CN112932417A

CN112932417A - Health status measuring equipment

Info

Publication number: CN112932417A
Application number: CN201911175883.9A
Authority: CN
Inventors: 张汉威
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-26
Filing date: 2019-11-26
Publication date: 2021-06-11

Abstract

The invention discloses health state measuring equipment which comprises a seat, a blood pressure device, an electrode device and an input/output interface. The chair is provided with a cushion part and a backrest part, and the included angle between the backrest part and the cushion part can be adjusted. The blood pressure device is arranged on the chair and used for measuring the blood flow pressure value under the measuring state and generating a blood pressure signal. The electrode device comprises a plurality of electrode plates which are arranged on the seat, and the electrode plates are electrically conducted to generate electrocardiosignals. The input/output interface is electrically connected with the seat, the pressurizing device and the electrode plate, receives the blood pressure signal and the electrocardiosignal and transmits the signals. Therefore, the rapid detection can be carried out in a small space, a testee only needs to put on the seat and then can measure by installing the blood pressure device and the electrode plates, the information can be transmitted to a computer or a cloud end through the input and output interface to be evaluated, and the health state of the testee can be rapidly judged so as to be provided for relevant personnel to judge.

Description

Health status measuring equipment

Technical Field

The present invention relates to the field of detection, and more particularly, to a health status measuring apparatus.

Background

At present, general physical health examination requires special medical units such as hospitals, clinics, and laboratories, and these units require additional equipment and personnel for assisting examination for examination of each part, and also require a large space. In recent years, cardiovascular diseases, such as arterial blockage, have become a significant threat to the health of people in China. In recent years, a lot of injuries and deaths are caused because a myocardial infarction occurs to a driver, which causes a serious traffic accident.

In addition, in addition to the diligence such as driving, there are also accidents that acute discomfort occurs when the person participates in marathon, high-altitude bounce or amusement parks recently. For such activities, the situation may be held, or the number of participants is large, and the participants cannot evaluate their health, which is a regret.

However, because these diseases are not easily found and the current general medical unit diagnoses, requiring about a day of examination and outpatient, even if the diagnosis is associated with risks, it is difficult to prevent them before attendance or participation in activities.

Disclosure of Invention

The invention mainly provides health state measuring equipment. The health state measuring equipment comprises a seat, a blood pressure device, an electrode device and an input/output interface. The chair is provided with a cushion part and a backrest part, wherein the backrest part is pivoted with the cushion part, and the included angle between the backrest part and the cushion part can be adjusted. The blood pressure device is arranged on the chair and used for measuring the blood flow pressure value under the measuring state and generating a blood pressure signal. The electrode device comprises a plurality of electrode plates, the electrode plates are arranged on the seat, and in a measuring state, the electrode plates are electrically conducted to generate electrocardiosignals. The input/output interface is electrically connected with the seat, the pressurizing device and the electrode device, receives the blood pressure signal and the electrocardio signal and transmits the signals.

In some embodiments, the angle between the backrest portion and the cushion portion is about 180 degrees when the seat is in the measurement state.

In some embodiments, the blood pressure device comprises four pressure units, two of the four pressure units are located at the cushion part, and the other two pressure units are located at two sides of the backrest part.

In some embodiments, the health status measuring apparatus further comprises a display device for generating a local image.

In more detail, in some embodiments, the display device includes a connection unit and a camera unit, the chair further includes a headrest portion connected to the backrest portion at an end of the backrest portion away from the seat-opening pad portion, the connection unit connects the seat and the camera unit, and the camera unit is electrically connected to the input/output interface.

In more detail, in some embodiments, the photographing unit is an infrared camera, and the local image is a local temperature distribution image.

In more detail, in some embodiments, the imaging unit is an X-ray camera and the local image is a local X-ray image.

In more detail, in some embodiments, the health status measuring apparatus further comprises a wearable blood flow detection device, including a wearable blood flow detection device detector and a wireless transceiver. The detector is arranged on the inner side of the wearable blood flow detection device. The detector comprises a light emitter and a light receiver, wherein the light emitter generates incident light, and the light receiver receives reflected light of the incident light after reflection and correspondingly generates a detection signal. The wireless transceiver is electrically connected to the detector, and is wirelessly connected to the input/output interface to receive the detection signal and transmit the detection signal to the input/output interface.

