KR20200036441A - Gripper apparatus - Google Patents

Abstract

Disclosed is an invention related to a gripper apparatus. The gripper apparatus of the present invention includes: a body unit installed to be elevated; a gripper unit installed at the body unit so as to grip a material; and an electromagnet module installed at the body unit so as to be attached to the material by magnetic force.

Description

Gripper device {GRIPPER APPARATUS}

The present invention relates to a gripper device, and more particularly, to a gripper device capable of easily moving a material.

Generally, a vehicle is installed with a material such as a beam. The material is produced by pressing the steel panel and welding both ends. The worker picks up the material and moves it to the loading position or loading device.

However, musculoskeletal disorders may occur as the worker repeats the work of lifting and moving the material.

Background of the invention is disclosed in Republic of Korea Patent Publication No. 2012-0045110 (2012. 05. 09 published, the name of the invention: vehicle torsion beam).

The present invention was created to improve the above problems, and an object of the present invention is to provide a gripper device capable of easily moving a material.

The gripper device according to the present invention includes: a body part that is installed to be elevated; A gripper part installed to catch the material in the body part; And it characterized in that it comprises an electromagnet module installed on the body portion to attach the material by magnetic force.

The gripper portion is a head portion connected to the body portion; And a pair of finger portions installed in the head portion to move as fluid flows in and out of the head portion.

The gripper portion may be provided with a pair on the lower side of the body portion.

The electromagnet module is a lifting portion that is installed to be able to elevate the body portion; And an electromagnet connected to the lift and generating a magnetic force as power is supplied.

The electromagnet portion is a connecting member connected to the elevating portion; A first moving rod installed to be elevated on the connecting member; A first electromagnet connected to the first moving rod; And a first elastic member installed on the first moving rod to elastically support the first electromagnet.

A plurality of the first moving rods may be installed on the connecting member.

The electromagnet portion is a second moving rod that is movable to be elevated on the connecting member; A second electromagnet connected to the second moving rod; And a second elastic member installed on the second moving rod to elastically support the second electromagnet.

According to the present invention, since the gripper part holds and restrains the material, and the electromagnet part attaches the material by magnetic force, it is possible to prevent the material from falling when the gripper device raises and transports the material.

In addition, according to the present invention, when the height of the material is different, some of the plurality of first elastic members contract and the first moving rod is raised, so that the lower surface of the first electromagnet can be adjusted to the height or slope of the outer surface of the material. You can.

1 is a perspective view showing a gripper device according to an embodiment of the present invention.
Figure 2 is a front view showing a gripper device according to an embodiment of the present invention.
3 is a rear view showing a gripper device according to an embodiment of the present invention.
Figure 4 is a front view showing a state in which the gripper device according to an embodiment of the present invention is located on the upper side of the material.
5 is a front view showing a state in which the finger portion of the gripper according to an embodiment of the present invention holds both sides of the material and is constrained.
Figure 6 is a front view showing a state in which the gripper device according to an embodiment of the present invention is located on the upper side of the material.
7 is an enlarged view showing a state in which a first electromagnet is obliquely attached to an outer surface of a material in a gripper device according to an embodiment of the present invention.

Hereinafter, an embodiment of the gripper device according to the present invention will be described with reference to the accompanying drawings. In the process of describing the gripper device, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition of these terms should be made based on the contents throughout the present specification.

1 is a perspective view showing a gripper device according to an embodiment of the present invention, FIG. 2 is a front view showing a gripper device according to an embodiment of the present invention, and FIG. 3 is a gripper according to an embodiment of the present invention It is a rear view showing the device.

1 to 3, a gripper device according to an embodiment of the present invention includes a body portion 110, a gripper portion 120, and an electromagnet module 130.

The body 110 is installed to be elevated by a lifting device (not shown). The body part 110 is rotatably installed around the rotation shaft 112.

The gripper unit 120 is installed to catch the material 10 on the body unit 110. The gripper unit 120 is provided with a pair of lower portions of the body unit 110. Since the gripper unit 120 is provided with a pair, when the gripper unit 120 grasps and moves the material 10, it is possible to prevent the material 10 from being inclined to one side or deviating from the gripper unit 120. The material 10 may be various parts such as a torsion beam installed in a vehicle.

The body unit 110 or the gripper unit 110 is provided with a sensor unit 126 to detect the distance between the gripper unit 110 and the material 10. When it is determined that the distance sensed by the sensor unit 126 has reached a predetermined distance, the control unit (not shown) stops the dropping of the gripper device.

