the defecation amount change rate, and can conveniently and accurately help an owner to know the health condition of the cat in time.

The weight data comprise the average weight w1 in the day, the average weight w2 in seven days and the average weight w3 in seven days of cats in the same type; the number of times of going to toilet includes t1, t2, t 3; the toilet time length comprises the average toilet time length d1 in the same day, the average toilet time length d2 in seven days and the average toilet time length d3 in seven days for cats of the same type; the defecation amount in the toilet comprises the average defecation amount b1 in the day, the average defecation amount b2 in seven days and the average defecation amount b3 in seven days for cats of the same type.

The body weight change rate comprises a self-contrast body weight change rate w% and a global contrast body weight change rate w'%; the frequency change rate comprises a self-comparison frequency change rate t% and a global comparison frequency change rate t'%; the duration change rate comprises a self-contrast duration change rate d% and a global contrast duration change rate d'%; the defecation quantity change rate comprises a self-comparison defecation quantity change rate b% and a global comparison defecation quantity change rate b'%.

The self-contrast rate of body weight change w% ═ s1((w1-w2)/w2) × 100%;

the self-contrast time change rate t% ═ s2((t1-t2)/t2) × 100%;

the self-contrast time-length change rate d% ═ s3((d1-d2)/d2) × 100%;

the self-contrast defecation amount change rate b% ═ s4((b1-b2)/b2) × 100%;

wherein s1, s2, s3 and s4 are calculation correction coefficients;

when the numerical values of w%, t%, d% and b% are all 0-5%, judging that the health condition of the cat is good;

when at least one of the values of w%, t%, d% and b% is 5-10%, judging that the health condition of the cat is general and needs attention;

when at least one of the values of w%, t%, d% and b% is more than 10%, the health condition of the cat is judged to be abnormal, and timely examination is needed.

The global contrast body weight change rate w '% ═ s 1' ((w1-w3)/w3) × 100%;

the global contrast ratio change rate t '% ═ s 2' ((t1-t3)/t3) × 100%;

the global contrast duration change rate d '% ═ s 3' ((d1-d3)/d3) × 100%;

the global comparative defecation amount change rate b '% = s 4' ((b1-b3)/b3) × 100%;

wherein s1 ', s 2', s3 'and s 4' are calculation correction coefficients;

when the numerical values of w '%, t'%, d '%, and b'% are all 0-10%, the health condition of the cat is judged to be good;

when at least one of the values of w '%, t'%, d '%, and b'% is 10-20%, the health condition of the cat is judged to be general and needs attention;

when at least one of the values w '%, t'%, d '%, and b'% is greater than 20%, it is determined that the health condition of the cat is abnormal and needs to be checked in time.

Data acquisition needs to be performed by the following devices: the equipment comprises a base 7 and an inner bin 3, wherein the inner bin 3 is connected with the base 7 through a driving component 5, a motor 28 of the driving component 5 is connected with a current sensor 29, an elastic protective layer 31 is arranged on the side wall of an opening of the inner bin 3, and a crescent-shaped baffle 32 is also arranged at the opening of the inner bin 3; the base 7 is internally provided with a feces collection bin 16, the inner bin 3 is provided with an outlet communicated with the feces collection bin 16, the outer wall of the feces collection bin 16 is provided with a handle 33, the outer wall of the feces collection bin 16 is provided with a plurality of air holes around the handle 33, and the feces collection bin 16 is internally provided with a deodorization unit 14; a bottom shell 12 of the base 7 is internally provided with four weight sensors 11 for weighing the excrement collecting bin 16, the weight sensors 11 are uniformly distributed at four corners of the excrement collecting bin 16, and contact surfaces of the four weight sensors 11 and the excrement collecting bin 16 are positioned on a uniform horizontal plane; the bottom of the base 7 is provided with four weight sensors 11, and the bottom surfaces of the weight sensors 11 are positioned on a uniform horizontal plane; the outer side of the inner bin 3 is wrapped with a top cover 1, the top cover 1 is fixedly connected with a base 7, and an inner bin support 4 and the base 7 are fixedly connected to the bottom of the inner bin 3.