In more detail, in some embodiments, the light emitter includes a first light source and a second light source, and the first light source and the second light source respectively generate incident lights with different wavelengths.

In more detail, in some embodiments, the first light source has a wavelength of 750 to 860nm and the second light source has a wavelength of 800 to 820 nm.

In some embodiments, the input/output interface includes a control module for controlling the seat to adjust the included angle, controlling the blood pressure device to start operating, and powering on the electrode device, and a communication port for receiving and transmitting the blood pressure signal and the electrocardiographic signal.

From the above description, it can be seen that, compared with the prior art, the health status measuring device of the present invention can perform rapid detection in a small space, the subject can perform measurement only by mounting the blood pressure device and the electrode device on the seat, and the information can be transmitted to the outside through the input/output interface for evaluation, so as to rapidly determine the health status of the subject and provide the health status to the relevant personnel for interpretation.

Drawings

FIG. 1 is a schematic diagram of a health status measuring apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of another state of a health status measuring apparatus according to an embodiment of the present invention;

FIG. 3 is a block diagram of a health status measuring apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a health status measuring apparatus according to another embodiment of the present invention; and

fig. 5 is a block diagram of the wearable blood flow monitoring device of fig. 4.

Detailed Description

The invention is further described below by means of specific embodiments. The drawings are only schematic and can be easily understood, and the specific proportion can be adjusted according to design requirements. In the drawings, the relative element positions in the drawings are understood to refer to the relative positions of the components, and the components are referred to as front side on the upper side and back side on the lower side for easy understanding.

Fig. 1 is a schematic state diagram of a health status measuring apparatus according to an embodiment of the present invention. Fig. 2 is another state diagram of a health status measuring apparatus according to an embodiment of the present invention. Fig. 3 is a block diagram of a health status measuring apparatus according to an embodiment of the present invention. As shown in fig. 1 to 3, the health status measuring apparatus 1 of the present invention includes a seat 10, a blood pressure device 20, an electrode device 30, and an input/output interface 40. The chair has a cushion part 11 and a backrest part 13, the backrest part 13 is pivoted with the cushion part 11, and the angle between the backrest part 13 and the cushion part 11 can be adjusted. Here, the seat cushion of the seat cushion portion 11 is integrated with the leg portion, but this is merely an example and not a limitation, and actually, the seat cushion may be pivoted separately from the leg portion.

The blood pressure device 20 is installed on the seat 10 for measuring the blood pressure value under the measurement state to generate the blood pressure signal P. The electrode device 30 includes a plurality of electrode pads 31, which are installed on the seat 10, and under the measuring state, the electrode pads 31 are electrically connected to each other to generate the electrocardiographic signal H. The input/output interface 40 is electrically connected to the seat 10, the blood pressure device 20 and the electrode device 30, and receives and transmits the blood pressure signal P and the electrocardiographic signal H. The blood pressure signal P may comprise values of systolic pressure and diastolic pressure, and the cardiac signal H may be an electrocardiogram of a specific period.

In more detail, the blood pressure device 20 includes four pressing units 21, two of the four pressing units 21 are located on the cushion portion 11, and the other two pressing units are located on two sides of the backrest portion 13, so as to be respectively sleeved on four limbs of the subject 600. After the subject 600 mounts the blood pressure device 20 and the electrode device 30, the input/output interface 40 issues an adjustment command a to adjust the angle between the backrest 13 and the cushion 11 of the chair 10 to be about 180 degrees. In other words, the subject 600 is measured in a lying state, and the adjustment state is such that the positions of the limbs and the heart are approximately equal in height, and can be adjusted slightly according to the subject 600.

In fig. 1 and 2, the electrode device 30 may be a plurality of electrode pads 31 connected to the seat 10, however, this is merely an example and is not intended to be limiting. In practice, the electrode device 30 may be implemented by integrating a plurality of electrode pads 31 into a vest or other clothing.

