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CN-120436917-B - Health care bed with negative oxygen ion generation function and control method

CN120436917BCN 120436917 BCN120436917 BCN 120436917BCN-120436917-B

Abstract

The invention discloses a health care bed with a negative oxygen ion generation function and a control method, and relates to the technical field of negative oxygen ion physiotherapy equipment, comprising a bed body, a control box body, a negative oxygen ion generation module, a temperature and humidity regulation module, a bed board inclination regulation mechanism, an air quality monitoring module, an exhaust module and a human body state monitoring module; the control box body is internally provided with a main controller, the negative oxygen ion generation module comprises a high-pressure negative ion generator, a low-pressure negative ion generator, an ecological negative ion chip and an airflow guide assembly, the high-pressure negative ion generator and the low-pressure negative ion generator are arranged at intervals along the length direction of the bed body and are communicated with the space of the bed body through the airflow guide assembly, the ecological negative ion chip is integrated on the inner wall of an airflow channel of the airflow guide assembly, before a user lies on the bed body, air is purified in advance, dust is removed, and the temperature, humidity and the concentration of negative oxygen ions are regulated, so that the whole space of the bed body forms a fresh environment rapidly.

Inventors

  • MA MING
  • LIAO YONGBO

Assignees

  • 四川隆航科技有限公司

Dates

Publication Date
20260508
Application Date
20250519

Claims (9)