Still include PCB mainboard subassembly and sensor module, PCB mainboard subassembly includes PCB board 13 and solidifies signal collector 19, timing administrative unit 20 and wifi unit 22 above that, sensor module all with PCB board 13 electricity is connected, it includes infrared thermal sensor 2, light curtain transmitting transducer 9, light curtain receiving transducer 10 and weighing sensor 11 the front of base 7 be equipped with touch panel 8 that PCB board 13 electricity is connected be equipped with on front panel 18 with the on-off control integrated board 15 that PCB board 13 electricity is connected.

The inner bin 3 is a hollow spherical bin, the bottom of the inner bin is arranged in an inner bin containing cavity 24 of the base 7, and a tooth ring 23 distributed along the circumferential direction of the outer wall surface of the inner bin 3 is arranged; the driving component 5 is engaged with the teeth to drive the inner chamber 3 to rotate clockwise or counterclockwise in the inner chamber cavity 24.

Infrared thermal sensor 2 is located in top cover 1, light curtain send sensor 9 with light curtain receiving sensor 10 all is in the top of collection just storehouse 16, weight sensor 11 is in the bottom of collection just storehouse 16 and/or the bottom of base 7, touch panel 8 is located the rear side of on-off control integrated board 15, and the two are corresponding, infrared thermal sensor 2 is formed by temperature and humidity sensor 21, light sensor 25 and the integration of LED lighting unit 26 mutually.

The driving component 5 comprises a motor 28 and a transmission gear connected with the motor 28, the motor 28 is electrically connected with the PCB 13, and the transmission gear is engaged with a corresponding tooth located in the through hole region, so as to drive the inner cavity 3 to rotate clockwise or counterclockwise in the inner cavity 24 under the driving of the motor 28; the motor 28 is also connected with the hall sensor 6, and the hall sensor 6 is also electrically connected with the PCB 13.

The above-mentioned embodiments only express a certain implementation mode of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention; it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which are within the protection scope of the present invention; therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (5)

1. A health condition monitoring method for a cat is characterized in that: acquiring weight data, toilet-taking times, toilet-taking duration and toilet-taking defecation amount of the kites, calculating weight change rate, time change rate, duration change rate and defecation amount change rate, and judging health conditions of the kites according to the weight change rate, the time change rate, the duration change rate and the defecation amount change rate;

the weight data comprise the average weight w1 in the day, the average weight w2 in seven days and the average weight w3 in seven days of cats in the same type; the number of times of going to toilet includes t1, t2, t 3; the toilet flushing time length comprises the average toilet flushing time length d1 in the same day, the average toilet flushing time length d2 in seven days and the average toilet flushing time length d3 in seven days of the same type of cats; the defecation amount in the toilet comprises the average defecation amount b1 in the day, the average defecation amount b2 in seven days and the average defecation amount b3 in seven days for cats of the same type;

data acquisition needs to be carried out through intelligent cat litter box: the intelligent cat litter basin comprises a base (7) and an inner bin (3), wherein the inner bin (3) is connected with the base (7) through a driving assembly (5), a motor (28) of the driving assembly (5) is connected with a current sensor (29), an excrement collecting bin (16) is arranged in the base (7), an outlet of the inner bin (3) is communicated with the excrement collecting bin (16), a weight sensor (11) used for weighing the excrement collecting bin (16) is arranged in a bottom shell (12) of the base (7), four weight sensors (11) are uniformly distributed at four corners of the excrement collecting bin (16), and contact surfaces of the four weight sensors (11) and the excrement collecting bin (16) are located on the same horizontal plane; the bottom of the base (7) is provided with four weight sensors (11), and the bottom surfaces of the weight sensors (11) are positioned on the same horizontal plane; the outer side of the inner bin (3) is wrapped with a top cover (1), the top cover (1) is fixedly connected with a base (7), and an inner bin support (4) is further arranged at the bottom of the inner bin (3) and fixedly connected with the base (7);

