KR100977594B1 - Absorber unit - Google Patents

Abstract

An object of the present invention is to provide an adsorption unit that can adsorb on curved surfaces. To this end, in the present invention, a rubber cone having a hollow portion formed therein; And a deformation rib body having a plurality of deformation ribs contacting the rubber cone and disposed radially.

Adsorption unit, vacuum adsorption, surface bending

Description

Absorber unit

The present invention relates to an adsorption unit, and more particularly, to an adsorption unit that can be attached to any surface by maintaining the unit internal space in a vacuum.

The present invention is derived from the research conducted as part of the new technology R & D support project of the Seoul National University Development Institute and the Seoul National University Industry-University Cooperation Foundation. Robot platform development]

A device that attaches to a specific surface using a vacuum has been used for various purposes. For example, there is an example utilized in a device that lifts a steel plate by vacuum suction, and a robot climbing a wall using an endless wheel having a plurality of vacuum suction units.

However, all of these various vacuum adsorption units were those that adsorbed only on surfaces that were commonly uncurved or almost negligible. The units adsorbed on the surface having little such curvature have a limited field of application.

Therefore, it is expected that the development of an adsorption unit capable of adsorption on a surface having various bends can greatly expand the field in which vacuum adsorption units have been utilized.

An object of the present invention is to provide an adsorption unit that can adsorb on curved surfaces.

The object of the present invention as described above,

A rubber cone having a hollow portion formed therein; And

It is achieved by providing an adsorption unit comprising a deformation rib body having a plurality of deformation ribs in contact with the rubber cone and disposed radially.

Here, the frame to support the rubber cone and the deformed rib body, the hollow portion formed therein; And

One end may be installed to be movable along the hollow part of the frame, and the other end may further include a rib support disposed to be movable inside the deformation rib body.

Here, an elastic member for applying a force to lower the rib support in the adsorption surface direction may be further disposed at one end of the rib support.

The deformed rib body may be disposed to be in close contact with the inside of the rubber cone, and a protrusion may be formed at an inner lower end of the rubber cone to fix the deformed rib body.

Here, the protrusion may be formed to be connected in the circumferential direction from the inside of the rubber cone.

Here, the rubber cone and the material of the deformed rib body are both rubber-based material, the elastic modulus of the rubber constituting the material of the deformed rib body may be larger than the rubber cone.

Here, it is preferable that a skirt protruding outward is formed at the lower end of the rubber cone.

Here, the rubber cone may be disposed along the periphery, and the end of the suction surface may include a plurality of combs that are deformable to the outside of the rubber cone.

In addition, the object of the present invention as described above,

A hollow portion is formed inside, the low-frequency deformation portion capable of deformation in accordance with the low frequency bending of the surface; And

It is achieved by providing an adsorption unit comprising a plurality of combs arranged around the outside of the low frequency deformation portion to block air from entering and exiting the unsealed portion between the absorption surface and the low frequency deformation portion.

Here, the comb teeth may be fixed to the comb support frame that is detachably fixed to the upper side of the frame.

Here, the comb teeth may be arranged in several layers along the outer circumference of the rubber cone.

According to this invention, the adsorption unit which can adsorb | suck to the curved surface is provided. In particular, the adsorption surface is sealed while being deformed to correspond to the curvature of the surface, and the part which is not sealed by the high frequency irregularities of the surface is provided with a plurality of comb teeth on the outer periphery to increase the sealing effect, thereby improving the degree of vacuum in the interior space and various bending. The adsorption unit which can adsorb | suck to the surface of the can be provided. Further, the end of the adsorption unit is prevented from being sucked into the inside to which the vacuum pressure is applied, thereby providing an adsorption unit having a structure in which continuous adsorption and desorption are easy.

The present invention provides a breakthrough adsorption unit that allows adsorption on large curved surfaces that cannot be achieved with the simpler form of adsorption previously. In the adsorption unit of the present invention, in order to enable vacuum adsorption basically, a hollow part is formed inside the adsorption unit, and the hollow part may be maintained in vacuum or the vacuum may be released as necessary. The adsorption unit of the present invention is characterized in that deformation can be made corresponding to the bending of the adsorption surface, and the phenomenon that the end of the adsorption unit is sucked inward by the vacuum pressure therein is prevented. In addition, the adsorption unit according to the present invention includes a high frequency strain portion and a low frequency strain portion. The low frequency deformation portion is a member that can be deformed in response to low frequency bending of the surface, and the high frequency deformation portion functions to block the inflow of air to a portion where sealing is not secured by high frequency bending between the low frequency deformation portion and the adsorption surface.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a perspective view schematically showing the configuration of the adsorption unit according to an embodiment of the present invention, Figure 2 is a perspective view showing the appearance of removing the comb teeth from the adsorption unit shown in Figure 1, Figure 3 An assembly view of the adsorption unit shown in FIG. 1 is shown, a cross-sectional view of the adsorption unit shown in FIG. 1 is shown in FIG. 1, and a cross-sectional view of the adsorption unit of FIG. 1 is shown in FIG. 5. .

