JP3139011U - Operational facilities incorporating human physiological signs processing and monitoring equipment - Google Patents

Abstract

[PROBLEMS] To provide an operation facility that incorporates a device that detects human physiological signs, constantly grasps the health status of pilots and drivers, and ensures operation safety.
A measuring element 11 that senses and reports a physiological sign of a human body, and converts a received physiological sign signal into an information signal, which is converted to a display device 12, a communication device 21, or a GPS communication device 22. It is the operation equipment 2 incorporating the human physiological signs processing and sensing device which can output, display, communicate, or position.
[Selection] Figure 1

Description

The present invention relates to operation equipment incorporating a human physiological sign processing and monitoring device, and the operator of the operation equipment pays attention to his or her physiological signs at any time through this measurement and processing device to ensure safety during operation of the operation equipment. It relates to operation facilities that secure and increase added value.

With the advancement of science and technology, various operating facilities, such as automobiles, ships, aircraft, and other mobile vehicles, are appearing to develop with the aim of diversification. When users currently purchase operating equipment, safety has become more and more important than first considering its price, performance, ease, stability and practicality. Therefore, designers and manufacturers of operating equipment have been forced to focus on their safety.

Taking an automobile as an example, in order to ensure safety, in addition to firmly configuring the car body, safety accessories include a safety air bag, ABS brake system, reverse radar, third brake light, and there is no time to enumerate It is. The software and hardware are constantly improved for the safety of passengers. However, the above measures are passive, and it goes without saying that it is essential to detect abnormalities by constantly monitoring the driver's physiological signs and to prevent wrinkles.

Techniques for measuring data such as body temperature, blood pressure, pulse, blood sugar, blood oxygen, etc. from the body surface are no longer unusual. The physiology sensation instrument that has advanced one step further has become a mature medical device. If we can extend that function, process the data obtained from the sensor, display the results, issue an alarm, store it, and communicate it elsewhere, how much will it contribute to human welfare? There is something immeasurable.

Based on the above viewpoint, if a physiological symptom processing and sensory device is installed in an operating facility with a very high usage rate and the driver's physiologic signs can be constantly monitored, traffic accidents can be prevented and traffic This will further contribute to ensuring safety. This will be a major issue in the future development of operation facilities.

The inventor of the present application has obtained several utility model patents related to the above-mentioned apparatus in Taiwan in the past. For example: “Physiological function detection device combined with mobile phone” (Taiwan 0045402). 2. "Transmission interface of personal digital assistant combined with life sensation measuring instrument" (Taiwan 00462000). 3. "Human function signal processing device combined with mobile phone" (Taiwan 2004412777). 4). "Earphone life function detector" (Taiwan M241002). 5. "Life Information Wireless Transmission System" (Taiwan 1249122). 6). “Mobile communication device including ear temperature sensor” (Taiwan M292221). 7. “Ear temperature sensor combined with portable communication device” (Taiwan M296028). 8). "Human body function detection module installed in portable communication device" (Taiwan M309299).

In light of the fact that there is still room for improvement in the above technology, the inventor of the present application has developed a device that is more suitable for practical use and contributes to human health and traffic safety. They have come to see the success of the development of operation equipment that incorporates the processing and monitoring device of human physiological signs.
Taiwan 0045402 "Physiological function detection device combined with mobile phone" Taiwan 00462000 "Personal Digital Assistant Transmission Interface Combined with Life Sense Meter" Taiwan 2004412777 “Human Function Signal Processor Combined with Mobile Phone” Taiwan M241002 "Earphone life function detector" Taiwan 1249122 "Life Information Wireless Transmission System" Taiwan M292221 “Mobile communication device including ear temperature sensor” Taiwan M296028 "Ear temperature sensor combined with portable communication device" Taiwan M309299 “Human Function Detection Module Installed in Mobile Communication Device”

The purpose of the present invention is to process human physiologic signs, which allows the operator (driver) of the operating equipment to pay attention to his / her physiological signs at any time, to ensure safety during operation and to enhance the added value. It is in the place of providing operation equipment incorporating monitoring equipment.

Another object of the present invention is to incorporate a human physiological signs processing and monitoring device into various operating facilities such as aircraft, ships, mobile vehicles, ships, rockets, space shuttles, submersibles, etc. The driver is able to sense his or her physiological signs by tactile pressure.

Another object of the present invention is to provide a human physiological signs processing and monitoring device that is inexpensive, easy to operate, small in size, and has a wide range of applications and can be incorporated into operation equipment.

In order to achieve the above object, in the present invention, in operation equipment driven by various types of power used by human beings, a measuring element that senses a physiological sign of the human body and outputs this as a signal to a physiological sign processing and monitoring device; Operation equipment incorporating a human physiological signs processing and monitoring device that converts human physiological signs signals received from measuring elements into information signals and outputs them to a display device, communication device, or GPS communication device This information signal is displayed, alarms are generated, recorded, stored, GPS is used for positioning, and this information is transmitted to a remote location. The operator (driver) of the operating equipment always uses this device to grasp his or her physiological signs and prevent accidents.

