CN104680609A - Multifunctional attendance checking device based on virtual reality technology and using method of multifunctional attendance checking device - Google Patents

Abstract

The invention relates to a multifunctional attendance checking device based on virtual reality technology and a method for using it. The multifunctional attendance device based on virtual reality technology can check the attendance status of the inspected personnel by identifying the fingerprint characteristics of the inspected personnel. The multifunctional attendance device based on virtual reality technology includes a housing and a display device arranged on the housing. and a fingerprint sensor for identifying fingerprint features and an information database of examiners established according to fingerprint features, wherein the multifunctional attendance device based on virtual reality technology also includes a detection device and a detection device for detecting attendance personnel among examiners A connected control platform, the control platform is used to control the detection device, and store and process the attendance status and the data detected by the detection device.

Description

Multifunctional attendance device based on virtual reality technology and method for using it

technical field

The invention relates to the technical field of checking attendance, in particular to a multifunctional checking attendance device based on virtual reality technology and a method for using the same.

Background technique

With the improvement of people's living standards, people pay more and more attention to their own health. Therefore, more and more people choose to go to the hospital for physical examination in their spare time, so as to understand their own health status. However, due to the increasingly fierce competition in the society, the accelerated pace of life and the increase in work pressure, office workers no longer have the energy and time to go to the hospital for physical examination. This makes it impossible for office workers to know their own health conditions.

Therefore, it is really necessary to provide a virtual reality technology-based multifunctional attendance device and a method for using it for learning physical health conditions.

Contents of the invention

The purpose of the present invention is to solve at least one aspect of the above-mentioned problems and deficiencies in the prior art.

An object of the present invention is to provide a multifunctional attendance checking device based on virtual reality technology.

Another object of the present invention is to provide a method for using the above-mentioned multifunctional attendance checking device based on virtual reality technology.

According to one aspect of the present invention, a multifunctional attendance device based on virtual reality technology is provided. The multifunctional attendance device based on virtual reality technology can check the attendance status of the person under investigation by identifying the fingerprint characteristics of the person under investigation. , the multifunctional attendance device based on virtual reality technology includes a housing, a display device arranged on the housing, a fingerprint sensor for identifying fingerprint characteristics and an information database of inspectors established according to fingerprint characteristics, wherein,

The multi-functional attendance device based on virtual reality technology also includes a detection device for detecting the attendance personnel among the inspectors and a control platform connected with the detection device. detected data.

Further, the detection device includes:

A body fat measuring device, the body fat measuring device detects the body fat rate of the on-duty personnel among the inspectors,

Blood oxygen saturation measuring device, the blood oxygen saturation measuring device detects the blood oxygen saturation and pulse rate of the staff on duty,

Infrared sensor, the infrared sensor detects the body temperature of the staff on duty,

When in use, the multifunctional attendance attendance device based on virtual reality technology enables the body fat measurement device, the blood oxygen saturation measurement device and the infrared The sensors respectively detect the on-duty personnel accordingly, and transmit the detected data to the control platform, and the control platform stores the received detection data into the information database.

Further, the body fat measurement device is configured to detect the body fat rate of the attendance personnel by measuring the bioelectrical impedance of the attendance personnel,

The body fat measurement device includes excitation electrodes and collection electrodes arranged on both sides of the fingerprint sensor below the display,

When in use, place both hands on the excitation electrode and the collection electrode respectively, and form a current loop between the excitation electrode and the collection electrode for detection.

Further, the blood oxygen saturation measurement device is arranged between the fingerprint sensor and the body fat measurement device, the blood sample saturation measurement device is set as a finger cuff, and the blood oxygen saturation measurement device is configured to pass through the on-duty staff The fingertip in the fingertip is irradiated with red light and infrared light, and the data of the absorptivity of the photosensitive element in the blood oxygen saturation measuring device to the red light and infrared light passing through the fingertip are detected.

Further, the infrared sensor is arranged above the display, and the infrared sensor is configured to detect the infrared data emitted by the forehead of the attendance personnel by adjusting the sensing angle according to the height information of the attendance personnel detected in the information database.

Further, the control platform sets the corresponding data of the attendance personnel in the information database as a graph.

Further, the display device displays the attendance time, body fat rate, blood oxygen saturation, pulse rate and body temperature of the attendance personnel,

The multifunctional time attendance device based on virtual reality technology also includes output and input interfaces for data transmission and a bluetooth module connected with bluetooth devices.