As shown in the drawing, the adsorption unit 100 according to the present invention includes a plurality of rubber cones 110 having a hollow portion 190 (FIG. 4) formed therein and inscribed radially to the rubber cones 110. It may include a deformed rib body 120 having a deformed rib (120a).

The rubber cone 110 has a relatively thin thickness and is made of rubber to facilitate deformation. In the upper central portion of the rubber cone 110 is formed a hole (110a) in communication with the hollow portion therein may be applied a vacuum pressure. The deformed rib body 120 is disposed to be in close contact with the inside of the rubber cone 110, as shown in the cross-sectional view of FIG. 4, the fixed rib body 120 is fixed to the inner lower end of the rubber cone 110. The projection 110b is formed. The protrusion 110b may be connected in the circumferential direction, and when the shape is connected in the circumferential direction, the lower end of the rubber cone 110 is easily deformed toward the hollow part by vacuum pressure so that it is not evenly contacted with the adsorption surface. You can prevent it. Of course, such deformation can be prevented even when the spacing of the deformation ribs 120a of the deformation rib body 120 is sufficiently dense. It is preferable that the skirt 110c protruding outward is formed at the lower end of the rubber cone 110.

The plurality of deformation ribs 120a radially disposed in the deformation rib body 120 may be connected to each other at the center of the deformation rib body 120. Each of the deformed ribs 120a is formed in a curved shape, and the material is a rubber material that can be deformed. Preferably, the deformation ribs 120a are made thicker than the thickness of the rubber cone 110, and the elastic modulus of the rubber material forming the deformation rib body 120 is larger than that of the rubber cone 110. It is preferable.

The adsorption unit according to the present invention supports the rubber cone 110 and the deformed rib body 120, and the frames 130 and 150 in which the hollow portion 130a is formed therein, and the frames 130 and 150. It may further include a rib support 160 which is disposed relative to the relative movement.

The frames 130 and 150 are divided into the upper frame 130 and the lower frame 150 in the drawing, but are not necessarily divided. A vacuum pressure may be applied to the hollow part 190 inside the rubber cone 110 through the frames 130 and 150.

One end portion 160b of the rib support 160 is installed to be movable along the hollow portion 130a of the frames 130 and 150, and the other end portion 160a is disposed on the deformable rib body 120. The deformation ribs 120a are disposed inside the deformation rib body 120 to move upward and downward while preventing the deformation ribs 120a from being folded into the hollow part 190 of the rubber cone 110. The outer diameter of the other end portion 160a of the rib support 160 is preferably made to correspond to the inner diameter of the deformed rib body 120. One end portion 160b of the rib support 160 may further include an elastic member (not shown) that applies a force to lower the rib support 160 toward the adsorption surface.

The adsorption unit 100 according to the present invention may further include a sealing film 105 disposed along a lower circumference of the rubber cone 110. When the skirt 110c protruding outward is formed at the bottom of the rubber cone 110, the sealing film 105 is attached to extend further outward than the skirt 110c as shown in the drawing. When the rubber cone 110 and the deformed rib body 120 are deformed in response to the low frequency bending of the adsorption surface, the sealing film 105 effectively prevents the sealing film from being formed between the adsorption surface and the adsorption unit. Sealing to contribute to maintaining the vacuum pressure inside the adsorption unit.

The adsorption unit 100 according to the present invention may further include a plurality of comb teeth 181 arranged along the periphery of the rubber cone 110 and deformable to the outside of the rubber cone 110. One end of the comb teeth is fixed to the upper side of the adsorption unit, and the other end thereof is elongated toward the portion where the adsorption unit and the adsorption surface face.

The comb teeth 181 are made of a material that can be deformed and are closely arranged along the outer circumference of the adsorption unit 100. These combs 181 may be curved according to the shape of the curve of the adsorption surface. The rubber cone 110 and the deformable rib body 120 may also be deformed along the curvature of the adsorption surface. Although the deformation of the rubber cone 110 and the deformed rib body 120 is made along the curvature of the adsorption surface, the rubber cone 110 and the deformed rib body 120 may not provide a perfect sealing against the high frequency unevenness of the adsorption surface which is relatively small or changes rapidly. . Even in this case, the comb teeth 181 are sealed to prevent a sudden drop in the vacuum pressure of the hollow portion 190 of the rubber cone 110 when a vacuum pressure is applied to the inner hollow portion 190 of the rubber cone 110. It blocks the inflow of air from the unheated part. As a result, the vacuum pressure of the hollow part can be prevented from being rapidly reduced, and the adsorption unit 100 can maintain the adsorption force of a predetermined level or more. From this point of view only, the comb teeth 181 are preferably arranged very closely around the adsorption unit.