The operation facilities incorporating the human physiological signs processing and monitoring device according to the present invention have the following features as compared with similar devices based on the prior art.
(1) Since this device is built into the operation equipment, drivers and pilots can sense their physiological signs anywhere, anytime before accidents are prevented, and safety during operation of the operation equipment is ensured. Its added value is also improved.
(2) It is convenient and applicable to all types and types of operation equipment.
(3) It is highly effective because it can sense and warn by immediate tactile pressure, easy operation, small size, low cost, and wide application range.

FIG. 1 is a diagram illustrating the configuration of operation equipment incorporating a human physiological signs processing and monitoring device according to the present invention. The human physiological signs processing and sensing device 1 is provided inside the operation facility 2.

The operation equipment 2 is, for example, a mobile vehicle, a ship, a submersible, an aircraft (including military aircraft), a space, a shuttle, a rocket, etc., driven by various powers. Is embedded in it.

The measuring element 11 senses a physiological sign of the human body, for example, an electrocardiogram, a pulse, blood sugar, blood pressure, blood oxygen, electroencephalogram, body temperature, breathing, and the like, and reports this to the physiological sign processing and sensing device 1. The measuring element 11 is made in the form of a conductive piece, and is connected to an operating device of the operation equipment 2 or connected to a glove of a driver (driver), and by touching it, the measuring element 11 operates and has a desired shape. A signal is emitted.

The human physiological signs processing and sensing device 1 processes the vital signs signal received from the measuring element 11 and converts it into an information signal, which is output to the display device 12 and the communication device 21. The processing of the human body physiological signs and the function of the sensing device 1 are as follows.

(1) Measure and record the electrocardiogram and pulse of Lead I to create an electrocardiogram. In addition, the ST segment is monitored to detect early signs of myocardial oxygen deficiency. The detectable range is Lead II, III, or AVR, AVF, AVL, and V1 to V6, and a more accurate monitoring effect can be obtained.
(2) Fingerprint identification.
(3) Recording by tactile pressure (measurement of physiological state by tactile pressure change).
(4) Measurement of vital signs such as blood sugar (non-invasive), blood pressure (optional), blood oxygen, body temperature, sweating, breathing, and EEG.
(5) Function for combining RFID.
(6) Image and sound recording.
(7) Create a personal "physiological function monitoring black box" by recording vital signs during operation of the driver (driver).

The display device 12 is provided at an appropriate position inside the operation equipment 2 and receives information signals output from the human physiological signs processing and sensory device 1 and displays them or issues an alarm.

The communication device 21 receives the information signal output from the human physiological signs processing and sensing device 1 and transmits it to a desired target at a remote location.

The GPS communication device 22 receives the information signal output from the human physiological signs processing and sensing device 1, receives positioning from the GPS, and transmits this information to a desired target at a remote location.

The display device 12, the communication device 21, or the GPS communication device 22 is selected according to demand, placed at an appropriate position in the operation facility, and receives physiological symptom processing and information signals from the sensing device 1. It forms a human physiology monitor that displays, alerts, positions, or transmits it remotely.

In the present invention, the human body forms a single electrical circuit for the physiological signs of the human body by contact with the measuring element 11, the sensed physiological sign signal is processed by the physiological sign processing and the sensing device 1, information It is converted into a signal and selectively output to the display device 12, the communication device 21 or the GPS communication device 22 for display, alarming, positioning, or transmitting this signal to a remote place. Thus, the physiological state of the driver (driver) can be grasped even from a distance.

FIG. 2 is a diagram showing one embodiment of the present invention. Since the two conductive pieces 31 in FIG. 2 are located on each one of the steering wheel 3 of the automobile, the driver can easily touch with the thumbs of both hands to form one electric circuit. The physiological sign signal is converted into an information signal by the processing and sensing device 1, and this is displayed or alarmed by the display device 4 in the vehicle. In addition, this information signal can be transmitted to a remote place by a communication device, or can be positioned by GPS. In this way, both the driver himself and the remote monitor can always grasp the health condition of the driver and prevent danger. Moreover, an alarm device can be provided at a prominent position on the vehicle to give a warning to the following vehicle.

FIG. 3 is another embodiment of the present invention. Aircraft pilots, especially military aircraft pilots, are often subjected to momentary physiology and psychological pressure, causing heart failure and abnormal heart function, leading to loss of personnel and aircraft. Therefore, in FIG. 3, two conductive pieces 51 are provided on both sides of the aircraft control stick 5 so that the pilot can easily touch with the thumbs of both hands to form one electric circuit. The physiological sign signal is converted into an information signal by the processing and sensing device 1, and this is displayed on the display device 4 or an alarm is issued. In addition, this information signal can be transmitted to a remote place by a communication device, or can be positioned by GPS. In this way, the physiological state of the pilot is immediately grasped to prevent danger. The pilot's physiological record obtained in this way will be an important reference material for regular flight training.

