MOBILE BODY

Abstract

A mobile body includes a base, three wheels attached to the base, and actuators each of which drives each wheel, and enables omnidirectional movement. Of the three wheels, one or two of the wheels are first configuration wheels, and the remaining wheel or wheels are second configuration wheels. The one wheel is oriented parallel or orthogonal to the orientation of the other two wheels.

Claims

1. A mobile body that enables omnidirectional movement comprising: a base; three wheels attached to the base; and actuators each of which drives each wheel, wherein, of the three wheels, one or two of the wheels are first configuration wheels, and the remaining wheel or wheels are second configuration wheels.

2. The mobile body according to claim 1, wherein the first configuration wheels are mecanum wheels, and the second configuration wheels are omni wheels.

3. The mobile body according to claim 1, wherein the first configuration wheel is a wheel that includes a wheel main body and a plurality of rollers into which support shafts diagonally inclined relative to an axle are inserted and that are rotatably attached to an outer circumference of the wheel main body, and the second configuration wheel is a wheel that includes a wheel main body and a plurality of rollers into which support shafts orthogonal to the axle are inserted and that are rotatably attached to an outer circumference of the wheel main body.

4. The mobile body according to claim 1, wherein the one wheel is oriented parallel or orthogonal to an orientation of the other two wheels.

5. The mobile body according to claim 1, wherein the two wheels are the mecanum wheels, and the one wheel is the omni wheel.

6. The mobile body according to claim 5, wherein the one wheel is attached to a front surface or a back surface of the mobile body.

7. The mobile body according to claim 5, wherein wheel diameters of the two mecanum wheels are the same.

8. The mobile body according to claim 1, wherein a wheel diameter of the first configuration wheel is different from a wheel diameter of the second configuration wheel.

9. The mobile body according to claim 2, wherein the first configuration wheel is a wheel that includes a wheel main body and a plurality of rollers into which support shafts diagonally inclined relative to an axle are inserted and that are rotatably attached to an outer circumference of the wheel main body, and the second configuration wheel is a wheel that includes a wheel main body and a plurality of rollers into which support shafts orthogonal to the axle are inserted and that are rotatably attached to an outer circumference of the wheel main body.

10. The mobile body according to claim 9, wherein the one wheel is oriented parallel or orthogonal to an orientation of the other two wheels.

11. The mobile body according to claim 2, wherein the two wheels are the mecanum wheels, and the one wheel is the omni wheel.

12. The mobile body according to claim 9, wherein the two wheels are the mecanum wheels, and the one wheel is the omni wheel.

13. The mobile body according to claim 10, wherein the two wheels are the mecanum wheels, and the one wheel is the omni wheel.

14. The mobile body according to claim 6, wherein wheel diameters of the two mecanum wheels are the same.

15. The mobile body according to claim 2, wherein a wheel diameter of the first configuration wheel is different from a wheel diameter of the second configuration wheel, wheel diameters of the two mecanum wheels are the same.

16. The mobile body according to claim 3, wherein a wheel diameter of the first configuration wheel is different from a wheel diameter of the second configuration wheel, wheel diameters of the two mecanum wheels are the same.

17. The mobile body according to claim 4, wherein a wheel diameter of the first configuration wheel is different from a wheel diameter of the second configuration wheel, wheel diameters of the two mecanum wheels are the same.

18. The mobile body according to claim 5, wherein a wheel diameter of the first configuration wheel is different from a wheel diameter of the second configuration wheel.

19. The mobile body according to claim 6, wherein a wheel diameter of the first configuration wheel is different from a wheel diameter of the second configuration wheel.

20. The mobile body according to claim 7, wherein a wheel diameter of the first configuration wheel is different from a wheel diameter of the second configuration wheel.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0010] FIGS. 1(a) and 1(b) are views illustrating a configuration of an omni wheel.

[0011] FIGS. 2(a) and 2(b) are views illustrating a configuration of a mecanum wheel.

[0012] FIG. 3 is a view illustrating a configuration of a mobile body.

[0013] FIG. 4 is a view illustrating an example of a wheel configuration of the mobile body.

[0014] FIG. 5 is a view illustrating another example of a wheel configuration of the mobile body.

[0015] FIG. 6 is a view illustrating another example of a wheel configuration of the mobile body.

[0016] FIG. 7 is a view illustrating another example of a wheel configuration of the mobile body.

[0017] FIG. 8 is a view illustrating another example of a wheel configuration of the mobile body.

[0018] FIG. 9 is a view illustrating another example of a wheel configuration of the mobile body.

DESCRIPTION OF EMBODIMENTS

[0019] FIG. 3 illustrates a configuration of a mobile body 1 of a working example. The mobile body 1 includes a rectangular box-shaped base 2, and three wheels 30 are rotatably attached to the base 2. Actuators 32 that drive the respective wheels 30 are attached to the base 2, and a control section 40 independently controls three actuators 32. The control section 40 is a main processor that processes and outputs various pieces of data and instructions and controls the actuator 32 connected to each wheel 30 in such a manner as to move the mobile body 1 in a desired direction. The three wheels 30 and the actuators 32 that drive the respective wheels 30 are included in a movement mechanism of the mobile body 1. The actuators 32 may be motors.