the body weight change rate comprises a self-comparison body weight change rate w% and a global comparison body weight change rate w'%; the frequency change rate comprises a self-comparison frequency change rate t% and a global comparison frequency change rate t'%; the duration change rate comprises a self-contrast duration change rate d% and a global contrast duration change rate d'%; the defecation quantity change rate comprises a self-comparison defecation quantity change rate b% and a global comparison defecation quantity change rate b';

the self-contrast rate of weight change w% = s1((w1-w2)/w2) × 100%;

the self-contrast time change rate t% = s2((t1-t2)/t2) × 100%;

the self-contrast time-length rate of change d% = s3((d1-d2)/d2) × 100%;

the rate of change in self-contrast defecation amount b% = s4((b1-b2)/b2) × 100%;

wherein s1, s2, s3 and s4 are calculation correction coefficients;

when the numerical values of w%, t%, d% and b% are all 0-5%, judging that the health condition of the cat is good;

when at least one of the values of w%, t%, d% and b% is 5-10%, judging that the health condition of the cat is general and needs attention;

when at least one of the values of w%, t%, d% and b% is more than 10%, judging that the health condition of the cat is abnormal and needing to be checked in time;

the global contrast body weight change rate w '% = s 1' ((w1-w3)/w3) × 100%;

the global contrast ratio change rate t '% = s 2' ((t1-t3)/t3) × 100%;

the global contrast duration change rate d '% = s 3' ((d1-d3)/d3) × 100%;

the global comparative defecation amount change rate b '% = s 4' ((b1-b3)/b3) × 100%;

wherein s1 ', s 2', s3 'and s 4' are calculation correction coefficients;

when the numerical values of w '%, t'%, d '%, and b'% are all 0-10%, the health condition of the cat is judged to be good;

when at least one of the values of w '%, t'%, d '%, and b'% is 10-20%, the health condition of the cat is judged to be general and needs attention;

when at least one of the values w '%, t'%, d '%, and b'% is greater than 20%, it is determined that the health condition of the cat is abnormal and needs to be checked in time.

2. The health condition monitoring method for the kitty according to claim 1, wherein an elastic protective layer (31) is arranged on the side wall of the opening of the inner chamber (3), and a crescent-shaped baffle (32) is further arranged at the opening of the inner chamber (3); the outer wall of the excrement collecting bin (16) is provided with a handle (33), a plurality of air holes are formed in the outer wall of the excrement collecting bin (16) around the handle (33), and a deodorization unit (14) is arranged in the excrement collecting bin (16).

3. The method for monitoring health status of cats according to claim 2, wherein the method comprises: intelligence cat litter basin still includes PCB mainboard subassembly and sensor assembly, PCB mainboard subassembly includes PCB board (13) and solidifies signal collector (19), timing administrative unit (20) and wifi unit (22) above that, sensor assembly all with PCB board (13) electricity is connected, it includes infrared thermal sensor (2), light curtain sensor (9), light curtain receiving transducer (10) and weight sensor (11) the front of base (7) be equipped with touch panel (8) that PCB board (13) electricity is connected, the front of base (7) is equipped with front panel (18) be equipped with on front panel (18) with on-off control integrated board (15) that PCB board (13) electricity is connected.

4. The method of claim 3, wherein the health status of the kitty is as follows: the inner bin (3) is a hollow spherical bin, the bottom of the inner bin is arranged in an inner bin containing cavity (24) of the base (7), and a tooth ring (23) distributed along the circumferential direction of the outer wall surface of the inner bin (3) is arranged; the driving component (5) is meshed with the tooth ring (23) to drive the inner bin (3) to rotate clockwise or anticlockwise in the inner bin accommodating cavity (24).

5. The method for monitoring health status of kittens as claimed in claim 4, wherein the method comprises the steps of: infrared thermal sensor (2) are located in top cover (1), light curtain send sensor (9) with light curtain receiving sensor (10) all are in the top of just storehouse of collection (16), weight sensor (11) are in the bottom in just storehouse of collection (16), touch panel (8) are located the rear side of on-off control integrated board (15) and the two is corresponding, infrared thermal sensor (2) are formed by temperature and humidity sensor (21), light sensor (25) and LED lighting unit (26) integration mutually.

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