JP6936668B2 - Wheelchair stair lift - Google Patents

Description

The present invention relates to a wheelchair stair lift that carries a wheelchair to move up and down stairs.

Conventionally, there is known a wheelchair stair lift in which a wheelchair mounting portion is pivotally provided in a traveling device provided with a belt crawler and capable of traveling on stairs (see, for example, Patent Document 1).
In this wheelchair stair lift, the wheelchair mounting portion is arranged substantially parallel to the traveling device when the wheelchair is mounted on the wheelchair mounting portion or when moving on a flat ground toward the stairs.
Then, when the wheelchair stair lift moves up and down the stairs, the angle of the wheelchair mounting portion is switched with respect to the traveling device traveling on the stairs so that the posture of the wheelchair mounted on the wheelchair mounting portion is substantially horizontal. ing.

Japanese Patent No. 2551862

By the way, in the case of the wheelchair stair lift of Patent Document 1, a pair of left and right belt crawlers are connected by a drive shaft, and the left and right belt crawlers rotate at the same speed, so that the wheelchair stair lift can only go straight. It has become.
Therefore, when changing the moving direction of the wheelchair stairlift, the caregiver had to manually change the direction of the elevator. It was difficult to change. In particular, it was difficult for a wheelchair stair lift to change its direction when going up and down stairs.

An object of the present invention is to provide a wheelchair stair lift capable of preferably raising and lowering stairs.

In order to achieve the above object, the present invention
A traveling device capable of traveling on stairs equipped with a pair of left and right crawler that are independently rotationally driven, and a wheelchair mounting portion pivotally installed in the traveling device are provided, and the wheelchair is mounted on the wheelchair mounting portion. It is a wheelchair stair lift that goes up and down stairs.
The wheelchair stair lift is provided with a pair of distance measuring sensors that are arranged side by side in the left-right direction and measure the distance to the riser plate of the stairs.
A control unit that drives and controls the stair lift for wheelchairs,
With
The control unit
When the stair lift for wheelchairs travels at least on the stairs, the degree of inclination of the stair lift for wheelchairs in the traveling direction with respect to the ascending / descending direction of the stairs is determined based on the difference in distances measured by the pair of distance measuring sensors. Inclination judgment means and
When the inclination determining means determines that the inclination of the stairlift for wheelchair in the traveling direction is equal to or greater than a predetermined angle, the rotation speed of the crawler on the side where the stairlift for wheelchair is inclined behind the elevating direction is relative to each other. Crawler control means for tilt correction that switches the rotation speed of at least one crawler so as to raise it
I tried to prepare.

In the case of a wheelchair stair lift having such a configuration, the degree of inclination of the wheelchair stair lift in the traveling direction with respect to the stair climbing direction is determined based on the difference in the distances to the stair riser measured by each pair of distance measuring sensors. can do.
Then, based on the judgment that the inclination of the wheelchair stairlift in the traveling direction is equal to or greater than a predetermined angle, the rotation speed of the crawler on the side where the wheelchair stairlift is inclined behind the elevating direction of the stairs is relatively increased. By switching in this way, the tilt of the stairlift for wheelchairs can be corrected so as to match the traveling direction of the stairlift for wheelchairs with the elevating direction of the stairs.
In this way, the wheelchair stair lift can preferably move up and down the stairs by traveling on the stairs while correcting the inclination in the traveling direction.

Also, preferably
A side distance measuring sensor for measuring the distance to one of the side walls of the stairs is provided.
The control unit
It is determined whether or not the distance to the side wall measured by the lateral distance measuring sensor is closer than the first threshold value and whether or not it is farther than the second threshold value having a value larger than the first threshold value. Side wall distance determination means and
When the side wall distance determining means determines that the distance to the side wall measured by the side distance measuring sensor is closer than the first threshold value, the rotation speed of the crawler on the side wall side of the wheelchair stairlift is determined. If the rotation speed of at least one crawler is switched so as to increase the relative speed, and the distance to the side wall measured by the lateral distance measuring sensor is determined to be longer than the second threshold value, the stair lift for wheelchair is used. A crawler control means for correcting the side wall distance that switches the rotation speed of at least one of the crawlers so as to relatively increase the rotation speed of the crawler on the side opposite to the side wall.
To be prepared.