The material of the comb teeth 181 may be a biomaterial such as a polymer material or a stiff hair that can be elastically deformed, and various similar materials may be used. The comb teeth 181 may be fixed to the comb support frame 180 which is detachably fixed to the upper sides of the frames 130 and 150. In the drawing, the comb teeth 181 are shown arranged in a line along the outer circumference of the rubber cone 110, but may be arranged in multiple layers as necessary. In addition, although the shape of the comb teeth 181 has a shape of a narrow plate-like member and is arranged in a direction perpendicular to the outer circumferential surface of the rubber cone 110, it is not limited thereto. That is, the shape of the cross-section can be made in various shapes such as cylindrical, oval, fan-shaped, arc-shaped, etc., the arrangement direction also has a predetermined width in the direction (tangential direction) in contact with the outer peripheral surface of the rubber cone 110. It may be arranged so that. Rather, it may be more effective for the air inflow blocking to be arranged to have a predetermined width parallel to the tangential direction than shown in the drawings. In addition, the comb teeth may be of a material such as a broom brush, which is closely disposed similar to the case of the broom.

On the other hand, when provided with both the comb teeth and the sealing film can be obtained a remarkable sealing effect compared to the case of having only one of the two. That is, as shown in FIG. 4, when the sealing film is disposed in a state in which the comb teeth give a preload to some extent, the comb teeth are pressed so that the sealing film may evenly contact the adsorption surface when the adsorption unit contacts the adsorption surface. As a result, even more effective sealing is possible for high frequency bending of the adsorption surface.

On the other hand, in the adsorption unit of the present invention, a vacuum pump (not shown) for providing a vacuum pressure to the hollow portion 190 of the rubber cone 110 is connected and used, and the vacuum pump and its connection structure have various commercialized configurations. This can be utilized.

FIG. 5 is a cross-sectional view showing the adsorption unit of the present invention adsorbing onto an adsorption surface having surface curvatures.

As shown in FIG. 5, the adsorption unit may be vacuum adsorbed even when the surface is severely curved, and when the mechanism including the multiple adsorption units of the present invention is configured, the adsorption force may be sufficiently maintained even when the bending is severe.

On the other hand, in the detailed description of the present invention, the low-frequency deformation portion mentioned at the beginning of "details for the implementation of the invention" can be seen as a portion except the comb teeth shown in Figure 2, the high-frequency deformation portion comb teeth and the sealing film This may be the case.

In the following description of the present invention, the embodiments illustrated in the drawings have been described with reference to the embodiments, which are merely exemplary, and various modifications and equivalent other embodiments of the present invention may be made by those skilled in the art. I will understand the point. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a perspective view schematically showing the configuration of an adsorption unit according to an embodiment of the present invention.

2 is a perspective view showing a state in which the comb teeth removed from the adsorption unit shown in FIG.

3 is an assembly view of the adsorption unit shown in FIG.

4 is a cross-sectional view of the adsorption unit shown in FIG. 1.

5 is a cross-sectional view of a state in which the adsorption unit of FIG. 1 is deformed.

<Explanation of symbols for the main parts of the drawings>

100: adsorption unit 101: high frequency deformation portion

102: low frequency deformation portion 105: sealing film

110: rubber cone 110a: through hole

110b: projection 110c: skirt

120: deformed rib body 130: upper frame

140: fastening member 150: lower frame

160: rib support 170: fastening member

180: frame for supporting the comb teeth 190: hollow portion of the rubber cone

Claims (13)

A rubber cone having a hollow portion formed therein; A deformed rib body having a plurality of deformed ribs disposed radially in contact with the rubber cone; A frame supporting the rubber cone and the deformed rib body and having a hollow portion formed therein; And One end portion is installed to be movable along the hollow portion of the frame, the other end is arranged to be movable inside the deformation rib body includes a rib support to prevent the deformation ribs to be folded into the hollow portion, And the respective deformed ribs are formed in a curved shape having a portion parallel to the moving direction of the rib support and a portion extending in the central direction of the hollow portion. delete The method of claim 1, And an elastic member disposed at one end of the rib support to force the rib support to descend toward the adsorption surface. The method of claim 1, The deformed rib body is disposed so as to be in close contact with the inside of the rubber cone, adsorption unit, characterized in that a projection for fixing the deformed rib body formed on the inner lower end of the rubber cone. The method of claim 4, wherein And the protrusion is formed so as to be connected in the circumferential direction inside the rubber cone. The method of claim 1, Both the rubber cone and the deformed rib body are made of a rubber-based material, and the elastic modulus of rubber forming the material of the deformed rib body is larger than that of the rubber cone. The method of claim 1, Adsorption unit characterized in that a skirt protruding outward is formed at the bottom of the rubber cone. The method of claim 1, And a sealing film attached along a lower circumference of the rubber cone and extending outward from a lower end of the rubber cone. The method of claim 1, Adsorption unit is disposed along the periphery of the rubber cone, characterized in that it further comprises a plurality of comb teeth capable of deformation and elastic recovery. delete The method of claim 1, Is disposed along the periphery of the rubber cone, and further comprising a plurality of comb teeth capable of deformation and elastic recovery, The comb teeth are adsorption unit, characterized in that fixed to the comb support frame is detachably fixed to the upper side of the frame. 10. The method of claim 9, The comb teeth are arranged in multiple layers along the outer circumference of the rubber cone. The method of claim 1, A sealing film attached along a lower circumference of the rubber cone and extending outward from a lower end of the rubber cone, And a plurality of comb teeth arranged along the periphery of the rubber cone so as to preload the sealing film from the outside to the surface of the rubber cone, and capable of deformation and elastic recovery.

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