  1. 1. The healthy and healthy bed with the negative oxygen ion generation function is characterized by comprising a bed body (1), a control box body (2), a negative oxygen ion generation module (3), a temperature and humidity regulation module (4), a bed board inclination adjustment mechanism (5), an air quality monitoring module (6), an exhaust module (7) and a human body state monitoring module (8); The control box body (2) is internally provided with a main controller (21), and the main controller (21) is respectively connected with the negative oxygen ion generation module (3), the temperature and humidity regulation module (4), the bed board inclination adjustment mechanism (5), the air quality monitoring module (6), the air exhaust module (7) and the human body state monitoring module (8); The bed body (1) comprises a bed plate (11), and the bed plate inclination adjusting mechanism (5) is connected with the bed plate (11); The negative oxygen ion generation module (3) comprises a high-pressure negative ion generator (31), a low-pressure negative ion generator (32), an ecological negative ion chip and an airflow guide assembly (33), wherein the high-pressure negative ion generator (31) and the low-pressure negative ion generator (32) are arranged at intervals along the length direction of the bed body (1) and are communicated with the space of the bed body through the airflow guide assembly (34), and the ecological negative ion chip is integrated on the inner wall of an airflow channel of the airflow guide assembly (34); Detecting whether a user lies on the bed body or not through the human body state monitoring module, and when the user is monitored to lie on the bed body, acquiring heart rate, respiratory rate and body movement data of the user through the human body state monitoring module and acquiring the inclination angle of the bed board through the bed board inclination adjusting mechanism by the main controller; The main controller generates a second temperature and humidity adjustment instruction and a second negative oxygen ion concentration parameter adjustment instruction based on heart rate, respiratory rate and body movement data of the user, the inclination angle of the bed board and the second negative oxygen ion concentration parameter; based on the second temperature and humidity regulation instruction, the temperature and humidity regulation module carries out temperature and humidity regulation, and based on the second negative oxygen ion concentration parameter regulation instruction, the negative oxygen ion generation module carries out negative oxygen ion concentration regulation; If the main controller detects that the heart rate of the user is higher than a preset awake heart rate threshold value through the human body state monitoring module, the respiratory rate is higher than a preset awake respiratory rate threshold value, and the body movement times detected by the body movement sensor in unit time exceeds a preset movable body movement times threshold value, the user is judged to be in an awake state; If the main controller detects that the heart rate of the user is lower than a preset awake heart rate threshold value through the human body state monitoring module, the respiratory rate is lower than a preset awake respiratory rate threshold value, and the body movement times detected by the body movement sensor in unit time are lower than a preset movable body movement times threshold value, judging that the user is in a sleep state; When the user is in a waking state and the inclination angle of the bed board is smaller than or equal to the preset angle threshold value, the concentration of negative oxygen ions is increased to enhance the oxygen content in the air, and the user is helped to keep the waking state.
  2. 2. The health care bed with the negative oxygen ion generating function according to claim 1, wherein the temperature and humidity regulation module (4) comprises a humidifying outlet (41), and the humidifying outlet (41) is arranged on one side of the bed body.
  3. 3. The health care bed with the negative oxygen ion generation function according to claim 2, wherein the temperature and humidity regulation module (4) further comprises a heating strip (42), and the heating strip (42) is arranged on one side of the bed body.
  4. 4. The health care bed with the negative oxygen ion generating function according to claim 1, characterized in that the bed board inclination adjusting mechanism (5) comprises an electric push rod (51) and an angle sensor (52), wherein the electric push rod (51) is hinged with the bed board (11), and the angle sensor (52) is used for detecting the inclination angle of the bed board (11).
  5. 5. The health care bed with negative oxygen ion generating function according to claim 1, wherein the human body state monitoring module (8) comprises a heart rate sensor (81), a respiratory rate sensor (82) and a body movement sensor (83), and the heart rate sensor (81), the respiratory rate sensor (82) and the body movement sensor (83) are respectively connected with the main controller.
  6. 6. A health care bed with negative oxygen ion generating function according to claim 1, characterized in that the air flow guiding assembly (33) comprises adjustable guide vanes (331).
  7. 7. The healthy bed with the negative oxygen ion generating function according to claim 1, wherein the exhaust module (7) comprises an exhaust port (71) and a fan, the exhaust port (71) is arranged at the side surface or the bottom of the bed body (1) and is used for exhausting air in the bed body space, and the fan is connected with the main controller (21).
  8. 8. The health care bed with the negative oxygen ion generating function according to claim 1, wherein the material of the bed plate (11) is a negative oxygen ion generating material.
  9. 9. A control method of a health care bed with a negative oxygen ion generation function is characterized by comprising the following steps: Step 1, a main controller receives a pre-starting instruction, and based on the pre-starting instruction, the main controller acquires a first temperature parameter, a first humidity parameter, a first PM2.5 concentration parameter and a first negative oxygen ion concentration parameter through an air quality monitoring module, wherein the pre-starting instruction comprises pre-starting time and starting duration time; Step 2, the main controller generates a first temperature and humidity adjustment instruction and a first negative oxygen ion concentration parameter adjustment instruction based on the first temperature parameter, the first humidity parameter, the first PM2.5 concentration parameter, the first negative oxygen ion concentration parameter and the starting duration; Step 3, based on the first temperature and humidity regulation instruction, the temperature and humidity regulation module regulates the temperature and humidity, and based on the first negative oxygen ion concentration parameter regulation instruction, the negative oxygen ion generation module regulates the concentration of the negative oxygen ions; step 4, the main controller acquires a second temperature parameter, a second humidity parameter, a second PM2.5 concentration parameter and a second negative oxygen ion concentration parameter through the air quality monitoring module; Step 5, the main controller judges whether the second temperature parameter, the second humidity parameter, the second PM2.5 concentration parameter and the second negative oxygen ion concentration parameter all meet preset conditions, and if the second temperature parameter, the second humidity parameter, the second PM2.5 concentration parameter and the second negative oxygen ion concentration parameter all meet preset conditions, step 6 is executed; step 6, maintaining the working states of the temperature and humidity regulation module and the negative oxygen ion generation module, starting an exhaust device, and maintaining the second temperature parameter, the second humidity parameter and the second negative oxygen ion concentration parameter to meet the preset conditions through the temperature and humidity regulation module, the negative oxygen ion generation module and the exhaust device; the step6 further comprises the following steps: Step 7, detecting whether a user lies on the bed body or not through the human body state monitoring module, and when the user is monitored to lie on the bed body, acquiring heart rate, respiratory rate and body movement data of the user through the human body state monitoring module and acquiring the inclination angle of the bed board through the bed board inclination adjusting mechanism by the main controller; step 8, the main controller generates a second temperature and humidity adjustment instruction and a second negative oxygen ion concentration parameter adjustment instruction based on heart rate, respiratory rate and body movement data of the user, the inclination angle of the bed board and the second negative oxygen ion concentration parameter; Step 9, based on the second temperature and humidity regulation instruction, the temperature and humidity regulation module regulates the temperature and humidity, and based on the second negative oxygen ion concentration parameter regulation instruction, the negative oxygen ion generation module regulates the concentration of negative oxygen ions; If the main controller detects that the heart rate of the user is higher than a preset awake heart rate threshold value through the human body state monitoring module, the respiratory rate is higher than a preset awake respiratory rate threshold value, and the body movement times detected by the body movement sensor in unit time exceeds a preset movable body movement times threshold value, the user is judged to be in an awake state; If the main controller detects that the heart rate of the user is lower than a preset awake heart rate threshold value through the human body state monitoring module, the respiratory rate is lower than a preset awake respiratory rate threshold value, and the body movement times detected by the body movement sensor in unit time are lower than a preset movable body movement times threshold value, judging that the user is in a sleep state; when the user is in a waking state and the inclination angle of the bed board is smaller than or equal to the preset angle threshold value, the oxygen content in the air can be enhanced by increasing the concentration of the negative oxygen ions, and the user is helped to keep the waking state.