The gripper unit 120 includes a head unit 121 and a pair of finger units 125. The head part 121 is connected to the body part 110. Inside the head portion 121, a hydraulic chamber (not shown) is formed. The finger portion 125 is installed to move in the linear direction to the head portion 121. The head portion 121 is provided with an inlet port 122 and an outlet port 123 so that fluid (air or oil) flows in and out. When the fluid flows into the hydraulic chamber through the inlet port 122, a pair of finger parts 125 are opened. When the fluid is discharged from the hydraulic chamber through the discharge port 123, a pair of finger parts 125 are collected to hold the material 10. In addition, by changing the flow path of the hydraulic chamber, when a fluid is supplied, a pair of finger parts 125 are collected, and when the fluid is discharged, a pair of finger parts 125 may be opened.

The electromagnet module 130 is installed on the body portion 110 to attach the material 10 by magnetic force. The electromagnet modules 130 are respectively installed on both sides of the body portion 110. A power supply (not shown) is connected to the electromagnet module 130. Since the gripper part 120 grasps the material 10 and the electromagnet module 130 attaches the material 10 by magnetic force, it is possible to prevent the material 10 from falling or tilting from the gripper device. Therefore, it is possible to significantly reduce the risk of accidents when the material 10 is moved.

The electromagnet module 130 includes a lift 140 and an electromagnet 150.

The lifting part 140 is installed to be able to elevate the body part 110. The lifting parts 140 may be lifting cylinders respectively installed on both sides of the body part 110. The lifting part 140 includes guide blocks 141 installed on both sides of the body part 110, a plurality of lifting guides 143 installed to be able to be elevated on the guide blocks 141, and a plurality of lifting guides 143 It includes a lifting panel 145 connected to the lower side of the. Various types of linear motors, such as a linear motor, may be applied to the elevating part 140 so as to be elevatingly installed on both sides of the body part 110.

The electromagnet 150 is connected to the elevator 140, and generates magnetic force as power is supplied.

The electromagnet 150 includes a connecting member 151, a first moving rod 152, a first electromagnet 153, and a first elastic member 154.

The connecting member 151 is connected to the lifting panel 145 of the lifting unit 140. The first moving rod 152 is installed so as to be elevated on the connecting member 151. A plurality of first moving rods 152 are installed on the connecting member 151. A plurality of first moving rods 152 are slidably fitted to the connecting member 151. A first stopper 152a is formed at an upper end of the first moving rod 152 to prevent the first moving rod 152 from falling downward and to limit the descending range of the first moving rod 152. The first electromagnet 153 is connected to the first moving rod 152. A protective cover (not shown) is installed outside the first electromagnet 153. The first elastic member 154 is installed on the first moving rod 152 to elastically support the first electromagnet 153. The first moving rod 152 is fitted inside the first elastic member 154. The first elastic member 154 may be a first coil spring.

 As the first elastic member 154 expands and contracts, the first moving rod 152 moves up and down, so even if the height of the material 10 is different for each part or the material 10 is formed to be bent, the first electromagnet 153 The lower surface may be in close contact with the surface of the material 10. In addition, since the plurality of first moving rods 152 are individually moved, the lower surface of the first electromagnet 153 may be in close contact with the surface of the material 10 even when the surface of the material 10 is inclined. have. The first elastic member 154 finely adjusts the height of the first moving rod 152, and the elevating unit 140 roughly adjusts the height of the electromagnet 150.

The electromagnet 150 further includes a second moving rod 156, a second electromagnet 157, and a second elastic member 158.

The second moving rod 156 is moved so as to be elevated on the connecting member 151. A second stopper 156a is formed at an upper end of the second moving rod 156 to prevent the second moving rod 156 from falling downward and to limit the descending range of the second moving rod 156. The second electromagnet 157 is connected to the second moving rod 156. The second elastic member 158 is installed on the second moving rod 156 to elastically support the second electromagnet 157. The second moving rod 156 is fitted inside the second elastic member 158. The second elastic member 158 may be a second coil spring.

It will be described with respect to the operation of the gripper device according to an embodiment of the present invention configured as described above.

4 is a front view showing a state in which the gripper device according to an embodiment of the present invention is located on the upper side of the material, and FIG. 5 is a state in which the finger portion of the gripper part according to an embodiment of the present invention holds and holds both sides of the material 6 is a front view showing a state in which the gripper device according to an embodiment of the present invention is located on the upper side of the material, and FIG. 7 is a view of the outside of the material in the gripper device according to an embodiment of the present invention. It is an enlarged view showing a state in which the first electromagnet is obliquely attached to the side surface.