When a wheelchair stairlift equipped with such a configuration travels along the side wall of a staircase and approaches the side wall beyond a predetermined range, the rotation speed of the crawler on the side wall side of the wheelchair stairlift is relative. By switching to raise the wheelchair, the wheelchair stairlift can be adjusted to move away from the side wall.
Similarly, when a wheelchair stairlift that travels along the side wall of a staircase moves away from the side wall beyond a predetermined range, the rotation speed of the crawler on the side opposite to the side wall of the wheelchair stairlift is relatively high. By switching to raise, the wheelchair stairlift can be adjusted to approach the side wall.
By doing so, the wheelchair stair lift can travel on the stairs while maintaining a suitable distance from the side wall without being too close to the side wall and not too far from the side wall.

Also, preferably
The side wall distance determining means has a function of executing a process of determining whether or not the distance to the side wall measured by the lateral distance measuring sensor is closer than the third threshold value, which is smaller than the first threshold value. Have and
The control unit
When the side wall distance determining means determines that the distance to the side wall measured by the lateral distance measuring sensor is closer than the third threshold value, the pair of crawlers so as to stop the running of the wheelchair stair lift. A crawler stop control means for stopping the rotational drive of the vehicle is provided.

When the wheelchair stair lift having such a configuration travels along the side wall of the stairs, the wheelchair stair lift can be stopped urgently when the side wall is too close to or too far from the side wall.

Also, preferably
The side wall distance determining means has a function of executing a process of determining whether or not the distance to the side wall measured by the lateral distance measuring sensor is farther than a fourth threshold value having a value larger than the second threshold value. Have and
The control unit
When the side wall distance determining means determines that the distance to the side wall measured by the lateral distance measuring sensor is farther than the fourth threshold value, the pair of crawlers so as to stop the running of the wheelchair stair lift. A crawler stop control means for stopping the rotational drive of the vehicle is provided.

When the wheelchair stair lift having such a configuration travels along the side wall of the stairs, the wheelchair stair lift can be stopped urgently when the side wall is too close to or too far from the side wall.

According to the present invention, a wheelchair stair lift capable of ascending and descending stairs can be obtained.

It is a schematic side view (a) which shows the stair lift for a wheelchair of this embodiment, and the schematic top view (b) which shows the main part thereof. It is a schematic side view which shows the stair lift for a wheelchair running on a flat ground. It is a block diagram which shows the control system of the stair lift for a wheelchair. It is explanatory drawing which shows an example of the operation control at the time of traveling the stairs by the stair lift for wheelchair of this embodiment.

Hereinafter, embodiments of the wheelchair stair lift according to the present invention will be described in detail with reference to the drawings. However, although the embodiments described below are provided with various technically preferable limitations for carrying out the present invention, the scope of the present invention is not limited to the following embodiments and illustrated examples.

As shown in FIGS. 1 (a), 1 (b), 2 and 3, the wheelchair stair lift 100 includes a traveling device 10 having a pair of left and right crawlers 11 and capable of traveling on the stairs S, and a traveling device 10 centered on the traveling device 10. It is a device provided with a wheelchair mounting portion 20 provided, and a wheelchair C can be mounted on the wheelchair mounting portion 20 to move up and down stairs S.

The wheelchair stair lift 100 of the present embodiment is provided in an arrangement arranged in the left-right direction, and is a pair of distance measuring sensors 30 for measuring the distance to the plate surface (raising surface) of the rise plate P of the stair S, and the stair S. A side distance measuring sensor 40 that measures the distance to one of the side walls W, a wheelchair mounting part drive unit 50 that switches the angle of the wheelchair mounting part 20 with respect to the traveling device 10, a controller 60 that operates an elevator, and the like. It is configured to include a control unit 1 that controls each part of the elevator, a battery, and the like.

The traveling device 10 includes a crawler drive motor 12 that rotates the drive wheels 11a of the crawler 11 and rotationally drives the crawler 11.
The crawler drive motor 12 is provided on each of the pair of left and right crawlers 11, and the pair of left and right crawlers 11 are independently rotationally driven.
A driven wheel 11b is arranged on the opposite side of the driving wheel 11a in the crawler 11, and the crawler 11 has a length extending at least two steps of the stairs S between the driving wheel 11a and the driven wheel 11b. ing.

