CN210354663U - Simulation pulse feeling equipment and intelligent air conditioner control system - Google Patents

Abstract

The utility model relates to an intelligence air conditioner control technology, it discloses a emulation pulse feeling equipment, solves the air conditioner control mode existence in the conventional art must according to people's subjective wish, by artifical initiative operation control's problem. The simulation vein-cutting equipment comprises: the wrist strap and the data acquisition main body are connected with one end of the wrist strap, a microprocessor and a communication module are arranged in the data acquisition main body, a sensor contact for acquiring physiological parameters of a human body is arranged on the back of the data acquisition main body, and the sensor contact and the communication module are electrically connected with the microprocessor; and a set of fixing structural parts for fixing the wrist strap is arranged at the other end of the wrist strap and on the front surface of the data acquisition main body. Additionally, the utility model also discloses an intelligent air conditioner control system based on this emulation is felt arteries and veins equipment.

Description

Simulation pulse feeling equipment and intelligent air conditioner control system

Technical Field

The utility model relates to an intelligence air conditioner control technology, concretely relates to emulation pulse feeling equipment and intelligent air conditioner control system.

Background

With the social development and the continuous improvement of the living standard of people, the air conditioner becomes an essential common household appliance in daily life, and the demand will continue to increase. For the development trend of air conditioners, manufacturers generally consider that: firstly, energy conservation and emission reduction are achieved, secondly, silence and comfort are achieved, and then intelligent control is achieved. Such an air conditioner is a development direction of the air conditioner in the future, and is an air conditioner adapted to market needs.

The main control modes of the current air conditioner are two types:

1. direct contact control: namely, through mechanical or touch key control;

2. non-contact control: such as remote control, cell phone control, voice control, network remote control, etc.

However, in the prior art, both the contact control and the non-contact control methods must be controlled according to subjective wishes of people, and the degree of intelligence still needs to be improved by manual active operation control.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a simulation pulse feeling equipment and intelligent air conditioner control system, solve the problem that the air conditioner control mode in the prior art has to be according to people's subjective intention, by artifical initiative operation control.

The utility model provides a technical scheme that above-mentioned technical problem adopted is:

an aspect of the utility model provides an emulation pulse feeling equipment, include: the wrist strap and the data acquisition main body are connected with one end of the wrist strap, a microprocessor and a communication module are arranged in the data acquisition main body, a sensor contact for acquiring physiological parameters of a human body is arranged on the back of the data acquisition main body, and the sensor contact and the communication module are electrically connected with the microprocessor; and a set of fixing structural parts for fixing the wrist strap is arranged at the other end of the wrist strap and on the front surface of the data acquisition main body.

As a further optimization, the fixing structure comprises a snap button arranged at the other end of the wrist strap and a snap button female button arranged on the front face of the data acquisition main body.

In the scheme, the wrist strap can be fixed quickly by taking the snap fastener as a fixing structural part, and of course, the wrist strap can be fixed by sticking or other fixing modes.

As a further optimization, at least one telescopic body is arranged on the wrist strap, so that the length of the wrist strap can be adjusted.

In this scheme, through the setting of the flexible body for wrist strap length is adjustable, thereby is applicable to different users and uses.

As a further optimization, the back of the data acquisition main body is provided with three pressure sensor contacts which have different sizes and different projection heights and are respectively used for simulating the pulse taking of the index finger, the middle finger and the ring finger of a human hand at the back part of the wrist of the radial artery of the user.

In the scheme, the three pressure sensor contacts with different sizes and different bulge heights are arranged, so that when the simulated pulse-taking device is used, the index finger, the middle finger and the ring finger of a human hand can be simulated to take pulse at the back part of the wrist of the radial artery of a user, and the pulse conditions of the human body at different depths of skin, muscle and skeleton can be sensed.

As further optimization, a temperature and humidity sensor for detecting the temperature and humidity of the human body and an action sensor for detecting the action frequency and the action size of the human body are further arranged on the data acquisition main body; the temperature and humidity sensor and the motion sensor are electrically connected with the microprocessor.

In the scheme, the temperature and humidity signals of the human body are detected by setting the temperature and humidity sensor, the action frequency and the action size of the human body are detected by setting the action sensor, and the signals can reflect some current physical signs and states of the human body so as to participate in air conditioner control.