Description

Health care bed with negative oxygen ion generation function and control method Technical Field The invention relates to the technical field of negative oxygen ion physiotherapy equipment, in particular to a health care bed with a negative oxygen ion generation function and a control method. Background In the technical field of negative oxygen ion physiotherapy equipment, along with the continuous improvement of pursuit of people on healthy life quality, the demand for health care equipment capable of building healthy and comfortable environments is increasing. Currently, prior art health care beds have serious drawbacks in terms of improving air quality before the user is not lying on the bed. In daily life, indoor air quality is susceptible to various factors such as inflow of outdoor polluted air, harmful gases released from furniture, and accumulation of dust particles. When a user enters a bedroom to prepare for rest, the user often expects to be able to quickly sit in an environment with significantly improved air quality, and feel the comfort brought by fresh air immediately. However, existing health beds mostly lack the ability to boost air quality when not in use by the user. Disclosure of Invention In order to solve the technical problems in the prior art, the invention provides a health care bed with a negative oxygen ion generation function and a control method. The technical scheme adopted by the invention is as follows: the first aspect of the application provides a health care bed with a negative oxygen ion generation function, which comprises a bed body, a control box body, a negative oxygen ion generation module, a temperature and humidity regulation module, a bed board inclination adjustment mechanism, an air quality monitoring module, an exhaust module and a human body state monitoring module; The control box body is internally provided with a main controller which is respectively connected with the negative oxygen ion generation module, the temperature and humidity regulation module, the bed board inclination adjustment mechanism, the air quality monitoring module, the air exhaust module and the human body state monitoring module; the bed body comprises a bed plate, and the bed plate inclination adjusting mechanism is connected with the bed plate; the negative oxygen ion generating module comprises a high-pressure negative ion generator, a low-pressure negative ion generator, an ecological negative ion chip and an airflow guiding assembly, wherein the high-pressure negative ion generator and the low-pressure negative ion generator are arranged at intervals along the length direction of the bed body and are communicated with the space of the bed body through the airflow guiding assembly, and the ecological negative ion chip is integrated on the inner wall of an airflow channel of the airflow guiding assembly. Preferably, the temperature and humidity regulation module comprises a humidifying outlet, and the humidifying outlet is arranged on one side of the bed body. Preferably, the temperature and humidity regulation module further comprises a heating strip, and the heating strip is arranged on one side of the bed body. Preferably, the bed board inclination adjusting mechanism comprises an electric push rod and an angle sensor, wherein the electric push rod is hinged with the bed board, and the angle sensor is used for detecting the inclination angle of the bed board. Preferably, the human body state monitoring module comprises a heart rate sensor, a respiratory rate sensor and a body movement sensor, and the heart rate sensor, the respiratory rate sensor and the body movement sensor are respectively connected with the main controller. Preferably, the airflow directing assembly includes an adjustable guide vane. Preferably, the exhaust module comprises an exhaust outlet and a fan, wherein the exhaust outlet is arranged on the side surface or the bottom of the bed body and is used for exhausting air in the space of the bed body, and the fan is connected with the main controller. Preferably, the material of the bed board is negative oxygen ion generating material. The second aspect of the application provides a method for controlling a health care bed with a negative oxygen ion generation function, comprising the following steps: Step 1, a main controller receives a pre-starting instruction, and based on the pre-starting instruction, the main controller obtains a first temperature parameter, a first humidity parameter, a first PM2.5 concentration parameter and a first negative oxygen ion concentration parameter through an air quality monitoring module, wherein the pre-starting instruction comprises pre-starting time and starting duration. Step 2, the main controller generates a first temperature and humidity adjustment instruction and a first negative oxygen ion concentration parameter adjustment instruction based on the first temperature parameter, the first humidity parameter, the first PM