[0020] A sensor 42 may include such a sensor as a triaxial acceleration sensor, a gyrosensor, or a positioning sensor, and supplies detected sensor data to the control section 40. A camera 44 captures images of surroundings and supplies captured images to the control section 40. A plurality of cameras 44 may be arranged in such a manner as to be able to capture images of the base 2 in all directions, thus allowing the control section 40 to obtain captured images of the entire surroundings of the base 2.

[0021] For example, the control section 40 may cause the mobile body 1 to travel autonomously by controlling the actuators 32 in reference to the sensor data supplied from the sensor 42 and the captured images supplied from the cameras 44. Also, the control section 40 may cause the mobile body 1 to travel by controlling the actuators 32 according to maneuver instructions from a user received by a communication section 46.

[0022] The movement mechanism of the mobile body 1 of the working example includes the three wheels 30 and enables omnidirectional movement, but does not have four or more wheels 30. Of the three wheels 30 attached to the base 2, one or two of the wheels 30 are first configuration wheels, and the remaining wheel or wheels 30 are second configuration wheels that are different in type from the first configuration wheels. It should be noted that, in the working example, the first configuration wheels may be the mecanum wheels 20 and that the second configuration wheels may be the omni wheels 10.

[0023] The omni wheel 10 may be a wheel that includes the wheel main body 11 and the plurality of rollers 12 into which support shafts orthogonal to the axle are inserted and that are rotatably attached to the outer circumference of the wheel main body 11. Also, the mecanum wheel 20 may be a wheel that includes the wheel main body 21 and the plurality of rollers 22 into which support shafts inclined diagonally relative to the axle are inserted and that are rotatably attached to the outer circumference of the wheel main body 21. It should be noted that inclination angles of the plurality of support shafts may not all be equal. The mobile body 1 can ensure stable ground contact by having a three-wheel configuration, which makes suspension apparatuses unnecessary.

[0024] In the mobile body 1, each wheel 30 is attached in such a manner as to be parallel with an attachment surface of the rectangular box-shaped base 2, and thus, the one wheel 30 is oriented parallel or orthogonal to the orientation of the other wheels 30. Attaching the three wheels 30 parallel with the attachment surfaces of the base 2 makes it possible to arrange the actuators 32 inside the base 2 with higher space efficiency than in the case where they are attached diagonally relative to the attachment surfaces, which enables effective use of the base space.

[0025] Hereinafter, configuration examples of the three wheels 30 will be described. It should be noted that the following FIGS. 4 to 9 illustrate the positions of the wheels 30 and the actuators 32 relative to the base 2 and that the control section 40, the sensor 42, the cameras 44, and the communication section 46 are not illustrated.

[0026] FIG. 4 illustrates an example of the wheel configuration of the mobile body. The mobile body 1 includes the pair of right mecanum wheel 20b and left mecanum wheel 20a on a front surface of the base 2 and the omni wheel 10 on a back surface of the base 2. The right mecanum wheel 20b, the left mecanum wheel 20a, and the omni wheel 10 are connected respectively to an actuator 32a, an actuator 32b, and an actuator 32c. The pair of right mecanum wheel 20b and left mecanum wheel 20a are arranged in such a manner as to be oriented in the same direction. Wheel diameters of the right mecanum wheel 20b, the left mecanum wheel 20a, and the omni wheel 10 may be the same. In the wheel configuration example illustrated in FIG. 4, it is possible to align the orientations of the actuators 32a, 32b, and 32c, which enables effective use of the space of the base 2. It should be noted that the mobile body 1 may include the pair of right mecanum wheel 20b and left mecanum wheel 20a on the back surface of the base 2 and the omni wheel 10 on the front surface of the base 2.

[0027] FIG. 5 illustrates another example of a wheel configuration of the mobile body. The mobile body 1 includes the left mecanum wheel 20a on a left side surface of the base 2, the right mecanum wheel 20b on a right side surface of the base 2, and the omni wheel 10 on the back surface of the base 2. The left mecanum wheel 20a, the right mecanum wheel 20b, and the omni wheel 10 are connected respectively to the actuator 32a, the actuator 32b, and the actuator 32c. The left mecanum wheel 20a and the right mecanum wheel 20b are arranged in such a manner as to be oriented in the same direction. The wheel diameters of the left mecanum wheel 20a, the right mecanum wheel 20b, and the omni wheel 10 may be the same. In the wheel configuration example illustrated in FIG. 5, the pair of left mecanum wheel 20a and right mecanum wheel 20b are attached to the two side surfaces of the base 2, which makes it possible for the user to intuitively recognize forward and backward directions of the mobile body 1. It should be noted that the positions of the left mecanum wheel 20a and the right mecanum wheel 20b may be interchanged.