Further, a side distance measuring sensor 40 is arranged on the frame 10a of the traveling device 10. The side distance measuring sensor 40 is a well-known distance sensor, and a laser type, ultrasonic type, reflected light type or the like can be used.
The wheelchair stair lift 100 of the present embodiment is provided with four side distance measuring sensors 40.
Specifically, two side distance measuring sensors 40 are provided on the frame 10a on the left side of the elevator, one side distance measuring sensor 40 is provided near the drive wheel 11a, and the other is near the driven wheel 11b. It is provided. Similarly, the frame 10a on the right side of the elevator is provided with two lateral distance measuring sensors 40, one of which is provided in the vicinity of the drive wheel 11a and the other in the vicinity of the driven wheel 11b. ing.
The side distance measuring sensor 40 may be provided with one each on the front and rear on the left side of the elevator or one on the front and back on the right side of the elevator.
Since the wheelchair stair lift 100 travels at a position close to any of the side walls W on both sides of the stairs S, for example, the side distance measuring sensor 40 provided on the frame 10a near the side wall W is used. The distance to the side wall W on the side of the stairs S is measured.
In particular, of the two side distance measuring sensors 40 provided on the frame 10a, the side distance measuring sensor 40 in front of the traveling direction is switched to be used. In the present embodiment, when traveling in the direction of going up the stairs S, the side distance measuring sensor 40 on the driven wheel 11b side is switched to be used, and when traveling in the direction of descending the stairs S, the driving wheels 11a are used. Switch to use the lateral ranging sensor 40 on the side.
If there is a side wall W on only one side of the stairs S, the wheelchair stair lift 100 is run at a position close to the side wall W, and among the side distance measuring sensors 40 provided on the frame 10a near the side wall W. , The lateral ranging sensor 40 in front of the traveling direction may be used.

The wheelchair mounting portion 20 is, for example, a substantially box-shaped bottomed basket-shaped container, such as a slope used when the wheelchair C gets on and off the wheelchair mounting portion 20, and a lock for fixing the wheelchair C to the wheelchair mounting portion 20. It has a mechanism and so on.

Further, the wheelchair mounting portion 20 is provided with a pair of distance measuring sensors 30. The pair of distance measuring sensors 30 are well-known distance sensors, and sensors such as a laser type, an ultrasonic type, and a reflected light type can be used.
In the present embodiment, a pair of ranging sensors 30 are provided on the outer surface of the wheelchair mounting portion 20 near the bottom surface in an arrangement arranged in the left-right direction.
Specifically, when the elevating direction of the stairs S and the traveling direction of the wheelchair stair lift 100 match, the distances to the riser plate P of the stairs S measured by the pair of left and right distance measuring sensors 30 are the same value. A pair of distance measuring sensors 30 are arranged in the wheelchair mounting portion 20 in such an arrangement.
The pair of left and right ranging sensors 30 are arranged on the surface of the traveling device 10 on the vicinity side of the driven wheel 11b, respectively.

The wheelchair mounting portion drive unit 50 is, for example, a cylinder device, one end of which is connected to the frame 10a of the traveling device 10 and the other end of which is connected to the wheelchair mounting portion 20.
The drive unit 50 for the wheelchair mounting portion operates so as to contract the cylinder when the stair lift 100 for wheelchair moves toward the stairs S on a flat ground (see FIG. 2), and mounts the wheelchair on the traveling device 10. The angle of the wheelchair mounting portion 20 with respect to the traveling device 10 is switched so that the portions 20 are arranged substantially in parallel. Further, when the stair lift 100 for chairs moves up and down the stairs S, the cylinder is extended so that the posture of the wheelchair C mounted on the wheelchair mounting portion 20 is substantially horizontal with respect to the traveling device 10. The angle of the wheelchair mounting portion 20 is switched.
The drive unit 50 for the wheelchair mounting portion is not limited to the cylinder device, and other drive mechanisms may be adopted.

The controller 60 is an operation unit that is wired or wirelessly connected to the wheelchair stair lift 100, and is operated by a caregiver of the wheelchair C.
For example, in the semi-automatic mode in which the elevator is driven by using the measurement results of various sensors, the controller 60 mainly performs operations related to forward / backward movement of the wheelchair stair lift 100. Further, of the four side distance measuring sensors 40, the side distance measuring sensor 40 to be used may be switched by the controller 60.
Further, in the manual mode in which the elevator is driven without using the measurement results of various sensors, the controller 60 performs operations related to forward / backward movement, left / right direction instruction, and stop of the wheelchair stair lift 100.

