KR20180065339A - Gripper - Google Patents

Abstract

The present invention relates to a gripper. According to an embodiment of the present invention, in one aspect, a gripper comprises: a body block; a pair of finger units of which a front end is rotationally installed about a pivot shaft with respect to the body block on one surface of the body block to grip an object to be gripped, and arranged to define a gripping space in which the object to be gripped is placed between internal surfaces opposite to each other; a pair of attachment members individually provided in the finger units, and attached to the object to be gripped by a suction force based on van der Waals forces when the finger units grip the object to be gripped; a driving unit providing a driving force to rotate the finger units with respect to the body block; and a driving force transmission member transmitting the driving force of the driving unit to the finger units.

Description

Gripper {GRIPPER}

The present invention relates to a gripper.

A gripper is a device for holding a gripping object in order to carry it, and is widely used for industrial purposes. Generally, the gripper is divided into a size pneumatic gripper and an electric gripper. In the case of a pneumatic gripper, relatively simple configuration and control are possible. However, there is a disadvantage that precise control is not easy. In the case of an electric gripper, precise control is possible, but disadvantageous in that the configuration and control are complicated.

(Prior Art Document 1) Korean Published Patent Application No. 2011-0100771 (Name: Industrial Gripper for Multifunctional Handling) (Prior Art Document 2) Korean Published Patent Application No. 2015-0075914 (titled: gripper)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a gripper capable of grasping gripped objects of various sizes in a simpler configuration.

According to an aspect of the present invention, there is provided a gripper comprising: a body block; A pair of fingers arranged on one surface of the body block so as to be rotatable about the pivot axis with respect to the body block to grasp the object to be gripped and to define a gripping space in which the object to be gripped is positioned between the inner surfaces facing each other, unit; A pair of attachment members provided on the finger unit and attached to the surface of the object to be held by a suction force based on van der Waals force when the finger unit grasps the object to be gripped; A driving unit for providing a driving force for rotating the finger unit with respect to the body block; And a driving force transmitting member for transmitting a driving force of the driving unit to the finger unit; .

In an aspect of the embodiment of the present invention, the width of at least a part of the gripping space is increased as the distance from the tip of the finger unit is increased.

In one aspect of the embodiment of the present invention, the finger unit includes: a turning unit connected to the body block by the pivot shaft; And a grasping portion extending from a side of the pivoting portion by a predetermined length and having a tip thereof contacting the object to be grasped and gripping the object to be grasped; .

In one aspect of the embodiment of the present invention, the finger unit may include at least one finger which is extended from the other side of the rotary part and is located outside the grip part, and whose tip is at least in contact with the object to be gripped, And a reinforcement portion connected to one side of the branch portion and reinforcing the remainder of the grip portion except the tip of the grip portion.

In one aspect of the embodiment of the present invention, the gripping portion includes: an extension portion extending in a predetermined direction from one side of the turning portion; And a contact portion extending obliquely with respect to the extending direction of the extending portion at the distal end of the extending portion, the leading end of the contacting portion contacting the holding object; .

In one aspect of the embodiment of the present invention, the extending portions extend in directions away from each other at one side of the turning portion, and the contacting portions extend in directions adjacent to each other at the ends of the extending portions.

In one aspect of the embodiment of the present invention, the gripping portion includes: a first extending portion extending at a predetermined angle from one side of the turning portion; A second extension extending obliquely with respect to a direction in which the first extension extends from the tip of the first extension; And a contact portion extending obliquely with respect to an extending direction of the second extending portion at a tip end of the second extending portion, the contact portion being in contact with the holding object; .

In one aspect of the embodiment of the present invention, the first extending portion extends in a direction away from one side of the turning portion, the second extending portion extends in a direction adjacent to each other at the tip of the first extending portion, The contact portion extends in a direction adjacent to each other at the tip of the second extending portion.

In one aspect of the embodiment of the present invention, the drive unit includes: a cylinder installed at the other surface of the body block opposite to the finger unit; And a rod installed to be linearly reciprocable with respect to the cylinder; .

In one aspect of the embodiment of the present invention, the driving force transmitting member is a pair of one end of which is connected to one side of the finger unit by a second hinge pin, and the other end is connected to a tip of the rod by a third hinge pin Link bar.

In the gripper according to the embodiment of the present invention, a gripping space having a variable width is defined by a pair of finger units pivoted by the drive unit, and a gripping object located in the gripping space is based on the force of the van der Waals force of the attaching member It is attached by adhesive force. Therefore, according to the embodiment of the present invention, it is possible to hold the gripping objects of various sizes more accurately with a simpler configuration.

1 is a perspective view showing a gripper according to an embodiment of the present invention;
FIG. 2 and FIG. 3 are front views showing a gripper gripping objects of various sizes, according to an embodiment of the present invention. FIG.

Hereinafter, the structure of a gripper according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a gripper according to an embodiment of the present invention.

