The present invention relates to a robot hand capable of securely holding and lifting a dining utensil such as a dish, a cooking utensil such as a frying pan, or another planar article, and moving the article to a desired location. The present invention also relates to a method for handling a planar article using the aforementioned robot hand.
Various robot hands have been proposed in recent years. In the current situation, however, there have been few proposals related to a robot hand suitable for handling a dining utensil such as a dish or bowl, or a cooking utensil such as a cooking pan or frying pan. For example, in a restaurant or other location where food is prepared, dishes that have leftover food and the like adhering thereto are stacked up and moved periodically to a dishwasher, a sink, or the like for washing. It is extremely difficult to cause a robot hand to hold each of the stacked dishes and move it to a destination such as a dishwasher or a sink.
If an attempt is made to hold a dish by a typical robot hand comprising a pair of holding claws as disclosed by, for example, Patent Document 1, the dish would be slippery due to the deposits on the dish surface, making it impossible to hold the dish securely and increasing the likelihood that the dish will be dropped and damaged during transport. If the holding force were increased in order to hold the dish so as to not drop it, an increased force would be applied and there would be a risk of breaking the dish when the dish is gripped. Meanwhile, it is conceivable to hold the dish without breaking it by using fingers equipped with a tactile sensor, as described in Patent Document 2; in such a case where the tactile sensor touches the leftover food attached to the dish, it is impossible to hold the dish with sufficient holding force, and there is a risk that the dish will be dropped.
There has not conventionally been a proposed method for handling a planar article, such as a dining utensil, capable of securely holding a dish or the like and moving it to a desired location by means of a simple mechanism. Nor has there been a proposed robot hand capable of securely holding a planar article such as a dining utensil by means of a simple mechanism.
An object of the present invention is to propose a method for handling a planar article capable of securely holding a dining utensil such as a dish, a cooking utensil such as a frying pan, and other planar articles, and moving such articles to a desired location.
Another object of the present invention is to propose a robot hand suitable for use in a method for handling such planar articles.
First, as shown in
In the method for handling the planar article 6 using the robot hand 1 according to the present invention, the robot hand 1 is moved toward the planar article 6 to be held, and a part 6a of the planar article 6 to be held is inserted between the first engaging member 3 and second engaging member 4, as shown in
Here, the direction or orientation of the robot hand 1 is changed prior to inserting the planar article 6 or after inserting the planar article 6 so that the first engaging member 3 is positioned under the second engaging member 4. In the present example, the robot hand 1 is retained in advance so as to be oriented in this manner, as shown in
After the insertion operation, the robot hand 1 is lifted while the first engaging member 3 is kept on the underside as shown in
Then, a part of the planar article 6, that is, the part extending from between the first and second engaging members 3 and 4, is pressed by the finger members 5 from above, as shown in
After the retention state is established, it is possible to further lift the robot hand 1 and to move the planar article 6 to the desired position while the planar article 6 is held in a suspended state, as shown in
The method for handling a planar article according to the present invention is characterized by adjusting the gap between the first engaging member and second engaging member in accordance with the size of the planar article to be held. In a case in which planar articles 6 having different shapes are held, as shown in
With the method for handling a planar article according to the present invention, the planar article 6 in a held state as shown in
The method for handling a planar article according to the present invention is suitable for handling dishes as shown in
Next, a robot hand 1 according to the present invention is characterized by comprising:
a palm member 2;
a first engaging member 3 mounted on the palm member;
a second engaging member 4 mounted on the palm member;
an article insertion groove A formed between and defined by the first engaging member 3 and the second engaging member 4; and
a first finger member 5 mounted on the palm member 2, wherein
the first finger member 5 is positioned on the same side as the second engaging member 4 in relation to the article insertion groove A;
a distal end portion of the first finger member 5 can be moved toward the first engaging member 3 from an initial position on the side of the second engaging member 4;
when a part 6a of the planar article 6 is inserted into the article insertion groove A in a state in which the first engaging member 3 is positioned underneath the second engaging member 4, the planar article 6 is swung under its own weight about the distal end portion of the first engaging member 3, used as a pivot point; the end part 6c of the planar article 6 positioned within the article insertion groove A is pressed, from a lower side, against the second engaging member 4; and a retention state is established in which the planar article 6 is retained between the first and second engaging members 3 and 4; and
an article-holding state is established in which the planar article 6 is pressed against the first engaging member 3 and the second engaging member 4 when a distal end portion of the first finger member 5 is moved from the initial position toward the first engaging member 3 and is pressed against a part of the planar article 6 that projects from the article insertion groove A in a state in which the planar article 6 is retained between the first and second engaging members 3 and 4.
In the robot hand 1 according to the present invention, the first engaging member 3 and the second engaging member 4 are preferably opened and closed relative to each other.