4 to 7, the gripper device is moved upwards of the material 10 to be transferred. The body part 110 is rotated about the rotation shaft 112 so that the gripper part 120 and the electromagnet module 130 are arranged parallel to the longitudinal direction of the material 10. As the fluid is supplied to the head portion 121 of the gripper portion 120, the pair of finger portions 125 wider than the width of the material 10.

The body portion 110 is lowered so that the gripper portion 120 and the electromagnet portion 150 contact the material 10. When it is determined that the distance sensed by the sensor unit 126 has reached a predetermined distance, the control unit (not shown) stops the dropping of the gripper device.

Subsequently, as the fluid is discharged from the head portion 121 of the gripper portion 120, a pair of finger portions 125 are collected and constrained by grabbing both sides of the width direction of the material 10.

In addition, as the elevating unit 140 is driven, the approximate height of the electromagnet unit 150 is adjusted as the electromagnet unit 150 is lowered to contact the outer surface of the material 10. Subsequently, when the height of the material 10 is different, a part of the plurality of first elastic members 154 is contracted and the first moving rod 152 is raised, so that the lower surface of the first electromagnet 153 is the material 10 It can be adjusted to the height or inclination of the outer surface of the.

For example, when the heights of both sides of the material 10 are different based on the gripper unit 120, the heights of the first electromagnet 153 on the left and the first electromagnet 153 on the right are different. In addition, when both sides of the material 10 are formed to be inclined based on the gripper unit 120, the lower surfaces of the first electromagnets 153 on both sides are inclined by the inclination angle of the material (θ: see FIG. 7). In addition, the second electromagnet 157 may be height-adjusted accordingly when a step or the like is formed around the first electromagnet 153. Therefore, the lower surfaces of the first electromagnet 153 and the second electromagnet 157 are in close contact with the outer surface of the material 10.

As power is supplied to the first electromagnet 153 and the second electromagnet 157, the material 10 is attached to the first electromagnet 153 and the second electromagnet 157.

As described above, since the gripper unit 120 grasps and restrains the material 10, and the electromagnet unit 150 attaches the material 10 by magnetic force, when the gripper device raises and transports the material 10, the material ( 10) can be prevented from falling.

In addition, since the material 10 is transferred using the gripper device, the operator does not need to lift the material 10 and move it. Therefore, diseases of the musculoskeletal system and the like can be prevented.

The present invention has been described with reference to the embodiment shown in the drawings, but this is merely exemplary, and those skilled in the art to which the art belongs can various modifications and equivalent other embodiments from this. Will understand.

Therefore, the true technical protection scope of the present invention should be defined by the claims.

10: material 110: body
112: rotating shaft 120: gripper
121: head 122: inlet port
123: discharge port 125: finger portion
126: sensor unit 130: electromagnet module
140: lift 141: guide block
143: lifting guide 145: lifting panel
150: electromagnet section 151: connecting member
152: first moving rod 152a: first stopper
153: first electromagnet 153a: protective cover
154: first elastic member 156: second moving rod
156a: second stopper 157: second electromagnet
158: second elastic member

Claims (7)

A body portion installed to be elevated;
A gripper part installed to catch the material in the body part; And
A gripper device comprising an electromagnet module installed on the body to attach the material by magnetic force.
According to claim 1,
The gripper portion,
A head portion connected to the body portion; And
A gripper device comprising a pair of finger portions installed in the head portion so as to move as the fluid flows in and out of the head portion.
According to claim 2,
The gripper unit is a gripper device, characterized in that a pair is installed on the lower side of the body portion.
According to claim 1,
The electromagnet module,
An elevation unit installed to be elevated in the body unit; And
A gripper device comprising an electromagnet connected to the lift and generating a magnetic force when power is supplied.
According to claim 4,
The electromagnet portion,
A connecting member connected to the lift;
A first moving rod installed to be elevated on the connecting member;
A first electromagnet connected to the first moving rod; And
And a first elastic member installed on the first moving rod to elastically support the first electromagnet.
The method of claim 5,
The first moving rod is a gripper device, characterized in that a plurality of are installed on the connecting member.
The method according to claim 5 or 6,
The electromagnet portion,
A second moving rod which is movably moved to and from the connecting member;
A second electromagnet connected to the second moving rod; And
And a second elastic member installed on the second moving rod to elastically support the second electromagnet.

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