1, the gripper 100 according to the present embodiment includes a body block 110, a pair of finger units 120, a pair of attachment members 130, a drive unit 140, and a drive force transmitting member 150 ).

More specifically, the body block 110 is a place where the finger unit 120 and the driving unit 140 are installed. The body block 110 may be, for example, a robot arm (not shown). The body block 110 is provided with four supporting ribs 111 for rotatably supporting the finger unit 120. The supporting ribs 111 extend from both ends of the body block 110 toward one side of the body block 110, respectively.

The finger unit 120 is installed so that its tip is rotatable about the pivot axis P with respect to the body block 110 in order to grasp the object to be gripped. The finger units 120 are arranged to face each other. Therefore, a gripping space 120S in which the gripping object is positioned between the inner surfaces of the finger units 120 facing each other is defined. In particular, in this embodiment, the width of at least a part of the gripping space 120S is increased as the distance from the tip of the finger unit 120 is increased. For example, as shown in FIG. 1, the gripping space 120S has a width corresponding to the tip of the finger unit 120, which is increased toward the center from the lower end of the finger unit 120, The width can be reduced. This is so that the gripping space 120S can be applied to gripping objects of various sizes even if portions constituting the finger unit 120 can not perform mutual linking motion.

In this embodiment, the finger unit 120 includes a swivel portion 121, a grip portion 123, and a reinforcement portion 129. The rotary part 121, the grip part 123 and the reinforcing part 129 may be integrally formed of a material having a predetermined elasticity.

More specifically, the pivot portion 121 is connected to the body block 110 by the pivot axis P. For example, the pivot axis P may pass through the support rib 111 and the pivot portion 121 in a state where the pivot portion 121 is positioned between the support ribs 111.

The grip portion 123 extends from the one end of the swing portion 121 by a predetermined length and grips the gripping object substantially. In this embodiment, the grip portion 123 includes an extended portion 125 and a contact portion 127. [ The extension portion 125 extends in a predetermined direction from one side of the rotation portion 121. [ The contact portion 127 extends obliquely with respect to the extending direction of the extending portion 125 at the tip of the extending portion 125. The contact portion 127 is a portion that is in contact with the object to be gripped to grip the object by the rotation of the finger unit 120 with respect to the body block 110. In the present embodiment, the extension portions 125 extend in a direction away from one side of the rotary portion 121, and the contact portions 127 extend in a direction adjacent to each other at the tip of the extension portion 125 . The width of the gripping space 120S varies depending on the extending direction of the extending portion 125 and the contacting portion 127. [

The extension portion 125 may include first and second extension portions 125A and 125B. The first extension part 125A extends at a predetermined angle from one side of the rotation part 121. [ The second extending portion 125B extends obliquely with respect to the extending direction of the first extending portion 125A at the tip of the first extending portion 125A. Therefore, the abutting portion 127 will extend from the tip of the second extending portion 125B. The first extension part 125A extends in a direction away from one side of the rotation part 121 and the second extension part 125B extends in a direction away from each other at the tip of the first extension part 125A. Extending in an adjacent direction. However, as described above, the contact portions 127 extend in the directions adjacent to each other at the tip of the second extending portion 125B. 1 by the extending direction of the first and second extension parts 125A and 125B and the contact part 127, the gripping space 120S is formed at the tip of the finger unit 120 The width is increased from the lower end toward the center in the corresponding drawing, and then the width is reduced from the center toward the upper end in the drawing.

The reinforcing portion 129 extends from the other side of the turning portion 121 and is located outside the grip portion 123. The distal end of the reinforcing portion 129 is provided at one side of the grip portion 123 that is spaced apart from the distal end of the grip portion 123 that is at least in contact with the object to be gripped, 125, respectively. Therefore, the remainder of the grip portion 123 except for the distal end of the grip portion 123 can be reinforced by the reinforcing portion 129. As described above, since the finger unit 120 is formed of a material having a predetermined elasticity, the contact unit 127 can be elastically deformed while grasping the object to be gripped. However, the finger unit 120, The remainder of the unit 120, that is, the extension part 125, is not elastically deformed by being reinforced by the reinforcing part 129.

The attachment members 130 are respectively provided on the inner surfaces of the finger units 120, substantially facing each other. The attachment member 130 is attached to the surface of the object to be held by the suction force based on the van der Waals force when the finger unit 120 grasps the object to be gripped. Therefore, even if each part constituting the finger unit 120 can not perform mutual link movement, it is possible to secure a sufficient holding force for gripping objects of various sizes. In other words, since the finger unit 120 is formed substantially as one member, accurate gripping may not be achieved depending on the size of the object to be gripped. In this embodiment, the gripping force can be ensured regardless of the size of the object to be gripped by the attachment between the attachment member 130 and the object to be gripped.