According to another aspect of the present invention, there is also provided a method for using the above-mentioned multifunctional attendance checking device based on virtual reality technology, the method may include the following steps:

(1) Make the attendance personnel place their index fingers on the fingerprint sensor of the multi-functional attendance device based on virtual reality technology for fingerprint feature recognition, and at the same time place their hands on the excitation electrodes and collection electrodes of the body fat measurement device respectively, and perform the fingerprint identification on the attendance personnel. Body fat percentage measurement;

(2) While measuring the body fat rate, make the blood oxygen saturation measuring device measure the blood oxygen saturation and pulse rate of the finger placed in the finger cuff by the attendance personnel;

(3) While measuring blood sample saturation and pulse rate, the infrared sensor is used to measure the body temperature of the on-duty personnel according to the height of the on-duty personnel detected in the information database to sense the infrared rays emitted by the forehead of the on-duty personnel;

(4) Make the body fat measuring device, blood oxygen saturation measuring device and infrared sensor transmit the detected data to the control platform, so that the control platform will record the attendance status, body fat rate, blood sample saturation, pulse rate and body temperature of the staff on duty Stored in the information database corresponding to the attendance personnel.

Further, the control platform sets the data of the attendance personnel into a graph.

Further, the display in the multifunctional attendance attendance device based on virtual reality technology displays the attendance time, body fat percentage, blood sample saturation, pulse rate and body temperature of the attendance personnel.

According to the multifunctional attendance checking device based on virtual reality technology and the method for using it according to the present invention, it has the following advantages: the multifunctional checking attendance device based on virtual reality technology can enable attendance personnel to measure their own pulse rate, Body fat, blood oxygen saturation and body temperature, these data are displayed on the display, reminding the health status of the detected attendance staff, and can also be stored in the information database. When needed, the control platform can also draw data from it to draw a graph.

Description of drawings

These and/or other aspects and advantages of the present invention will become apparent and comprehensible from the following description of preferred embodiments in conjunction with the accompanying drawings, in which:

Fig. 1 is a schematic structural view of a multifunctional attendance checking device based on virtual reality technology according to an embodiment of the present invention;

Fig. 2 is a flow chart of a method for using the multifunctional attendance attendance device based on virtual reality technology shown in Fig. 1 .

Detailed ways

The technical solutions of the present invention will be further specifically described below through examples and in conjunction with accompanying drawings 1-2. In the specification, the same or similar reference numerals designate the same or similar components. The following description of the embodiments of the present invention with reference to the accompanying drawings is intended to explain the general inventive concept of the present invention, but should not be construed as a limitation of the present invention.

Referring to FIG. 1 , it shows a multi-functional time attendance device 100 based on virtual reality technology according to an embodiment of the present invention. The multifunctional attendance attendance device 100 based on virtual reality technology can check the attendance status of the checked personnel by identifying the fingerprint characteristics of the checked personnel. The multifunctional time attendance device 100 based on virtual reality technology includes a housing 10, a display instrument 11 arranged on the housing 10 and a fingerprint sensor 12 for identifying fingerprint characteristics and an information database of inspectors established according to the fingerprint characteristics (not shown) Shows). In addition, the multifunctional attendance attendance device 100 based on virtual reality technology also includes a detection device for detecting the attendance personnel among the inspectors and a control platform 30 connected with the detection device. The control platform 30 is used to control the detection device, and store and process the attendance status of the inspected personnel and the data detected by the detection device. It can be understood that the control platform 30 can be arranged inside or outside the multi-function time attendance device 100 based on virtual reality technology as required. In FIG. 1 , in order to show the control platform 30 , it is drawn on the right side of the figure. In fact, it is located at the rear of the multifunctional time attendance device 100 based on virtual reality technology, so it is shown with a dotted line.

In an example of the present invention, the detection device includes a body fat measurement device 21 , a blood oxygen saturation measurement device 22 and an infrared sensor 23 . The body fat measurement device 21 is used to detect the body fat percentage of the on-duty personnel among the examiners. The blood oxygen saturation measuring device 22 is used to detect the blood oxygen saturation and pulse rate of the personnel on duty. The infrared sensor detects the body temperature of the personnel on duty. Of course, those skilled in the art can understand that a sphygmomanometer and other devices that can be used to detect the physical health parameters of the personnel on duty can also be set in the detection device, so that the multi-functional virtual reality technology-based The attendance device 100 is more perfect.