The control unit 1 is configured to include, for example, a CPU that performs various arithmetic processes and a ROM that stores various control programs and various data executed by the CPU, and controls each unit of the device in an integrated manner. It has become like.
The ROM of the control unit 1 contains threshold values (first threshold value D1, second threshold value D2, third threshold value, fourth threshold value D4), which will be described later, and reference values of angles related to the inclination of the wheelchair stairlift 100 in the traveling direction (first threshold value D1). 1 reference value, 2nd reference value) are stored.
The data related to the threshold values (first threshold value D1, second threshold value D2, third threshold value, fourth threshold value D4) is input via the controller 60 according to the width of the stairs S on which the wheelchair stair lift 100 travels. You may set it.

For example, the control unit 1 determines the degree of inclination of the stair lift 100 for wheelchairs in the traveling direction with respect to the elevating direction of the stairs S, based on the difference in the distances to the riser plates P measured by the pair of distance measuring sensors 30 respectively. Performs processing as a tilt determination means.
As described above, when the elevating direction of the stairs S and the traveling direction of the stair lift 100 for wheelchairs match, the distances to the riser plate P of the stairs S measured by the pair of left and right distance measuring sensors 30 are the same value. Therefore, when the distances to the riser plates P measured by the pair of distance measuring sensors 30 are different values, the traveling direction of the stair lift 100 for wheelchairs is tilted with respect to the elevating direction of the stairs S. Can be determined.

For example, when the difference in the distances to the riser plates P measured by the pair of distance measuring sensors 30 is less than the first reference value, the control unit 1 functioning as the inclination determining means is a stair for a wheelchair in the ascending / descending direction of the stairs S. It is determined that the inclination of the elevator 100 in the traveling direction is within an error range of less than 3 °, and that the stairlift 100 for wheelchairs is not inclined in the traveling direction.
Further, when the difference in the distances to the riser plate P measured by the pair of distance measuring sensors 30 is larger than the first reference value and smaller than the second reference value having a value larger than the first reference value, the inclination determining means. The control unit 1 functions as do.
Further, when the difference in the distances to the riser plates P measured by the pair of distance measuring sensors 30 exceeds the second reference value, the control unit 1 functioning as the inclination determining means is a stair lift for wheelchairs with respect to the elevating direction of the stairs S. It is determined that the inclination of 100 in the traveling direction is 10 ° or more, and that the stairlift 100 for wheelchairs has a large inclination in the traveling direction.
Since the reference value regarding the difference in the distance to the riser plate P measured by the pair of distance measuring sensors 30 differs depending on the distance between the pair of distance measuring sensors 30, it is set according to the design of the elevator.

Further, when the control unit 1 functioning as the inclination determining means determines that the inclination of the wheelchair stairlift 100 in the traveling direction is equal to or more than a predetermined angle, the wheelchair stairlift 100 determines the stairs S. The process as the tilt correction crawler control means for switching the rotation speed of at least one of the crawler 1 is executed so as to relatively increase the rotation speed of the crawler 11 on the side tilted behind the elevating direction of.
For example, when the control unit 1 functioning as an inclination determining means determines that the inclination of the wheelchair stairlift 100 in the traveling direction is 3 ° or more, the wheelchair stairlift 100 tilts behind the ascending / descending direction of the stairs S. Elevating the stairs S by switching to increase the rotation speed of the crawler 11 on the other side, switching to decrease the rotation speed of the crawler 11 on the opposite side, or switching the rotation speed of both crawler 11s. The inclination of the elevator is corrected so that the rotation speed of the crawler 11 on the side inclined behind the direction is relatively increased so that the traveling direction of the stairlift 100 for wheelchairs is aligned with the ascending direction of the stairs S.

Further, the control unit 1 determines whether or not the distance to the side wall W measured by the lateral distance measuring sensor 40 is closer than the first threshold value D1, and the second threshold value having a value larger than the first threshold value D1. A process is executed as a side wall distance determining means for determining whether or not the distance is farther than D2.
Further, when the control unit 1 functioning as the side wall distance determining means determines that the distance to the side wall W measured by the lateral distance measuring sensor 40 is closer than the first threshold value D1, the control unit 1 determines that the wheelchair The rotation speed of at least one of the crawlers 11 is switched so as to relatively increase the rotation speed of the crawler 11 on the side wall W side of the stair lift 100, and the distance to the side wall W measured by the side distance measuring sensor 40 is the second. When it is determined that the distance is farther than the threshold value D2, the side wall that switches the rotation speed of at least one of the crawlers 11 so as to relatively increase the rotation speed of the crawler 11 on the side opposite to the side wall W of the wheelchair stairlift 100. Performs processing as a distance correction crawler control means.