The driving unit 140 provides a driving force for rotating the finger unit 120 with respect to the body block 110. In the present embodiment, the drive unit 140 includes a cylinder 141 and a rod 143. [ The cylinder 141 is installed on the other side of the body block 110 opposite to the finger unit 120. The rod 143 is installed so as to reciprocate linearly with respect to the cylinder 141 by hydraulic pressure or air pressure.

The driving force transmitting member 150 transmits the driving force of the driving unit 140 to the finger unit 120. In this embodiment, the driving force transmitting member 150 includes a pair of link bars 151. [ One end of the link bar 151 is connected to one side of the finger unit 120 by a first hinge pin H1 and the other end of the link bar 151 is connected to a second hinge pin H2 by a second hinge pin H2, (Not shown). Therefore, when the rod 143 linearly reciprocates with respect to the cylinder 141, the finger units 120 connected to the rod 143 by the link bar 151 are rotated in a direction away from or adjacent to each other .

Hereinafter, the operation of the gripper according to the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIGS. 2 and 3 are front views showing grippers gripping objects of various sizes, according to an embodiment of the present invention.

2 and 3, in the gripper 100 according to the present embodiment, by changing the shape of the gripping space 120S, that is, the width of the gripping space 120S, the gripping object 1 having a relatively small size, Or the gripping object 2 of a large size can be both positioned inside the gripping space 120S by the rotation of the finger unit 120. [ In this embodiment, in a state where the gripping object 1 (2) is positioned inside the gripping space 120S, the gripping object 130 is gripped by the adhesive force based on the Van der Waals force, (2), it is possible to secure a sufficient gripping force on the gripped objects (1) and (2).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the above teachings. will be.

100: gripper 110: body block
120: finger unit 130: attachment member
140: driving unit 150: driving force transmitting member

Claims (10)

A body block 110;
The body block 110 is provided on one surface of the body block 110 so that the tip of the body block 110 is rotatable around the pivot axis P so as to grip the object to be gripped and the object to be gripped is positioned between the inner surfaces facing each other A pair of finger units 120 arranged so that a gripping space 120S is defined;
A pair of attachment members 130 provided on the finger unit 120 and attached to the surface of the object to be held by the suction force based on the van der Waals force when the finger unit 120 grasps the object to be gripped;
A driving unit 140 for providing a driving force for rotating the finger unit 120 with respect to the body block 110; And
A driving force transmitting member (150) for transmitting a driving force of the driving unit (140) to the finger unit (120); .
The method according to claim 1,
Wherein a width of at least a part of the gripping space (120S) is increased as the distance from the tip of the finger unit (120) increases.
The method according to claim 1,
The finger unit (120)
A pivot portion 121 connected to the body block 110 by the pivot axis P; And
A grasping portion 123 extending from one side of the swinging portion 121 by a predetermined length and having a tip thereof in contact with the object to grasp the object to be grasped; .
The method of claim 3,
The finger unit 120 extends from the other side of the rotary part 121 and is located outside the grip part 123 and has a distal end at least spaced apart from the distal end of the grip part 123, Further comprising a reinforcing part (129) connected to one side of the grip part (123) to reinforce the rest of the grip part (123) except the tip of the grip part (123).
The method of claim 3,
The gripping portion 123,
An extension part 125 extending in a predetermined direction from one side of the rotation part 121; And
A contact portion 127 extending obliquely with respect to the extending direction of the extending portion 125 at the distal end of the extending portion 125 and having a distal end contacting the holding object; .
6. The method of claim 5,
The extension portions 125 extend in directions away from each other at one side of the rotary portion 121,
The contact portion (127) extends in a direction adjacent to each other at a tip end of the extended portion (125).
The method of claim 3,
The gripping portion 123,
A first extension 125A extending at a predetermined angle from one side of the rotary part 121;
A second extending portion 125B extending obliquely with respect to the extending direction of the first extending portion 125A at the tip of the first extending portion 125A; And
A contact portion 127 extending obliquely with respect to the extending direction of the second extending portion 125B at the distal end of the second extending portion 125B and having a distal end thereof in contact with the object to be held; .
8. The method of claim 7,
The first extension part 125A extends in a direction away from one side of the rotation part 121,
The second extending portion 125B extends in a direction adjacent to the first extending portion 125A,
The contact portion (127) extends in a direction adjacent to each other at the tip of the second extension portion (125B).
The method according to claim 1,
The drive unit (140)
A cylinder 141 installed on the other surface of the body block 110 opposite to the finger unit 120; And
A rod 143 installed to be reciprocatable linearly with respect to the cylinder 141; .
10. The method of claim 9,
One end of the driving force transmitting member 150 is connected to one side of the finger unit 120 by a first hinge pin H1 and the other end of the driving force transmitting member 150 is connected to the rod 143 by a second hinge pin H2. And a pair of link bars (151) connected to the leading end of the link bar (151).

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