KR20040084055A - A powered wheelchair control sensor by using head motion and implemented system for spinal injured persons - Google Patents

Abstract

PURPOSE: Provided are an electronically driven wheelchair manipulation sensor installed on a cap worn on the head of a spinally disabled person who is not able to move his/her hands and a wheelchair controller employing the sensor to enable the spinally disabled person to manipulate the wheelchair conveniently and easily using the head motion without others' help. CONSTITUTION: The electronically driven wheelchair manipulation sensor(10) comprises: a hexahedral case(11) which has an hollow therein; a force sensitive resistor sensor(FSR)(12) which is attached to each of front, back, right and left sides of the case(11) and has resistance values varying according to a force applied thereto; a pressurizing unit(13) which is inserted into the hollow of the case(11) and pressurize the FSR sensor(12) according as the case(11) is inclined; and a wearing member(14) which is connected to an outer portion of the case(11) to allow the case(11) to be worn on the user's head.

Description

A powered wheelchair control sensor by using head motion and implemented system for spinal injured persons}

The present invention relates to an electric wheelchair control sensor for a spinal cord injury handicapped, and more particularly, to a sensor for controlling the movement of an electric wheelchair with head movement of a disabled spinal cord injured person. In addition, the present invention also relates to an apparatus for controlling the driving of the wheelchair using the steering sensor.

Most of the spinal cord injured people who cannot move their hands are not able to drive a wheelchair at all and are always assisted by an assistant. In addition, it is currently difficult to obtain a wheelchair equipped with a control device for use by the disabled. As such, there are not many wheelchairs that can be used more easily by people with spinal cord injury who cannot move their hands.

Among the wheelchairs to date, the wheelchair for the disabled includes a contact or non-contact switch mounted on the head restraint to measure the movement of the head of the disabled to control the wheelchair, and a joystick on the chin to move the wheelchair. There is a wheelchair to control the way.

For example, U.S. Patent No. 4,093,037 (Head actuated control apparatus for battery-powered wheelchair) is a technique for steering the wheelchair through the head movement of the disabled. The patent is to install a joystick on the head restraint, and to control the joystick by moving the head of the disabled. In addition, the patent is designed to switch the wheelchair on and off as needed, with a switch attached to the head restraint.

And, US Patent No. 4,260,035 (Chin controller system for powered wheelchair) is known to control the wheelchair by controlling the joystick to the jaw of the disabled. The patent is configured so that the sensor for measuring the angle is located behind the neck of the disabled, and connected to the jaw of the disabled with a long bar (bar). That is, the patent is to control the wheelchair by measuring the angle of the bar (bar) to rotate according to the movement of the disabled person's jaw. For example, if the disabled person moves the chin up and down, the wheelchair is controlled back and forth, and if the disabled person moves the chin left and right, the wheelchair is controlled left and right.

There are wheelchairs using the above patented technologies, but usually people with disabilities tend to feel very troubled to wear special devices that are not used by normal people. Thus, people with disabilities tend not to use wheelchairs equipped with controls that are clearly visible to others. In addition, the prior art has a inconvenience to control the joystick by moving the jaw, or to control the joystick installed in the head restraint by moving the head.

Therefore, the present invention has been made in order to solve the problems of the prior art as described above, is installed in a hat or the like that is covered on the head of the disabled spinal injury disabled hand can only measure the direction and degree of inclination of the head of the disabled The purpose of the present invention is to provide a control sensor that can be used to conveniently control the wheelchair by navigating the movement of the electric wheelchair.

In addition, another object of the present invention is to provide a wheelchair drive control device that can more easily manipulate the wheelchair using the steering sensor.

1 is a schematic diagram showing the relationship between the electric wheelchair control sensor using the head movement, the spinal cord injury disabled person, and the control device fixed to the wheelchair according to the present invention,

2a and 2b is an exploded perspective view and a combined perspective view showing the configuration of the electric wheelchair control sensor for the spinal injury disabled using a head movement according to an embodiment of the present invention,

3 is a cross-sectional view of the sensor shown in FIG. 2B taken along line A-A,

4 is a schematic diagram showing a steering principle of the sensor shown in FIG.

5 is a circuit diagram illustrating a principle of detecting a resistance value of a control sensor of the present invention in a control apparatus;

6 is a conceptual diagram showing a direction relationship controlled by the sensor of the present invention according to the head movement,

7 is a circuit diagram of a wheelchair drive control device using a steering sensor of the present invention.

♠ Explanation of symbols on the main parts of the drawing ♠

10: control sensor 11: case

12: FSR sensor 13: pressure port

14: wearing member 20: wheelchair

30: drive control device

The control sensor of the present invention for achieving the above object is an FSR sensor (Force Sensitive that the resistance value is changed in accordance with the force applied to each of the case of the shape of the cube empty and the front, left, right and right sides of the case, respectively) A Resistor Sensor, a pressure port inserted into the case to which the FSR sensor is attached and pressurizing the FSR sensor positioned in an inclined direction as the case is inclined, and coupled to the outside of the case, Characterized in that it comprises a wearing member configured to wear the case on the head.