For example, when the control unit 1 functioning as the side wall distance determining means determines that the distance to the side wall W measured by the side distance measuring sensor 40 is closer than 20 cm (first threshold value D1), the side wall W side A stair lift for wheelchairs by switching to increase the rotation speed of the crawler 11, to decrease the rotation speed of the crawler 11 on the opposite side of the side wall W, or to switch the rotation speed of both crawlers 11. The rotation speed of the crawler 11 on the side wall W side of 100 is relatively increased so that the wheelchair stairlift 100 is separated from the side wall W.
Further, when the control unit 1 functioning as the side wall distance determining means determines that the distance to the side wall W measured by the lateral distance measuring sensor 40 is longer than 30 cm (second threshold D2), the side wall W is referred to as the side wall W. A stair lift for wheelchairs by switching to increase the rotation speed of the crawler 11 on the opposite side, switching to decrease the rotation speed of the crawler 11 on the side wall W side, or switching the rotation speed of both crawlers 11. The rotation speed of the crawler 11 on the side opposite to the side wall W of 100 is relatively increased so that the wheelchair stairlift 100 approaches the side wall W.
By doing so, the wheelchair stair lift 100 can travel on the stairs S while maintaining a suitable distance from the side wall W without being too close to the side wall W and not too far from the side wall W.

Further, the control unit 1 functioning as the side wall distance determining means determines whether or not the distance to the side wall W measured by the side distance measuring sensor 40 is closer than the third threshold D3, which is a value smaller than the first threshold D1. It is configured to execute a process of determining whether or not the value is larger than the second threshold value D2 and is greater than the fourth threshold value D4.
Then, when the control unit 1 functioning as the side wall distance determining means determines that the distance to the side wall W measured by the lateral distance measuring sensor 40 is closer than the third threshold value D3, the control unit 1 said the wheelchair. When the rotational drive of the pair of crawler 11s is stopped so as to stop the running of the stairlift 100, and the distance to the W side wall measured by the lateral distance measuring sensor 40 is determined to be longer than the fourth threshold value D4, A process is executed as a crawler stop control means for stopping the rotational drive of the pair of crawlers 11 so as to stop the traveling of the wheelchair stairlift 100.

For example, when the control unit 1 functioning as the side wall distance determining means determines that the distance to the side wall W measured by the lateral distance measuring sensor 40 is closer than 10 cm (third threshold value D3), the pair of crawlers 11 The rotation drive of the wheelchair stair lift 100 is stopped.
Further, when the control unit 1 functioning as the side wall distance determining means determines that the distance to the side wall W measured by the lateral distance measuring sensor 40 is longer than 40 cm (fourth threshold value D4), the pair of crawlers 11 The rotation drive of the wheelchair stair lift 100 is stopped.
By doing so, when some abnormality occurs in the wheelchair stair lift 100 and it becomes impossible to travel along the side wall W, an emergency stop can be made.

Next, as an example of the operation control when the wheelchair stair lift 100 of the present embodiment travels on the stairs S in the semi-automatic mode, the operation control when the wheelchair stair lift 100 climbs the stairs S will be described.
Here, a case where the wheelchair stair lift 100 travels along the left side wall W with respect to the direction of climbing the stairs S will be described as an example.
When the wheelchair stair lift 100 is driven in the direction of climbing the stairs S in the semi-automatic mode, for example, the caregiver may press the "rise" switch of the controller 60.

[When the distance between the wheelchair stair lift and the side wall is between the first threshold D1 and the second threshold D2]
As shown in "Column A" shown in FIG. 4, when the wheelchair stair lift 100 is not tilted in the traveling direction and the distance from the side wall W is between the first threshold D1 and the second threshold D2, the wheelchair stair lift A pair of left and right crawler 11s are rotationally driven so that the 100 travels straight.