The utility model discloses an other aspect provides an intelligence air conditioner control system, include: the simulation pulse feeling equipment is used for collecting human body physiological parameter information and transmitting the human body physiological parameter information to the intelligent air conditioner; the main control unit of the intelligent air conditioner automatically calculates the control parameters of the air conditioner by combining the acquired human physiological parameter information, the external environment parameter information and the preference setting information of the user, and correspondingly regulates and controls the state of the air conditioner in real time.

As a further optimization, the external environment parameter information includes: air temperature and humidity, speed of airflow, permeability, and thermal radiation, among others.

As a further optimization, the automatically calculating the control parameters of the air conditioner comprises: temperature, humidity, air-out speed, blowing direction, whether to change new trend, purification etc. operation.

As a further optimization, the preference setting information of the user includes: different control parameters corresponding to different physical states preset by a user.

As a further optimization, the main control unit of the intelligent air conditioner automatically calculates the control parameters of the air conditioner by combining the acquired human physiological parameter information, the external environmental parameter information and the preference setting information of the user, and specifically comprises:

calculating whether dehumidification is needed at present and control parameters of the dehumidification according to the skin temperature, the sweating rate, the air humidity and preference setting information of a user; calculating whether the refrigeration or heating temperature adjustment and the refrigeration/heating control parameters are needed at present according to the skin temperature, the sweating rate, the air temperature, the air humidity, the heat radiation, the dynamic and static states, the preference setting of a user and the like; and calculating whether the current operations such as air purification, fresh air exchange and the like are needed according to the blood oxygen level, the air flow speed, the permeability, the preference setting of a user and the like.

The utility model has the advantages that:

the artificial pulse feeling equipment is directly fixed at the back part of the wrist of the radial artery of a user, the index finger, the middle finger and the ring finger of the traditional Chinese medicine are simulated, and the corresponding parts of the three fingers simultaneously or independently pass through the photoelectric testing technology to sense the human body pulse conditions of different depths of skin, muscle and skeleton. The physiological parameter change data of the user is collected in real time, and the information of the pulse rate, intensity, rhythm and form of the pulse, skin temperature, humidity (whether sweating exists), action frequency, action size and the like is converted into a physiological parameter electric signal through an algorithm matched with the air conditioner control parameter. And transmitting the physiological parameter electric signal to an intelligent air conditioner, and calculating a group of air conditioner control parameters by combining the physiological parameter, the current environment parameter and the user preference setting parameter through the intelligent air conditioner to regulate and control the state of the air conditioner.

Therefore, before the user does not feel uncomfortable, the operating parameters of the functions of air conditioning refrigeration, heating, dehumidification, air purification, fresh air exchange and the like can be intelligently changed, so that the good microclimate is always ensured, and more humanized comfortable experience is provided for the user. Moreover, the control process does not need subjective participation of people, and the intelligent degree is higher.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a simulated pulse taking device;

fig. 2 is a control schematic diagram of the intelligent air conditioner control system in the embodiment.

In the figure, 1 is a wrist strap, 2 is a telescopic body, 3 is a data acquisition main body, 4 is a pressure sensor contact, and 5 is a snap fastener.

Detailed Description

The human body is an open and complex system, and various complex relationships exist with the external environment. In order to ensure normal physiological activities, the human body must control the ambient temperature environment to maintain the thermal balance of the human body besides performing physiological regulation of the human body, and the heat generated by the human body can be timely dissipated to the ambient environment, so that the aims of maintaining the thermal balance of the human body and keeping the proper body temperature are fulfilled. For different steady-state and dynamic environments, the following corresponding relations are obtained by exploring and researching the relation between skin temperature and heart rate variability indexes and thermal sensation and thermal comfort: (1) the skin can be completely wet and the sweating is continuous when feeling hot; (2) feeling warm and beginning to sweat; (3) a slightly warm and hot sensation, but no visible sweat droplets appear; (4) neutral, neither hot nor cold; 5 (slightly cool), has cold feeling but no uncomfortable feeling; (6) if the clothes are cool, the clothes can be added; (7) cold, occasional tremble, cold war, need to be maintained by muscle tremor.