In addition, the drive control device of the present invention is characterized in that for controlling both wheels of the wheelchair by receiving a signal from the steering sensor.

In the following, with reference to the accompanying drawings a preferred embodiment of the electric wheelchair control sensor for a disabled spinal injury using a head movement and a wheelchair drive control device using the same according to the present invention will be described in detail.

1 is a schematic diagram showing the relationship between the electric wheelchair control sensor using a head movement, the spinal cord injury disabled person, and the control device fixed to the wheelchair according to the present invention.

As shown in Figure 1, the electric wheelchair control sensor 10 of the present invention is configured to be worn on the head of the disabled, and also configured to control the direction of the wheelchair according to the head movement of the disabled person wearing it. . And, the wheelchair 20 is provided with a control device 30 for controlling the two wheels of the wheelchair 20 by receiving the direction control signal of the steering sensor 10 by wire. That is, the wheelchair 20 illustrated in FIG. 1 is worn on the head of a disabled person and receives a signal from the control device 30 to control the direction of the electric wheelchair control sensor 10 that controls the direction according to the movement of the head. To be controlled.

2a and 2b is an exploded perspective view and a combined perspective view showing the configuration of the electric wheelchair control sensor for the spinal injury disabled using a head movement according to an embodiment of the present invention, Figure 3 is a line showing the sensor shown in Figure 2b Sectional view taken along AA.

As shown in Figures 2a to 3, the electric wheelchair control sensor 10 of the present invention is an FSR attached to the case 11 and the four sides of the front and rear, left and right sides of the cube-shaped hollow inside, respectively; A pressure port that is inserted into the sensor 12 and the case 11 to which the FSR sensor 12 is attached and presses the FSR sensor 12 positioned in the inclined direction as the case 11 is inclined. 13 and the wearing member 14 coupled to the outside of the case 11 and configured to wear the case 11 to the head of a disabled person.

The case 11 is configured in the form of a cube and serves to embed the FSR sensor 12 and the pressure port 13 attached or inserted into the inside thereof, respectively. At this time, the connection line connected to one end of the FSR sensor 12 is exposed to the outside of the case 11 so that the signal of the FSR sensor 12 can be input to the control device 30.

In addition, the FSR sensor 12 is a pressure sensor in the form of a thin film, and is a variable resistor having a property of decreasing the resistance value when the applied force is large. Therefore, when the force applied to the FSR sensor 12 is "F", the resistance value R at that time can be approximated to "aF ^b ". At this time, a and b are constants related to the inherent characteristics of the FSR sensor 12 and the area of the portion to which the force is applied.

In addition, the pressing hole 13 is formed in a spherical shape and is inserted into the case 11, and the size of the pressing hole 13 is enough to press the FSR sensor 12 located in the inclined direction as the case 11 is inclined. And have a weight.

In addition, the wearing member 14 is coupled to the outside of the case 11 and is configured to be worn on the head of the case 11, it is composed of a general hat, or head bend. However, the wearing member 14 need not be limited to the above components, and may be configured in any form as long as the case 11 can be worn on the head to move integrally with the head.

In the following, the principle of steering the wheelchair using the electric wheelchair control sensor of the present invention configured as described above will be described.

4 is a schematic diagram illustrating a steering principle of the sensor illustrated in FIG. 3, and FIG. 5 is a circuit diagram illustrating a principle of sensing a resistance value of a steering sensor of the present invention by a control device.

As shown in FIG. 4, when the disabled person wearing the steering sensor 10 of the present invention tilts the head and the case 11 is inclined in one direction, the pressure opening 13 positioned inside the case 11 is tilted. Pressurizes the FSR sensor 12 located in the losing direction. At this time, when the weight of the pressure port 13 is W and the inclination angle is θ, the force F applied to the FSR sensor 12 is represented by Wsinθ, and finally the resistance value of the FSR sensor 12 ( R) is represented by a (Wsinθ) ^b . In addition, the force acting on the FSR sensor 12 changes according to the degree of inclination of the case 11. The FSR sensor 12 is a variable resistor, so that the more the force F acts, the smaller the resistance value R becomes. do.

As described above, in the electric wheelchair control sensor 10 of the present invention, the FSR sensor 12 is positioned in each of four directions, and the FSR sensor 12 is applied to the magnitude (the degree of head tilt) of the force F acting there. Since the resistance value (R) changes accordingly, the direction of the wheelchair is controlled by using the resistance value.

The resistance value of this FSR sensor 12 is transmitted to the controller 30 through a voltage divider. That is, as shown in FIG. 5, the fixed resistance is grounded and 5V Vcc is applied to the FSR sensor 12. In this state, since the resistance value of the FSR sensor 12 is large when the force is applied to the FSR sensor 12, a low voltage is transmitted to the AD converter, and the FSR is applied when the force is applied to the FSR sensor 12 much. Since the resistance value of the sensor 12 becomes small, a high voltage is transmitted to the AD converter. Then, the AD converter converts an analog signal of a corresponding voltage into a digital signal and transmits it to the control device 30, and controls the direction of the wheelchair in the control device 30 according to the received signal.