Then, as shown in "column B" shown in FIG. 4, the traveling direction of the wheelchair stair lift 100 whose distance from the side wall W is between the first threshold D1 and the second threshold D2 is relative to the ascending / descending direction of the stairs S. When the tilt, the right side of the traveling direction is delayed and the tilt angle is, for example, 3 ° or more, the operation control is performed to relatively increase the rotation speed of the crawler 11 on the side opposite to the side wall W, and the stair lift 100 for wheelchairs. The inclination of the elevator is corrected so that the traveling direction is aligned with the ascending / descending direction of the stairs S.
Similarly, as shown in "column C" shown in FIG. 4, the traveling direction of the wheelchair stair lift 100 whose distance from the side wall W is between the first threshold D1 and the second threshold D2 is relative to the ascending direction of the stair S. When the angle at which the left side of the stair lift is delayed and tilted is, for example, 3 ° or more, the operation control is performed to relatively increase the rotation speed of the crawler 11 on the side wall W side, and the stair lift 100 for wheelchairs travels. The inclination of the elevator is corrected so that the stairs S are aligned with the ascending / descending direction of the stairs S.

[When the distance between the wheelchair stair lift and the side wall is closer than the first threshold value D1]
As shown in "Column D" shown in FIG. 4, when the distance between the wheelchair stair lift 100 and the side wall W is closer than the first threshold value D1, the wheelchair stair lift 100 is separated from the side wall W on the side wall W side. Operation control is performed to relatively increase the rotation speed of the crawler 11.
Specifically, when the wheelchair stair lift 100 is not tilted in the traveling direction and the distance to the side wall W is closer than the first threshold value D1, the operation control for relatively increasing the rotation speed of the crawler 11 on the side wall W side is performed. Then, the wheelchair stair lift 100 is adjusted so as to be separated from the side wall W.
Further, the distance to the side wall W is closer than the first threshold value D1, the traveling direction of the wheelchair stairlift 100 is tilted with respect to the ascending / descending direction of the stairs S, and the left side of the traveling direction is delayed and tilted. For example, when the temperature is 3 ° or more, the operation is controlled to relatively increase the rotation speed of the crawler 11 on the side wall W side, and the stairlift 100 for chairs is adjusted to the elevating direction of the stairs S while the traveling direction of the stairlift 100 for wheelchairs is adjusted to the elevating direction of the stairs S. Is adjusted so as to be separated from the side wall W (so that the chair stairlift 100 does not approach the side wall W).

On the other hand, as shown in "column E" shown in FIG. 4, the distance from the side wall W is closer than the first threshold value D1, and the traveling direction of the wheelchair stairlift 100 is tilted with respect to the ascending / descending direction of the stairs S. When the right side of the traveling direction is delayed and tilted, for example, 3 ° or more and less than 10 °, a pair of left and right so that the wheelchair stairlift 100 goes straight as it is so that the wheelchair stairlift 100 separates from the side wall W. Crawler 11 is driven to rotate.
Further, as shown in "column F" shown in FIG. 4, the distance from the side wall W is closer than the first threshold value D1, and the traveling direction of the wheelchair stairlift 100 is tilted with respect to the ascending / descending direction of the stairs S. When the right side of the traveling direction is tilted with a delay of, for example, 10 ° or more, first, in order to correct the inclination to match the traveling direction of the stairlift 100 for wheelchairs with the ascending / descending direction of the stairs S, the side opposite to the side wall W Operation control is performed to relatively increase the rotation speed of the crawler 11.

[When the distance between the wheelchair stair lift and the side wall is longer than the second threshold D2]
As shown in "Column G" shown in FIG. 4, when the distance between the wheelchair stair lift 100 and the side wall W is longer than the second threshold value D2, the side wall W is so that the wheelchair stair lift 100 approaches the side wall W. Operation control is performed to relatively increase the rotation speed of the crawler 11 on the opposite side.
Specifically, when the wheelchair stair lift 100 is not tilted in the traveling direction and the distance from the side wall W is longer than the second threshold value D2, the rotation speed of the crawler 11 on the side opposite to the side wall W is relatively increased. The operation is controlled, and the wheelchair stair lift 100 is adjusted so as to approach the side wall W.
Further, the distance from the side wall W is farther than the second threshold value D2, the traveling direction of the wheelchair stairlift 100 is tilted with respect to the ascending / descending direction of the stairs S, and the right side of the traveling direction is delayed and tilted. For example, when the temperature is 3 ° or more, the operation is controlled to relatively increase the rotation speed of the crawler 11 on the side opposite to the side wall W, and the traveling direction of the stairlift 100 for wheelchairs is adjusted to the elevating direction of the stairs S for chairs. The stair lift 100 is adjusted so as to approach the side wall W (so that the chair stair lift 100 does not separate from the side wall W).