Therefore, the pulse feeling device can directly contact the human body, the rear part of the wrist of the radial artery of the user is simulated by an index finger, a middle finger and a ring finger of the traditional Chinese medicine, the corresponding parts of the three fingers simultaneously or independently pass through a photoelectric test technology to sense the human body pulse conditions of different depths of skin, muscle and bones, the information of pulse rate, strength, rhythm and form, skin temperature, humidity (whether sweating occurs), action frequency, action size and the like of the pulse is converted into electric signals by accurately, regularly, real-time and blind-point-free acquisition of the change data of the physiological parameters of the user, weak physiological signals are transmitted to the air conditioning control part for processing, and then external environmental factors such as the temperature, the humidity, the air velocity (air speed), the permeability, the thermal radiation and the like of the air collected in real time are combined, and habit preference correction parameters (such as the preference of people with lower temperature and the like to be set in advance, The environment with breeze, some people like … with higher temperature and higher humidity), a group of air conditioner control parameters are obtained through analysis and calculation, the air conditioner is regulated and controlled in real time, the purpose of always keeping good microclimate is achieved (the microclimate refers to the climate conditions of working and living places, including factors such as air temperature, humidity, air flow speed, permeability and heat radiation), and the comfort degree in the heart is achieved through improving the physiological suitability degree.

Therefore, adopt the utility model discloses an air conditioner control scheme does not need user active control air conditioner, but lets air conditioning system "know" the demand of oneself more than the user, gives people all the time and creates more comfortable microclimate, improves people's quality of life.

The scheme of the invention is further described with reference to the following drawings and embodiments:

example (b):

as shown in fig. 1, the artificial vein cutting device in this embodiment includes: the wrist strap comprises a wrist strap 1 and a data acquisition main body 3 connected with one end of the wrist strap 1, wherein a microprocessor and a communication module are arranged in the data acquisition main body 3, 3 pressure sensor contacts 4 used for acquiring physiological parameters of a human body are arranged on the back surface of the data acquisition main body 3, and the pressure sensor contacts 4 and the communication module are electrically connected with the microprocessor; the other end of the wrist strap 1 is provided with a snap button 5, and the front surface of the data acquisition main body 3 is provided with a snap button female button (not shown) matched with the snap button 5; the wrist strap 1 is provided with at least one telescopic body 2, so that the length of the wrist strap 1 can be adjusted. In addition, the data acquisition main body 3 is also provided with a temperature and humidity sensor for detecting the temperature and humidity of the human body and an action sensor for detecting the action frequency and the action size of the human body; the temperature and humidity sensor and the motion sensor are electrically connected with the microprocessor.

When the artificial pulse-taking device is used, the proper length is adjusted through the telescopic body 2 on the wrist strap 1, the artificial pulse-taking device is worn on the wrist of a user, and 3 pressure sensor contacts 4 are made to correspond to the positions of index fingers, middle fingers and ring fingers of a human hand for taking pulse-taking at the back part of the wrist of the radial artery of the user; and then fixed by the snap button 5 and the snap button female.

The pressure sensor is a piezoresistive sensor, and refers to a sensor manufactured by using piezoresistive effect of monocrystalline silicon material and integrated circuit technology. After the single crystal silicon material is acted by force, the resistivity changes, and an electric signal output which is in direct proportion to the force change can be obtained through the measuring circuit, so that the physiological parameters of a user can be acquired.

Because the size and the depth of the contact of the 3 pressure sensors are different, the force with different sizes is applied to the corresponding position of the back part of the wrist of the radial artery, and the force is also three forces when the pulse is cut in the simulation of the traditional Chinese medicine, namely: lightly pressing the skin with effort is called "lifting"; touch and press the muscle with moderate force until the muscle is taken, which is named as 'seek'; pressing the muscles and bones with heavy force is called "pressing" to sense the pulse conditions of the human body at different depths of the skin, muscles and bones, for example: the pulse rate (fast or slow), the intensity (forceful or weak), the rhythm (orderly or not, with or without pause), and the shape.