When in use, the multifunctional attendance attendance device 100 based on virtual reality technology makes the body fat measuring device 21, the blood oxygen saturation measuring device 22 and the infrared sensor 23 detects the attendance personnel accordingly, and transmits the detected data to the control platform 30 . The control platform 30 stores the received detection data into an information database.

The body fat measurement device 21 is arranged under the display 11 and on both sides of the fingerprint sensor 12, and is configured to detect the body fat percentage of the attendance personnel by measuring the bioelectrical impedance of the attendance personnel. For example, it is arranged on the left or right side of the fingerprint sensor 12. Of course, those skilled in the art can understand that this example is only an illustration and should not be understood as a limitation to the present invention, as long as the position of the body fat measurement device is placed Able to measure body fat percentage.

The body fat measurement device 21 includes excitation electrodes 211 and collection electrodes 212 . When in use, one of the palms of both hands is placed on the excitation electrode 211 , and the other palm of both hands is placed on the collection electrode 212 , so that a current loop is formed between the excitation electrode 211 and the collection electrode 212 . When measuring the body fat rate, the excitation electrode 211 applies a weak constant current to the palm placed on it by the attendance personnel, and then the collection electrode 212 collects electrical signals from different parts of the attendance personnel's body, and then transmits the electrical signals to the control platform 30. The control platform 30 processes the electrical signal to obtain the data of the bioelectrical impedance of the on-duty personnel, and calculates the data through the body fat percentage calculation formula pre-stored in the control platform 30 to obtain the body weight of the on-duty personnel. The fat rate is stored in the information database and displayed on the display 11 at the same time.

A blood oxygen saturation measurement device 22 is arranged between the fingerprint sensor 12 and the excitation electrode 211 or the collection electrode 212 of the body fat measurement device 21 . The blood oxygen saturation measuring device 22 is set as a finger cuff. Of course, those skilled in the art can understand that the blood oxygen saturation measuring device 22 can be set to one, two or more, and its shape can be set to a cover such as a rectangle, a circle, etc., as long as the pulse rate of the attendance personnel can be realized and oxygen saturation measurement.

A light emitting diode (not shown) and a photosensitive element (not shown) are arranged in the finger cuff of the blood oxygen saturation measuring device 22 . The light-emitting diodes are arranged on the upper surface of the fingertip, including a light-emitting diode that emits red light with a wavelength of 660nm and a light-emitting diode that emits infrared light with a wavelength of 940nm. The photosensitive element is arranged on the lower surface of the fingertip, opposite to the light-emitting diode, so that when the light-emitting diode irradiates red light and infrared light to the fingertip placed in the fingertip of the attendant, the photosensitive element can absorb the light transmitted through the fingertip. pointed light.

When measuring the pulse rate and oxygen saturation of the attendant, place the finger in the finger cuff. Make the control platform 30 transmit timing signals to the LEDs. Under the control of the sequence signal, the drive circuit (not shown) in the multifunctional time attendance device 100 based on virtual reality technology is turned on in turn by the LEDs, and the two LEDs are pressed according to red light—no light—infrared light—no light. The timing of the luminescence works alternately in time-sharing, and irradiates the fingertips placed in the fingertips. The red light and infrared light passing through the fingertips are absorbed by the photosensitive element, and the absorption rate of the red light and infrared light is converted into an electrical signal and sent to the control platform 30 . The control platform 30 processes the electrical signals into pulse rate and oxygen saturation data.

An infrared sensor 23 is provided above the display 11 . The infrared sensor 23 is configured to detect the infrared data emitted by the forehead of the on-duty personnel by adjusting the sensing angle according to the height information of the on-duty personnel detected in the information database. The temperature of the personnel on duty or the human body itself emits a certain proportion of infrared radiation energy. The level of the radiation energy and the distribution of infrared wavelengths are closely related to the temperature of the surface of the human body. Therefore, the infrared sensor 23 obtains the number of personnel on duty based on the distribution of infrared wavelengths. body temperature. When measuring the body temperature of the on-duty personnel, the control platform 30 retrieves the height information of the on-duty personnel from the information database, draws the angle data measured by the infrared sensor 23 according to the height information, and transmits the data to the infrared sensor 23, so that the infrared sensor 23 Adjust the sensing angle and detect the body temperature data of the personnel on duty, and transmit the body temperature data to the control platform 30 for storage in the information database.