Then, the input/output interface 40 sends out the first control signal C1 and the second control signal C2 to control the start of the operation of the blood pressure device 20 and the energization of the electrode device 30. Then, the input/output interface 40 receives the blood pressure signal P and the electrocardiographic signal H measured and generated by the blood pressure device 20 and the electrode device 30. Then, the input/output interface 40 transmits the blood pressure signal P and the electrocardiographic signal H to the cloud evaluation device 700 in a wired or wireless manner. The cardiovascular status of the subject 600 can be assessed in a short period of time and returned via the super computer of the cloud evaluation device 700 or artificial intelligence. Therefore, the measurement data can be transmitted to the outside, the brain and cardiovascular states of the testee are evaluated according to the external judgment, the attendance or activity taking suitability is provided, and whether to seek medical advice as soon as possible is judged, so that the effect of quickly evaluating before the attendance is achieved.

In more detail, as shown in fig. 3, the input/output interface 40 includes a control module 41 and a communication port 43, the control module 41 is configured to generate an adjustment instruction a, a first control signal C1 and a second control signal C2 to control the seat 1 to adjust the included angle, control the blood pressure device 20 to operate, and energize the electrode device 30, and the communication port 43 receives the blood pressure signal P and the electrocardiographic signal H and transmits the blood pressure signal P and the electrocardiographic signal H to the cloud evaluation device 700.

Since the health status measuring apparatus 1 only needs one seat size, a general restroom can be used, and even can be applied to the inside of a car, so that the physical status can be evaluated before the car is on duty, for example, in order to reduce the related risks. For situations with high cardiovascular impact, such as amusement parks, high-altitude bounces, marathon competitions, etc., the health status measuring device 1 may also be used to evaluate the participants, which may prevent regret.

The health status measuring apparatus 1 further comprises a display device 50, wherein the display device 50 is driven by the third control signal C3 generated by the control module 41 to generate a local image I, such as a blood vessel image. As shown in fig. 1, the display device 50 includes a connecting unit 51 and a photographing unit 53, the seat 10 further includes a headrest portion 15, and the headrest portion 15 is connected to the backrest portion 13 and is located at an end of the backrest portion 13 far away from the seat cushion portion 11. The connection unit 51 connects the seat 10 and the photographing unit 53, and electrically connects the photographing unit 53 to the input/output interface 40, with the photographing unit 53 facing the headrest portion 15. Here, the photographing unit 53 is mainly used to measure a blood flow image I of the head, and provide the cloud evaluation device 700 with the blood flow image I to determine the blood flow rate, so as to combine the results of the blood pressure signal P and the electrocardiographic signal H to evaluate the states of the artery and the cardiovascular system. In addition, the connecting unit 51 is connected to the headrest portion 15 of the seat 10, but this is merely an example and is not intended to be limiting.

In some embodiments, the photographing unit 53 is an infrared camera, and the local image I is a local temperature distribution image. The flow state of the blood flow is comprehensively evaluated through the distribution of the local body temperature.

In more detail, in some embodiments, the photographing unit 53 is an X-ray camera, and the local image I is a local X-ray image. By moving the photographing unit 53 to the affected part position, the X-ray camera performs irradiation to generate an X-ray image, thereby evaluating whether there is an affected part that is not recovered, or by irradiating at a plurality of angles, providing an X-ray image to the outside to evaluate the state of bone loosening.

Fig. 4 is a state diagram of a health status measuring apparatus according to another embodiment of the present invention. As shown in fig. 4, and referring to fig. 1 and fig. 2, in this embodiment, the wearable blood flow detection device 60 is used instead of the visualization device 50. Here, the wearable blood flow detection device 60 is implemented in a safety helmet type and worn on the head of the subject 600, however, this is not limited to this, and may be implemented in a headband or forehead attachment manner. The wearable blood flow detection device 60 includes at least one detector 65, and the detector 65 is generally disposed inside the wearable blood flow detection device 60 and faces the subject 600. In addition, although only the forehead of the subject 600 is shown, a plurality of detectors may be provided, for example, corresponding to the back of the brain of the subject 600. Thus, the detection signal S is detected and generated for evaluation for different parts.

Fig. 5 is a block diagram of the wearable blood flow detection apparatus 60 of fig. 4. As shown in fig. 4, the detector 65 of the wearable blood flow detection device 60 further includes a light emitter 651 and a light receiver 653, the light emitter 651 generates incident light, and the light receiver 653 receives reflected light of the incident light after being reflected, and converts the reflected light into a detection signal S according to the wavelength of the reflected light. The wavelength of the light wave is absorbed by the human body of the testee 600, so that the wavelength change can be generated to comprehensively evaluate the flowing state of the blood flow.