In the robot hand 1 according to the present invention, it is possible to use a multi-jointed finger member for the first finger member 5. It is possible to increase the moving range of the distal end portion of the first finger member 5 by bending the finger around individual joints as the pivot point, making it possible for the distal end portion to press various planar articles having different forms and sizes.
The robot hand 1 according to the present invention preferably has at least two finger members placed on both sides of the second engaging member 4 as the first finger member 5, making it possible to firmly establish a held state of a planar article by pressing the article from both sides of the second engaging member.
Next, the robot hand 1 according to the present invention is characterized by having at least one second finger member mounted on the palm member 2, wherein the second finger member is positioned opposite the first finger member at a predetermined distance on the opposite side of the article insertion groove, and the first finger member and the second finger member can be opened and closed relative to each other as shown in an embodiment described later.
The robot hand of the present configuration is capable of holding a cup, a ball, or the like between the first and second finger members.
In this case, the first finger member is preferably configured so that a distal end portion can be bent toward both the article insertion groove and the second finger member at a pivot point that is on at least one of the joints, and so that a distal end portion of the second finger member can be bent toward the first finger member at a pivot point that is on at least one of the joints. The first finger member, by being bent toward one side at the joint as described above, is able to hold a planar article, and, by being bent toward the opposite side, is able to hold an article such as a cup or ball between the first finger member and second finger member.
Further, the palm member is preferably configured so that the palm member can be swung around a pivot point at a position offset from the mounting center of the first finger member and second finger member. With the present configuration, it is possible to increase the moving ranges of the first and second finger members associated with the swing of the palm member, thereby benefiting the article holding operation.
Further, the first engaging member preferably has a body, and a distal end portion that constitutes the pivot point for supporting the planar article, with the distal end portion detachably mounted on the body. It is possible to firmly hold diverse forms of planar articles by changing the distal end portions in accordance with the form and size of the planar article to be held.
According to the present invention, a state is established in which a planar member is retained between a first engaging member and a second engaging member, by inserting a part of the planar member between a pair of first and second engaging members so as to utilize the weight of the planar member itself. Then, a state is established in which the planar member is securely held by the first and second engaging members, by pressing the retained planar member using a finger member.
In, a case in which a planar member is directly held from both sides using a pair of holding claws, the planar member will likely slip and drop from between the claws due to the surface shape, surface condition, and the like, of the planar article that is held by the holding claws. In contrast, according to the present invention, a state is established in which a planar article is retained between a pair of first and second engaging members, and then a finger member is pressed down, making it possible to establish a state in which the planar article is readily and securely held.
The method and robot hand according to the present invention is particularly suitable to handling dining utensils such as dishes, and the like, and cooking utensils such as frying pans, and the like.
An example of a robot hand to which the present invention applied is described below with reference to
<Description of Structure>
The palm plate 12 has a wrist joint unit 12b projected diagonally upward from the region where the aforementioned individual members are mounted. An arm unit 18 shown by the imaginary lines is connected onto the backside of the wrist joint unit 12b. The palm plate 12 connected to the arm unit 18 can be swung around via the swing axis 12c of the wrist joint unit 12b as the pivot point, using a drive mechanism provided for the arm unit.
The fixed side engaging plate 13, being a plate having a predetermined width and thickness overall, has a body plate 13a, which is made of metal such as aluminum and the rear end of which is fixed to the palm plate 12; and an attachment 13b made of plastic such as polyacetal and mounted on the distal end of the body plate 13a. The attachment 13b is fixed onto the body plate 13a using screws 13c, allowing easy replacement of the attachment 13b. In the present example, the planar article to be handled is a circular dish, and therefore the contour of the distal end of the attachment 13b is shaped as a slightly concave circular arc.
As shown in
First finger units 15 and 16 on the left and right sides have the same structure, and are arranged in mirror symmetry. The first finger units 15 and 16 have root finger portions 15a and 16a fixed onto the palm plate 12, intermediate finger portions 15b and 16b connected to the distal end of first finger units 15 and 16 by way of joint units 15A and 16A, and distal end finger portions 15c and 16c connected to the distal end of the intermediate finger portions 15b and 16b by way of joint units 15B and 16B. The intermediate finger portions 15b and 16b can be bent in an up and down direction as indicated in
The second finger unit 17 has the same structure as the first finger units 15 and 16, having a root finger portion 17a fixed onto the palm plate 12, an intermediate finger portion 17b connected to the distal end by way of a joint unit 17A, and a distal end finger portion 17c connected to the distal end by way of a joint unit 17B. The intermediate finger portion 17b can be bent in an up and down direction (the direction toward and away from the first finger units 15 and 16), as indicated in
<Structure of a Joint Unit of a Finger Unit>
a) is a cross-sectional diagram of the internal structure of the joint unit 15A of the first finger unit 15; and
The joint unit 15A has a housing 23 for accommodating a motor 21 and a reducer 22, and a connecting arm 24 connected to the housing 23 in a manner allowing rotation centered around the joint shaft 15d. The housing 23 is linked and fixed in place coaxially to the root finger portion 15a of the first finger unit 15, and the connecting arm 24 is linked and fixed in place coaxially to the intermediate finger portion 15b of the first finger unit 15.