In addition, the temperature and humidity sensor is used for detecting the temperature and the humidity (sweating rate) of the human body, the motion sensor is used for detecting the motion frequency and the motion magnitude of the human body, and the signals and the pulse condition detected by the pressure sensor are collectively called human body physiological parameter information; the human physiological parameter information can reflect certain states of the human body: such as: the body strength of a human body can be reflected through the speed, the strength, the rhythm and the form of pulse pulsation, and if the temperature and the humidity of the human body are high (sweating), the heat dissipation is indicated; if the temperature of the human body is low and the human body is moist, the blood oxygen level is low; the current sleeping, moving or daily life state of the user can be reflected through the action frequency and the action size. Human physiological parameter information is sent to the microprocessor in the data acquisition main part 3 after being gathered with the form of signal of telecommunication and carries out format coding and handle, then sends intelligent air conditioner to through wifi communication module.

As shown in fig. 2, after receiving the human physiological parameter information, the intelligent air conditioner automatically calculates the control parameters of the air conditioner according to a preset matching algorithm by combining external environmental parameter information and user preference setting information, and correspondingly adjusts and controls the state of the air conditioner in real time. The external environmental parameters are derived from the air temperature and humidity, the speed of the air flow, the permeability, the heat radiation and the like detected by corresponding sensors on the air conditioner. The user's preference setting here is derived from different control parameters corresponding to different physical conditions preset by the user.

Automatically calculating control parameters of the air conditioner according to a preset matching algorithm, such as: calculating whether dehumidification is needed at present and control parameters of the dehumidification according to the skin temperature, the sweating rate, the air humidity and preference setting information of a user; calculating whether the refrigeration or heating temperature adjustment and the refrigeration/heating control parameters are needed at present according to the skin temperature, the sweating rate, the air temperature, the air humidity, the heat radiation, the dynamic and static states, the preference setting of a user and the like; and calculating whether the current operations such as air purification, fresh air exchange and the like are needed according to the blood oxygen level, the air flow speed, the permeability, the preference setting of a user and the like. The 'fresh air change' means that outdoor air is pumped into a room; the purification means that the indoor air is purified by a purification filter screen and then discharged into the room.

It should be noted that the structural style, size, position and size of the simulated pulse-taking device in the utility model can be changed similarly according to the requirement; in addition, the acquired human physiological data are not limited to the data, and the intelligent control strategy for the air conditioner by utilizing the data can be set according to the requirements. It is obvious that modifications and variations will occur to those skilled in the art upon a reading of the specification.

It is therefore intended that the present invention not be limited to the exact constructions and arrangements shown and described, but that all such modifications and equivalents as may be resorted to are intended to fall within the scope of the invention.

Claims (6)

1. An artificial vein-cutting device, comprising:

the wrist strap and the data acquisition main body are connected with one end of the wrist strap, a microprocessor and a communication module are arranged in the data acquisition main body, a sensor contact for acquiring physiological parameters of a human body is arranged on the back of the data acquisition main body, and the sensor contact and the communication module are electrically connected with the microprocessor; and a set of fixing structural parts for fixing the wrist strap is arranged at the other end of the wrist strap and on the front surface of the data acquisition main body.

2. The artificial vein cutting device according to claim 1,

the fixed structure comprises a snap button male button arranged at the other end of the wrist strap and a snap button female button arranged on the front face of the data acquisition main body.

3. The artificial vein cutting device according to claim 1,

the wrist strap is provided with at least one section of telescopic body, so that the length of the wrist strap can be adjusted.

4. The artificial vein cutting device according to claim 1,

the back of the data acquisition main body is provided with three pressure sensor contacts which have different sizes and protruding heights and are respectively used for simulating that the index finger, the middle finger and the ring finger of a human hand take pulse at the back part of the wrist of the radial artery of the user.

5. The artificial vein cutting device according to any one of claims 1 to 4,

the data acquisition main body is also provided with a temperature and humidity sensor for detecting the temperature and humidity of a human body and an action sensor for detecting the action frequency and the action size of the human body; the temperature and humidity sensor and the motion sensor are electrically connected with the microprocessor.

6. An intelligent air conditioner control system, comprising:

the simulation pulse-taking device and the intelligent air conditioner as claimed in any one of claims 1 to 5, wherein the simulation pulse-taking device is used for collecting human physiological parameter information and transmitting the human physiological parameter information to the intelligent air conditioner; the main control unit of the intelligent air conditioner automatically calculates the control parameters of the air conditioner by combining the acquired human physiological parameter information, the external environment parameter information and the preference setting information of the user, and correspondingly regulates and controls the state of the air conditioner in real time.

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