Further, the light emitter 651 includes a first light source 651A and a second light source 651B, and the first light source 651A and the second light source 651B generate incident light with different wavelengths, respectively. For example, the first light source 651A has a wavelength of 750 to 860nm, and the second light source 651B has a wavelength of 800 to 820 nm. Therefore, different reflected lights can be generated through the light sources with different wavelengths, so that noise generated by uneven skin color or uneven illumination of a human body can be corrected, and the detection signal S can be corrected.

The wearable blood flow detection device 60 further includes a wireless transceiver element 67, the wireless transceiver element 67 is electrically connected to the detector 65 and is wirelessly connected to the input/output interface 40, the wireless transceiver element 67 receives the detection signal S and transmits the detection signal S to the input/output interface 40, and the detection signal S is transmitted from the input/output interface 40 to the cloud evaluation device 700, so that the cloud evaluation device 700 can further determine the neural activation state of the brain according to the detection signal S to preliminarily determine whether there is a disease sign of the brain lesion.

As can be seen from the above description, compared with the prior art, the health status measuring apparatus 1 of the present invention can perform rapid detection in a small space, and the subject can only mount the blood pressure device 20 and the electrode device 30 on the seat 10 for measurement, and the information thereof can be transmitted to the outside through the input/output interface 40 for evaluation, so as to rapidly determine the health status of the subject 600 and provide the evaluation for the relevant personnel for interpretation, thereby ensuring the safety of attendance, evaluating the risk of participating in activities, and avoiding regrets.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims

1. A health status measuring apparatus, comprising:

the chair comprises a chair cushion part and a backrest part, wherein the backrest part is pivoted with the chair cushion part, and the included angle between the backrest part and the chair cushion part is adjustably adjusted;

the blood pressure device is arranged on the seat and used for measuring the blood flow pressure value under the measuring state so as to generate a blood pressure signal;

the electrode device comprises a plurality of electrode plates, is arranged on the seat, and is electrically conducted among the electrode plates under the measuring state so as to generate electrocardiosignals; and

and the input and output interface is electrically connected with the seat, the pressurizing device and the electrode device, receives the blood pressure signal and the electrocardiosignal and transmits the signals.

2. The health status measuring apparatus of claim 1, wherein the angle between the backrest portion and the cushion portion is about 180 degrees when the seat is in the measuring state.

3. The health status measuring apparatus of claim 1, wherein the blood pressure device comprises four pressure units, two of the four pressure units are located at the cushion portion, and the other two of the four pressure units are located at both sides of the backrest portion.

4. The health status measuring apparatus of claim 1, further comprising a display device for generating a partial image.

5. The health status measuring apparatus of claim 4, wherein the display device comprises a connecting unit and a camera unit, the chair further comprises a headrest portion connected to the backrest portion at an end of the backrest portion away from the cushion portion, the connecting unit connects the chair seat and the camera unit, and the camera unit is electrically connected to the input/output interface.

6. The health status measuring apparatus of claim 5, wherein the camera unit is an infrared camera, and the local image is a local temperature distribution image.

7. The health status measuring apparatus of claim 5, wherein the photographing unit is an X-ray camera and the local image is a local X-ray image.

8. The health status measuring apparatus of claim 1, further comprising a wearable blood flow detecting device, wherein the wearable blood flow detecting device comprises a detector and a wireless transceiver, the detector is disposed inside the wearable blood flow detecting device, the detector comprises a light emitter and a light receiver, the light emitter generates incident light, the light receiver receives reflected light of the incident light after reflection and generates a detection signal correspondingly, and the wireless transceiver is electrically connected to the detector, and is connected to the input/output interface in a wireless communication manner to receive the detection signal and transmit the detection signal to the input/output interface.

9. The health status measuring apparatus of claim 8, wherein the light emitter comprises a first light source and a second light source, and the first light source and the second light source respectively generate incident lights with different wavelengths.

10. The health status measuring apparatus of claim 9, wherein the first light source has a wavelength of 750 to 860nm and the second light source has a wavelength of 800 to 820 nm.

11. The health status measuring apparatus of claim 1, wherein the input/output interface comprises a control module and a communication port, the control module is configured to control the seat to adjust the included angle, control the blood pressure device to start operating, and power on the electrode device, and the communication port receives and transmits the blood pressure signal and the electrocardiographic signal.