On the other hand, as shown in the "H column" shown in FIG. 4, the distance from the side wall W is farther than the second threshold value D2, and the traveling direction of the wheelchair stairlift 100 is tilted with respect to the ascending / descending direction of the stairs S. When the left side of the traveling direction is delayed and tilted, for example, 3 ° or more and less than 10 °, a pair of left and right stair lifts 100 are left and right so that the wheelchair stair lift 100 approaches the side wall W and the wheelchair stair lift 100 goes straight as it is. The crawler 11 is rotationally driven.
Further, as shown in "Column I" shown in FIG. 4, the distance from the side wall W is farther than the second threshold value D2, and the traveling direction of the stair lift 100 for wheelchairs is tilted with respect to the ascending / descending direction of the stairs S. When the angle at which the left side of the traveling direction is delayed and tilted is, for example, 10 ° or more, first, the crawler 11 on the side wall W side is used to correct the inclination so that the traveling direction of the stair lift 100 for wheelchairs is aligned with the ascending / descending direction of the stairs S. Operation control is performed to relatively increase the rotation speed of the.

[When the wheelchair stair lift stops urgently]
When the distance between the wheelchair stairlift 100 and the side wall W is closer than the third threshold value D3 as shown in the "J column" shown in FIG. 4, the chair stairs are not affected by the inclination of the wheelchair stairlift 100 in the traveling direction. In order to stop the running of the elevator 100, operation control is performed to stop the rotational drive of the pair of crawler 11. By doing so, it is possible to prevent the trouble that the wheelchair stair lift 100 collides with the side wall W.
Further, as shown in "column K" shown in FIG. 4, when the distance between the wheelchair stairlift 100 and the side wall W is longer than the fourth threshold value D4, the chair does not depend on the inclination of the wheelchair stairlift 100 in the traveling direction. In order to stop the running of the stair lift 100, operation control is performed to stop the rotational drive of the pair of crawler 11. By doing so, it is possible to prevent the trouble that the wheelchair stair lift 100 is too close to the center side of the stairs S.

By such control, the wheelchair stair lift 100 travels while correcting the inclination in the traveling direction, so that the wheelchair stair lift 100 can be suitably traveled in the direction of ascending the stairs S.
When the driven wheel 11b of the crawler 11 exceeds the uppermost step of the stairs S, the pair of distance measuring sensors 30 cannot measure the distance to the riser plate P, so that the pair of distance measuring sensors 30 measure a distant wall or the like. After that, the pair of left and right crawlers 11 are rotationally driven so that the stair lift 100 for wheelchairs goes straight as it is.
Then, after the wheelchair stair lift 100 has climbed the stairs S, the caregiver releases the operation switch of the controller 60 to stop the wheelchair stair lift 100.

If the wheelchair stair lift 100 is urgently stopped due to a malfunction of the side distance measuring sensor 40 or the like, the mode is switched to the manual mode, and the caregiver operates the controller 60 to operate the wheelchair. The stair lift 100 is moved to the top or bottom of the stairs S.

In the above-mentioned example of the motion control, the case where the wheelchair stairlift 100 travels along the left side wall W with respect to the direction of ascending the stairs S has been described as an example, but the case where the wheelchair stairlift 100 travels along the right side wall W or Even when the chair stair lift 100 travels in the direction of descending the stair S, the wheelchair stair lift 100 can be suitably traveled by the same control.

As described above, in the stair lift 100 for wheelchairs of the present embodiment, the measurement result by the pair of distance measurement sensors 30 (distance to the riser plate P of the stairs S) and the measurement result by the side distance measurement sensor 40 (stairs S). The distance to the side wall W of the stairs) can be used to appropriately ascend and descend the stairs while correcting the inclination in the traveling direction.

In the above embodiment, the case where the wheelchair stair lift 100 travels along the side wall W of the stairs S has been described, but when the stairs S does not have the side wall W, the side distance measuring sensor 40 is used. By using the measurement results of the pair of distance measuring sensors 30 without using the stairs, the operation control for increasing the rotation speed of the crawler 11 on the side where the stair lift 100 for wheelchairs is delayed with respect to the elevating direction of the stairs S is relatively increased. You just have to do it.
That is, even if the control unit 1 executes the process as the tilt correction crawler control means without executing the process as the side wall distance correction crawler control means, the wheelchair stair lift 100 preferably raises and lowers the stairs. can do.