After detecting the attendance personnel for 10-20 seconds, the multifunctional attendance device 100 based on virtual reality technology stores information such as attendance time, body fat rate, blood oxygen saturation, pulse rate and body temperature of the attendance personnel when they are on duty. And these information are displayed on the display instrument 11, so that the attendance personnel can well understand the information of physical health parameters.

In an example of the present invention, the control platform can set the corresponding data of the attendance personnel in the information database as a graph.

In an example of the present invention, the virtual reality technology-based multifunctional attendance attendance device 100 also includes an input and output interface 40 for transmitting data and a Bluetooth module 50 connected with a Bluetooth device (not shown). When attendance personnel need to detect data, they can connect with the bluetooth module in the multifunctional attendance device 100 based on virtual reality technology through a bluetooth device, and obtain the data of physical health parameters from the multifunctional attendance device 100 based on virtual reality technology, which is better Master your own health status. When paper information is needed, the virtual reality technology-based multifunctional attendance device 100 can also be connected to a printer through the input and output interface 40, and the drawn graph and corresponding data can be printed.

It can be understood that the attendance personnel can also draw a health index graph for a period of time, such as a week or a month, according to their own needs, through the above-mentioned multifunctional attendance device 100 based on virtual reality technology, to obtain a report on health status.

Referring to FIG. 2 , it shows the flow of the method of using the multifunctional attendance attendance device based on virtual reality technology. The method includes the following steps:

(1) Make the attendance personnel place their index fingers on the fingerprint sensor of the multi-functional attendance device based on virtual reality technology for fingerprint feature recognition, and at the same time place the palms of both hands on the excitation electrode and the collection electrode of the body fat measurement device respectively. Personnel measure body fat percentage;

(2) While measuring the body fat rate, make the blood oxygen saturation measuring device measure the blood oxygen saturation and pulse rate of the finger placed in the finger cuff by the attendance personnel;

(3) While measuring blood sample saturation and pulse rate, the infrared sensor is used to measure the body temperature of the on-duty personnel according to the height of the on-duty personnel detected in the information database to sense the infrared rays emitted by the forehead of the on-duty personnel;

(4) Make the body fat measuring device, blood oxygen saturation measuring device and infrared sensor transmit the detected data to the control platform, so that the control platform will record the attendance status, body fat rate, blood sample saturation, pulse rate and body temperature of the staff on duty Stored in the information database corresponding to the attendance personnel.

Of course, those skilled in the art can understand that in the present invention, since the fingerprint sensor, the body fat measuring device, the blood oxygen saturation measuring device and the infrared sensor detect the attendance personnel, the time interval between each other is quite short, so they are used in the present invention. Described as simultaneity, not absolute simultaneity in the strict sense.

In an example of the present invention, the control platform can retrieve the data of the staff on duty from the information database, and set it as a graph,

In an example of the present invention, the display instrument in the multifunctional attendance attendance device based on virtual reality technology displays the attendance time, body fat rate, blood sample saturation, pulse rate and body temperature of the attendance personnel.

According to the multifunctional attendance checking device based on virtual reality technology and the method for using it according to the present invention, the multifunctional checking attendance device based on virtual reality technology can make people measure their own pulse rate, body weight and Fat, blood oxygen saturation and body temperature, these data are displayed on the display, reminding the health status of the detected person, and can also be stored in the information database. When needed, the control platform can also draw data from it to draw a graph.

While certain embodiments of the present general inventive concept have been shown and described, it will be understood by those of ordinary skill in the art that changes may be made to these embodiments without departing from the principles and spirit of the present general inventive concept. The scope is defined by the claims and their equivalents.