The present invention can be implemented in various other forms without departing from the technical idea of the present invention. The above-described embodiments are merely to clarify the technical contents of the present invention, and should not be construed in a narrow sense by limiting only to such specific examples, but within the spirit and scope of the present invention. It can be implemented with various changes.

Configuration explanatory diagram incorporating the human physiological signs processing and monitoring device and its peripheral equipment according to the present invention Illustration of the first embodiment of the present invention Explanatory drawing of 2nd Example of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Human physiological sign processing and measurement device 11 Measuring element 12 Display device 2 Operating equipment 21 Communication device 22 GPS communication device 3 Car handle 31 Conductive piece 4 Display device 5 Aircraft control stick 51 Conductive piece

Claims (18)

In operation facilities driven by various types of power used by humanity,
A measuring element that senses a physiological sign of the human body and outputs this to a physiological sign processing and monitoring device as a signal;
Incorporating a human physiological sign processing and monitoring device that converts the human physiological sign signal received from the measurement element into an information signal and outputs it to a display device, a communication device, or a GPS communication device, Operating facilities. In operation facilities driven by various types of power used by humanity,
A measuring element that senses a physiological sign of the human body and outputs this to a physiological sign processing and monitoring device as a signal;
The human physiological sign signal received from the measuring element is converted into an information signal, which is output to a display device, a communication device, or a GPS communication device, and the human physiological sign processing and monitoring device,
Select a display device, communication device, or GPS communication device according to demand, place it at an appropriate position in the operation facility, receive the information signal from the physiological sign processing and monitoring device, and display it Operational equipment characterized by incorporating monitoring and control means for warning, positioning, or transmitting remotely. In operation facilities driven by various types of power used by humanity,
A measuring element that senses a physiological sign of the human body and outputs this to a physiological sign processing and monitoring device as a signal;
The human physiology sign processing and monitoring device that converts the human physiology sign signal received from the measurement element into an information signal and outputs it to a display device;
The operation is characterized by incorporating a display device that is placed at an appropriate position in the operation facility, receives an information signal output from the processing and monitoring device of the human physiological signs, and displays or alerts the information signal. Facility. In operation facilities driven by various types of power used by humanity,
A measuring element that senses a physiological sign of the human body and outputs this to a physiological sign processing and monitoring device as a signal;
Converting the human physiological sign signal received from the measuring element into an information signal and outputting it to a communication device, the human physiological sign processing and monitoring device,
An operation facility comprising the communication device for receiving an information signal output from the processing and monitoring device of the human physiological signs and transmitting the signal to a remote location. In operation facilities driven by various types of power used by humanity,
A measuring element that senses a physiological sign of the human body and outputs this to a physiological sign processing and monitoring device as a signal;
Converting the human physiological sign signal received from the measuring element into an information signal and outputting it to a GPS communication device, the human physiological sign processing and monitoring device,
An operation facility comprising a GPS communication device that receives an information signal output from the apparatus for processing and monitoring the physiological signs of the human body, positioning with GPS, and transmitting the position information to a remote location. 6. The operation equipment according to claim 1, wherein the measuring element is a conductive piece having a function of being touched to form an electric circuit and performing sensory measurement. 7. The sensory measurement and processing device according to claim 6, wherein the conductive piece is coupled to an operating device of a travel facility. The operation equipment according to claim 6, wherein the conductive piece is connected to a glove of a driver of the operation equipment. The human physiological signs processing and monitoring device is characterized by sensing an electrocardiogram or pulse of Lead I and recording an electrocardiogram, and monitoring an ST segment to detect early myocardial oxygen deficiency signs. 6. The operation facility according to any one of claims 1 to 5. The apparatus for processing and monitoring human physiological signs senses Lead II, III or AVR, AVF, V1 to V6 to achieve a more accurate sensory effect. 5. The operation facility according to any one of 5 above. 6. The operation facility according to claim 1, wherein the human physiological signs processing and monitoring device has a fingerprint identification function. The operation equipment according to any one of claims 1 to 5, wherein the human physiological signs processing and monitoring device has a function of recording by tactile pressure. 2. The human physiological signs processing and monitoring device has a function of sensing physiological signs such as blood glucose, blood pressure, blood oxygen, body temperature, sweat volume, respiration, and electroencephalogram. The operation facility according to any one of the above. 6. The operating facility according to claim 1, wherein the human physiological signs processing and monitoring device has a function combined with RFID. 6. The operation facility according to claim 1, wherein the human physiological signs processing and monitoring device is capable of recording an image and a sound. 6. The human physiological signs processing and monitoring device according to any one of claims 1 to 5, characterized in that all life signs during operation of the operator of the operation facility are recorded, stored and analyzed. The operation facilities described in the item 1. The human body physiological signs processing and monitoring device outputs an alarm signal to an alarm device and warns a subsequent vehicle to avoid danger, according to any one of claims 1 to 5. The listed operating facilities. The operation equipment is an operation equipment that operates on land, ocean, and air such as a mobile vehicle, a ship, a submersible, an aircraft including a military aircraft, a space shuttle, and the like. The operation equipment described in any one item.