When the traveling direction of the stair lift 100 for wheelchairs is tilted with respect to the ascending / descending direction of the stairs S, one of the pair of distance measuring sensors 30 determines the distance to the riser plate P on the lower side of the stairs S. There is a timing at which the other sensor 30 measures the distance to the riser plate P on the upper side of the stairs S.
At this timing, the difference in the distances measured by the pair of distance measuring sensors 30 changes abruptly. Therefore, by executing the process of masking the measurement data at this timing, the running of the wheelchair stair lift 100 is stabilized. be able to.

The application of the present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the spirit of the present invention.

1 Control unit (tilt determination means, tilt correction crawler control means, side wall distance determination means, side wall distance correction crawler control means, crawler stop control means)
10 Traveling device 10a Frame 11 Crawler 11a Drive wheel 11b Driven wheel 12 Crawler drive motor 20 Wheelchair mount 30 Distance measurement sensor (pair of distance measurement sensor)
40 Side ranging sensor 50 Drive unit for wheelchair mount 60 Controller 100 Wheelchair stair lift C Wheelchair S Stairs P Rise board W Side wall D1 1st threshold D2 2nd threshold D3 3rd threshold D4 4th threshold

Claims (4)

A traveling device capable of traveling on stairs equipped with a pair of left and right crawler that are independently rotationally driven, and a wheelchair mounting portion pivotally installed in the traveling device are provided, and the wheelchair is mounted on the wheelchair mounting portion. It is a wheelchair stair lift that goes up and down stairs.
The wheelchair stair lift is provided with a pair of distance measuring sensors that are arranged side by side in the left-right direction and measure the distance to the riser plate of the stairs.
A control unit that drives and controls the stair lift for wheelchairs,
With
The control unit
When the stair lift for wheelchairs travels at least on the stairs, the degree of inclination of the stair lift for wheelchairs in the traveling direction with respect to the ascending / descending direction of the stairs is determined based on the difference in distances measured by the pair of distance measuring sensors. Inclination judgment means and
When the inclination determining means determines that the inclination of the stairlift for wheelchair in the traveling direction is equal to or greater than a predetermined angle, the rotation speed of the crawler on the side where the stairlift for wheelchair is inclined behind the elevating direction is relative to each other. Crawler control means for tilt correction that switches the rotation speed of at least one crawler so as to raise it
A stair lift for wheelchairs, which is characterized by being equipped with. A side distance measuring sensor for measuring the distance to one of the side walls of the stairs is provided.
The control unit
It is determined whether or not the distance to the side wall measured by the lateral distance measuring sensor is closer than the first threshold value and whether or not it is farther than the second threshold value having a value larger than the first threshold value. Side wall distance determination means and
When the side wall distance determining means determines that the distance to the side wall measured by the side distance measuring sensor is closer than the first threshold value, the rotation speed of the crawler on the side wall side of the wheelchair stairlift is determined. If the rotation speed of at least one crawler is switched so as to increase the relative speed, and the distance to the side wall measured by the lateral distance measuring sensor is determined to be longer than the second threshold value, the stair lift for wheelchair is used. A crawler control means for correcting the side wall distance that switches the rotation speed of at least one of the crawlers so as to relatively increase the rotation speed of the crawler on the side opposite to the side wall.
The stair lift for a wheelchair according to claim 1, wherein the stair lift for a wheelchair is provided. The side wall distance determining means has a function of executing a process of determining whether or not the distance to the side wall measured by the lateral distance measuring sensor is closer than the third threshold value, which is smaller than the first threshold value. Have and
The control unit
When the side wall distance determining means determines that the distance to the side wall measured by the lateral distance measuring sensor is closer than the third threshold value, the pair of crawler so as to stop the running of the wheelchair stair lift. The stair lift for a wheelchair according to claim 2, further comprising a crawler stop control means for stopping the rotational drive of the vehicle. The side wall distance determining means has a function of executing a process of determining whether or not the distance to the side wall measured by the lateral distance measuring sensor is farther than a fourth threshold value having a value larger than the second threshold value. Have and
The control unit
When the side wall distance determining means determines that the distance to the side wall measured by the lateral distance measuring sensor is farther than the fourth threshold value, the pair of crawler so as to stop the running of the wheelchair stair lift. The wheelchair stair lift according to claim 2 or 3, further comprising a crawler stop control means for stopping the rotational drive of the vehicle.

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