[0028] FIG. 6 illustrates another example of a wheel configuration of the mobile body. The mobile body 1 includes the left mecanum wheel 20a on the left side surface of the base 2, the right mecanum wheel 20b on the right side surface of the base 2, and the omni wheel 10 on the back surface of the base 2. The wheel arrangement illustrated in FIG. 6 may be the same as the wheel arrangement illustrated in FIG. 5.

[0029] In the wheel configuration illustrated in FIG. 6, while the wheel diameters of the left mecanum wheel 20a and the right mecanum wheel 20b are the same, the wheel diameter of the left mecanum wheel 20a and the right mecanum wheel 20b is different from the wheel diameter of the omni wheel 10. As illustrated, the wheel diameter of the omni wheel 10 is larger than the wheel diameter of the mecanum wheels 20. According to the wheel configuration illustrated in FIG. 6, a level difference that can be overcome during movement in the front-and-back direction depends on the diameter of the rollers 12 in the omni wheel 10. Thus, as illustrated in FIG. 6, it is possible to improve gap running performance of the mobile body 1 in the front-and-back direction by increasing the wheel diameter of the omni wheel 10 and upsizing the diameter of the rollers 12.

[0030] FIG. 7 is a view illustrating another example of a wheel configuration of the mobile body. The mobile body 1 includes the left mecanum wheel 20a on the left side surface of the base 2, the right mecanum wheel 20b on the right side surface of the base 2, and the omni wheel 10 on the back surface of the base 2. The wheel arrangement illustrated in FIG. 7 may be the same as the wheel arrangement illustrated in FIG. 5.

[0031] In the wheel configuration illustrated in FIG. 7, while the wheel diameters of the left mecanum wheel 20a and the right mecanum wheel 20b are the same, the wheel diameter of the left mecanum wheel 20a and the right mecanum wheel 20b is different from the wheel diameter of the omni wheel 10. As illustrated, the wheel diameter of the omni wheel 10 is smaller than the wheel diameter of the mecanum wheels 20. According to the wheel configuration illustrated in FIG. 7, although motion characteristics in the left-and-right direction deteriorate due to the small wheel diameter of the omni wheel 10, it is possible to downsize the actuator 32c, which contributes to downsizing the mobile body 1 as a whole.

[0032] FIG. 8 is a view illustrating another example of a wheel configuration of the mobile body. The mobile body 1 includes the left mecanum wheel 20a on the left side surface of the base 2, the left mecanum wheel 20a on the front surface of the base 2, and the omni wheel 10 on the back surface of the base 2. The left mecanum wheel 20a on the left side surface, the left mecanum wheel 20a on the front surface, and the omni wheel 10 are connected respectively to the actuator 32a, the actuator 32b, and the actuator 32c. The two left mecanum wheels 20a are arranged in such a manner as to be oriented in the orthogonal directions. It should be noted that the two right mecanum wheels 20b may be used in place of the two left mecanum wheels 20a.

[0033] FIG. 9 is a view illustrating another example of a wheel configuration of the mobile body. The mobile body 1 includes the left mecanum wheel 20a on the left side surface of the base 2, the omni wheel 10 on the right side surface of the base 2, and the omni wheel 10 on the back surface of the base 2. The left mecanum wheel 20a, the omni wheel 10 on the right side surface, and the omni wheel 10 on the back surface are connected respectively to the actuator 32a, the actuator 32b, and the actuator 32c.

[0034] While two of the three wheels 30 are the mecanum wheels 20 and one was the omni wheel 10 in the wheel configuration examples illustrated in FIGS. 4 to 8, one wheel is the mecanum wheel 20 and two wheels are the omni wheels 10 in the wheel configuration example illustrated in FIG. 9. As illustrated in FIG. 9, even if one of the three wheels 30 is the mecanum wheel 20 and the two wheels 30 are the omni wheels 10, it is possible to realize omnidirectional movement.

[0035] The present disclosure has been described above in reference to the working example. It is to be understood by those skilled in the art that the above working example is illustrative, that various modification examples are possible regarding combinations of the respective components and processes thereof, and that such modification examples also fall within the scope of the present disclosure.

INDUSTRIAL APPLICABILITY

[0036] The present disclosure is applicable to mobile bodies that have a plurality of wheels and that enable omnidirectional movement.

REFERENCE SIGNS LIST

[0037] 1: Mobile body [0038] 2: Base [0039] 10: Omni wheel [0040] 11: Wheel main body [0041] 12: Roller [0042] 20: Mecanum wheel [0043] 20a: Left mecanum wheel [0044] 20b: Right mecanum wheel [0045] 21: Wheel main body [0046] 22: Roller [0047] 30: Wheel [0048] 32, 32a, 32b, 32c: Actuator [0049] 40: Control section [0050] 42: Sensor [0051] 44: Camera [0052] 46: Communication section