In the following, the orientation relationship of the wheelchair controlled by the electric wheelchair control sensor of the present invention will be described.

6 is a conceptual diagram illustrating a direction relationship controlled by the sensor of the present invention according to head movement.

As shown in Figure 6, the wheelchair operates according to the inclination direction of the head of the disabled person wearing the steering sensor 10 of the present invention to the head. That is, the wheelchair is forward when the head leans forward, backward when it is flipped back, left when it is tilted to the left, right when it is tilted to the right, and stops when the head is positioned straight. Then, the forward or backward speed of the wheelchair is controlled according to the degree of tilting the head. In addition, in stopping the wheelchair is configured to stop if the head is straight to some extent. That is, when the pressure port 13 does not press the FSR sensor 12 by a predetermined force or more, the wheelchair operates to stop or is configured to maintain the stopped state in the stopped state.

Hereinafter, the wheelchair drive control device using the electric wheelchair control sensor of the present invention configured as described above will be described.

7 is a circuit diagram of a wheelchair drive control device using a steering sensor of the present invention.

As shown in FIG. 7, the wheelchair drive control device 30 of the present invention controls the wheelchair by a signal input from the electric wheelchair control sensor 10 configured as described above, instead of a signal input by manipulating a conventional joystick. Except that, it is configured in the same manner as a conventional drive control apparatus. That is, in the wheelchair drive control device 30 of the present invention, the input signal for manipulating the wheelchair is inclined to the direction in which the electric wheelchair control sensor 10 is inclined.

Wheelchair drive control device 30 of the present invention is the FSR signal input unit 31 and the FSR signal input unit 31 for inputting the resistance value of the FSR sensor 12 of the steering sensor 10 configured as described above through a voltage divider The microcontroller 32 for analyzing the FSR signal input by using a defined algorithm and generating an appropriate wheelchair control signal, and the drive signal of the wheelchair generated by the microcontroller 32 to fit the control specification of the wheelchair. It includes a wheelchair interface unit 33 to convert. In addition, the drive control device 30 of the present invention to complement the functions of the signal check unit 34 and the micro control unit 32 provided with an LED panel to visually identify the signal transmitted to the wheelchair. And a control computer interface 35 for constructing an interface for using the control computer. In addition, the drive control device 30 of the present invention, the drive driver unit 36 for driving the wheel of the wheelchair in accordance with the wheelchair control signal of the micro control unit 32, the power supply unit 36 for supplying power, and emergency It includes an emergency stop switch 38 for stopping the wheelchair.

The wheelchair drive control device 30 of the present invention configured as described above controls the wheelchair in the same manner as the conventional method through the components input signal from the steering sensor 10.

As described in detail above, the present invention is installed in a hat that is placed on the head of a disabled person with a spinal injury that cannot move his hand, and only measures the direction and degree of inclination of the head of the disabled to control the movement of the electric wheelchair so that the other person is not conscious. It is effective to control the wheelchair conveniently.

In the above description of the technical details of the electric wheelchair control sensor for a spinal cord injury handicapped using the head movement of the present invention and a wheelchair drive control device using the same with the accompanying drawings, but this is illustrative of the best embodiment of the present invention. It is not intended to limit the invention.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations within the scope of the appended claims without departing from the scope of the technical idea of the present invention.

Claims (4)

In the sensor to control the movement of the electric wheelchair by the head movement of the handicapped spinal injury disabled, A cube-shaped case with an empty interior, a force sensitive resistor (FSR) sensor whose resistance is changed according to the force applied to each of the front, rear, left, and right sides of the case, and the case with the FSR sensor Is inserted into the interior of the case as the case is inclined to press the FSR sensor is located in the inclined direction, and a pressing member coupled to the outside of the case and configured to wear the case on the head Electric wheelchair control sensor for the spinal injury disabled by using a head movement. According to claim 1, wherein the wearing member is a electric wheelchair control sensor for spinal injury disabled using a head movement, characterized in that the hat. According to claim 1, wherein the wearing member is electric wheelchair control sensor for spinal injury disabled using a head movement, characterized in that the bend. In the wheelchair drive control device for controlling both wheels of the wheelchair by receiving a signal from the steering sensor for controlling the wheelchair through the movement of the head of the disabled disabled spinal injury, The steering sensor is a cube-shaped case with a hollow inside, a force sensitive resistor (FSR) sensor whose resistance value is changed according to the force applied to each of the front, rear, left, and right sides of the case, and the FSR sensor A pressure port inserted into the attached case and pressurizing the FSR sensor positioned in the inclined direction as the case is inclined, and coupled to the outside of the case and configured to wear the case to the head Wheelchair drive control device using an electric wheelchair control sensor for the spinal injury disabled using a head movement, characterized in that it comprises a wearing member.