The torque of the motor 21 is transmitted to the reducer 22 by way of a driving gear 25, a transmission gear 26 meshed with the driving gear 25, and a driven gear 27 meshed with the transmission gear 26. The driving gear 25 is linked and fixed in place coaxially to the output shaft 28 of the motor 21, and the driven gear 27 is linked and fixed in place coaxially to the input shaft 29 of the reducer 22.
The reducer 22 of the present embodiment is a wave gear reducer, and has a circular rigid internally toothed gear 31 fixed onto the housing 23, a cup-shaped flexible externally toothed gear 32 coaxially disposed inside the internally toothed gear 31, and a wave generator 33, which has a contour of an ellipse and is inserted into the flexible externally toothed gear 32. The wave generator 33 is linked and fixed onto the input shaft 29 extended through the center thereof. The input shaft 29 is freely and rotatably supported by the housing 23 via a bearing 34. The distal end portion of the input shaft 29 is freely and rotatably supported by a portion of a boss 32a defining the bottom of the cup of the cup-shaped flexible externally toothed gear 32 via a bearing 35.
An output shaft 32b is coaxially formed on the boss 32a of the flexible externally toothed gear 32, and is linked and fixed onto a part 24a on one side facing the connecting arm 24. The boss 32a is also freely and rotatably supported by the housing 23 via a bearing 36. A part 24b on the other side of the connecting arm 24 is freely and rotatably centered around the input shaft 29, supported via a bearing 37. The joint shaft 15d is defined by the output shaft 32b.
When the motor 21 is rotated, the rotation is transmitted to the input shaft 29 of the reducer 22, with the speed thereof reduced by the reduction gear train (25, 26, 27). When the wave generator 33, which is linked and fixed coaxially to the input shaft 29, is rotated, the meshing position of the flexible externally toothed gear 32 and rigid internally toothed gear 31 is moved in a circumferential direction, and a relative rotation proportional to the difference between the numbers of teeth between the aforementioned two gears is generated. Because the rigid internally toothed gear 31 is on the fixed side, the flexible externally toothed gear 32 is rotated, and the connecting arm 24 connected to the output shaft 32b that is connected to the flexible externally toothed gear 32 is swung, centered around the output shaft 32b (joint shaft 15d).
Meanwhile, in the case of the joint unit 14A, as is clear from
<Description of Operation for Holding a Dish>
An example of the operation for holding a shallow circular dish 20 using the robot hand 10 is described with reference to
First, the fixed side engaging plate 13 and movable side engaging finger 14 are moved toward the dish 20 to be handled in a horizontal state, and an outer circumferential portion of the dish 20 is inserted between the aforementioned members. Next, the distal end portion 14b of the movable side engaging finger 14 is bent toward the dish 20 by a predetermined amount, and then the robot hand 10 is lifted. As a result, a state is established in which the dish 20 is held, as shown in
<Description of Operation for Holding a Cup>
Next, the robot hand 10 of the present embodiment is also capable of holding a cup or the like. Specifically, various articles can be held using the first finger units 15, 16 and the second finger unit 17.
As described above, the robot hand 10 of the present embodiment is able to hold a cup or the like as well as a dish or the like. Also, the palm plate 12 has a wrist joint shaft that swings, centered around a position (12c) offset from the center of the three finger units, allowing the finger units to move in a wide range and benefiting the holding operation.
Holding a dish or cup has been described in the examples above; however, as shall be apparent, it is also possible to use the robot hand of the present invention for holding other planar articles, spheres, cylinders or the like.
Meanwhile, two first finger units and a single second finger unit are disposed in the example described above; a single first finger unit, or three or more first finger units may be disposed. Likewise, two or more second finger units may also be disposed. Furthermore, the finger units disposed in the present embodiment have two joints; the finger units may have a single joint, or three or more joints. Likewise, the movable side engaging finger 14 may also have a plurality of joints, in place of a single joint.
Furthermore, a characteristic of the present invention is that a planar article (6 or 20) to be held is inserted between the first engaging member (3 or 13) and second engaging member (4 or 14), and that the planar article is lifted while the article is retained between the two engaging members. Therefore, a pressing member(s), other than the finger unit having the two joints described above, can also be used for the finger member (5, 15, 16) in order to press the planar article inserted between the first engaging member and second engaging member. For example, as shall be apparent, a finger member (pressing member) moved by a drive mechanism such as an air cylinder may also be used.
In the example described above, the fixed side engaging plate 13 and movable side engaging finger 14 are used as a set; both fingers may be configured to be movable, or the movable and fixed sides may be reversed.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2008/002499 | 9/10/2008 | WO | 00 | 2/14/2011 |