Claims (10)

1. A multifunctional attendance check device based on virtual reality technology, the multifunctional attendance check device based on virtual reality technology can check the attendance situation of the checked personnel by identifying the fingerprint characteristics of the checked personnel, and the described multifunctional attendance check based on virtual reality technology The multi-functional attendance checking device comprises a housing, a display device arranged on the housing, a fingerprint sensor for identifying the fingerprint features and an information database of examiners established according to the fingerprint features, characterized in that, The multifunctional attendance checking device based on virtual reality technology also includes a detection device for detecting attendance personnel among the examiners and a control platform connected with the detection device, the control platform is used to control the detection device, And store and process the attendance situation and the data detected by the detection device. 2. The multifunctional attendance checking device based on virtual reality technology according to claim 1, characterized in that, The detection device includes: a body fat measurement device, the body fat measurement device detects the body fat percentage of the attendance personnel among the examiners, A blood oxygen saturation measuring device, the blood oxygen saturation measuring device detects the blood oxygen saturation and pulse rate of the personnel on duty, an infrared sensor, the infrared sensor detects the body temperature of the personnel on duty, When in use, the multifunctional attendance attendance device based on virtual reality technology enables the body fat measurement device, blood oxygen saturation measurement device to and infrared sensors respectively detect the on-duty personnel accordingly, and transmit the detected data to the control platform, and the control platform stores the received detection data in the information database. 3. the multi-functional attendance checking device based on virtual reality technology according to claim 2, is characterized in that, The body fat measurement device is configured to detect the body fat percentage of the attendance personnel by measuring the bioelectrical impedance of the attendance personnel, The body fat measurement device includes excitation electrodes and collection electrodes arranged on both sides of the fingerprint sensor below the display, When in use, place both hands on the excitation electrode and the collection electrode respectively, and form a current loop between the excitation electrode and the collection electrode for detection. 4. the multi-function time attendance device based on virtual reality technology according to claim 3, is characterized in that, The blood oxygen saturation measuring device is arranged between the fingerprint sensor and the body fat measuring device, the blood sample saturation measuring device is set as a finger cuff, and the blood oxygen saturation measuring device is configured to pass through the The fingertips of the attendants in the fingertips are irradiated with red light and infrared light, and the data of the absorptivity of the photosensitive elements in the blood oxygen saturation measuring device to the red light and infrared light passing through the fingertips are detected. 5. the multi-function time attendance device based on virtual reality technology according to claim 4, is characterized in that, The infrared sensor is arranged above the display, and the infrared sensor is configured to detect the infrared data emitted by the forehead of the attendance personnel by adjusting the sensing angle according to the height information of the attendance personnel detected in the information database. 6. The multi-functional attendance checking device based on virtual reality technology according to claim 5, characterized in that, The control platform sets the corresponding data of the attendance personnel in the information database as a graph. 7. The multifunctional attendance attendance device based on virtual reality technology according to any one of claims 1-6, wherein, The display device displays the attendance time, body fat rate, blood oxygen saturation, pulse rate and body temperature of the attendance personnel, The multifunctional attendance checking device based on virtual reality technology also includes output and input interfaces for data transmission and a bluetooth module connected with a bluetooth device. 8. A method of using the multifunctional attendance attendance device based on virtual reality technology according to any one of claims 1-7, said method comprising the following steps: (1) Make the attendance personnel place their index fingers on the fingerprint sensor of the multi-functional attendance device based on virtual reality technology for fingerprint feature recognition, and at the same time place their hands on the excitation electrodes and collection electrodes of the body fat measurement device respectively, and perform the fingerprint identification on the attendance personnel. Body fat percentage measurement; (2) While measuring the body fat rate, make the blood oxygen saturation measuring device measure the blood oxygen saturation and pulse rate of the finger placed in the finger cuff by the attendance personnel; (3) While measuring blood sample saturation and pulse rate, the infrared sensor is used to measure the body temperature of the on-duty personnel according to the height of the on-duty personnel detected in the information database to sense the infrared rays emitted by the forehead of the on-duty personnel; (4) Make the body fat measuring device, blood oxygen saturation measuring device and infrared sensor transmit the detected data to the control platform, so that the control platform will record the attendance status, body fat rate, blood sample saturation, pulse rate and body temperature of the staff on duty Stored in the information database corresponding to the attendance personnel. 9. the method for using the multi-function time attendance device based on virtual reality technology according to claim 8, is characterized in that, The control platform sets the data of the attendance personnel into a graph. 10. the method for using the multi-function time attendance device based on virtual reality technology according to claim 8 or 9, characterized in that, The display in the multifunctional attendance attendance device based on virtual reality technology displays the attendance time, body fat rate, blood sample saturation, pulse rate and body temperature of the attendance personnel.