WO2014003212A1

WO2014003212A1 - Dual structure vacuum adsorption plate

Info

Publication number: WO2014003212A1
Application number: PCT/KR2012/005027
Authority: WO
Inventors: 양경태
Original assignee: 주식회사 제이에스엠
Priority date: 2012-06-26
Filing date: 2012-06-26
Publication date: 2014-01-03
Also published as: KR101249344B1

Abstract

The present invention relates to a dual structure vacuum adsorption plate and, more particularly, to a vacuum adsorption plate that is detachably suctioned, by means of vacuum pressure, to the surface of a wall, such as a bathroom or kitchen wall. The vacuum adsorption plate can be conveniently assembled due to a fixing space part being formed at the bottom side of the sloped projecting part formed on a rotating means, thereby enabling the vacuum adsorption plate to be inserted and firmly fixed in the fixing space part. The dual structure vacuum adsorption plate solves the problem that conventional body parts become rotated and lifted with the result that a gap is formed between the adsorption plate and the body part, and also provides a beautiful exterior design.

Description

Dual Structure Vacuum Suction Plate

The present invention relates to a dual structure vacuum adsorption plate, and more particularly, a vacuum adsorption plate which is adsorbed to and detached from a wall of a bathroom or a kitchen by vacuum pressure, and is formed by forming a fixed space portion under the inclined protrusion formed on the rotating means. It is easy to assemble by inserting in the fixed space firmly fixed, and the conventional body is turned to solve the problem that the body portion rises and float the body portion, and at the same time relates to a dual structure vacuum adsorption plate that provides a beautiful design in appearance. .

In general, the vacuum adsorption plate is a device used to install lightweight household items such as towel racks, soap trays, toiletries storage boxes, tissue racks, and the like on walls without pores such as glass or tiles.

As shown in Figure 1, the conventional vacuum adsorption plate is a suction plate 110 formed of synthetic rubber or soft plastic and formed in a hemispherical shape, a support cap 130 for supporting the upper edge of the suction plate 110, and A support shaft 120 coupled to an upper side of the adsorption plate 110 and provided through the support cap 130, and pivotally coupled to an upper end of the support shaft 120, and the adsorption plate with respect to the support cap 130. It is composed of an operating lever 140 for moving the central portion of (110).

When the operating lever 140 is pivoted in a state in which the adsorption plate 110 is in close contact with the wall surface, the operation lever 140 lifts the adsorption plate 110 on the lever principle, and at this time, an edge of the adsorption plate 110. The pressing cap is fixed to the wall by the support cap 130 and the center portion is lifted up so that the pressure between the wall and the suction plate 110 is close to vacuum, so that the suction plate 110 adheres to the wall.

As such, the suction plate 110 may be easily supported on the wall by supporting the object by providing a hook mechanism on the support cap 130 or the operating lever 140 in a state in which the suction plate 110 is pressed against the wall by vacuum pressure. Will be.

However, the conventional actuating lever 140 is a hook mechanism because the hook mechanism is pivoted together with the actuating lever 140 when the hook mechanism is provided on one side of the actuating lever 140 by moving the suction plate 110 while performing the seesaw movement. There was a problem that the shape and function of the mechanism is restricted.

In addition, since the conventional suction plate 110 is formed in a curved surface and air is inserted into the space between the wall surface and the suction plate 110 in a state before operating the operating lever 140, even when operating the operating lever 140, the degree of vacuum It was not high and the adsorption force was not large.

Therefore, there are not many articles of load that can be supported by the conventional vacuum adsorption apparatus, and its application field is limited.

On the other hand, in the case of the conventional vacuum adsorption plate is a lever-type, it is difficult to assemble, there was a problem that must be covered with a lever cover after assembly does not dismantle.

In addition, the body portion is turned, so that the body portion rises, there is a problem that the suction plate and the body portion is open, and the design is limited, and the problem is not beautiful.

Therefore, the present invention has been proposed in view of the problems of the prior art as described above, and an object of the present invention is to form a fixed space portion on the lower side of the inclined protrusion formed on the rotating means to be firmly inserted into the fixed space during assembly This simple, the conventional body is turned to solve the problem that the body portion rises floating plate and the body portion, and at the same time to provide a beautiful appearance in design.

Another object of the present invention is to form a soft adhesive material on the bottom surface of the adsorption plate and a hard adhesive material to prevent shaking during rotation of the rotation means on the edge of the body portion to increase the adsorption force, the adsorption plate on various materials and curved surfaces It can be attached, in particular, to solve the problem of shaking due to the generation of stress caused by the rise of the adsorption plate during the rotation through a hard adhesive material to solve the disadvantage that the adsorption power falls.

In order to achieve the problem to be solved by the present invention,

Dual structure vacuum suction plate according to an embodiment of the present invention,

Adsorption plate 110 is formed to be elastically deformable,

A support shaft 120 installed at an upper portion of the suction plate and having a hole for inserting a pin at an upper side thereof;

Adsorption means (100) comprising a pin (130) inserted into the hole of the support shaft;

A body portion 200 having a space in which the suction means is seated, a protrusion groove 210 formed on an outer surface thereof, and a protrusion 220 for inserting the pin;

A pin coupling hole 310 for inserting the pin,

An inclined protrusion 320 formed to be inclined to guide the pin inserted into the pin coupling hole into the fixed space part;

A fixed space portion 330 formed on the lower side of the inclined protrusion to seat the pin;

An inclined surface 340 formed in series with the fixed space to slide the pin in a vertical direction;

It is formed to include the upper end of the inclined surface and the rotating means 300 is formed with a stop 350 to stop the rising of the pin; and configured to solve the problem of the present invention.

Dual structure vacuum suction plate according to the present invention having the above configuration and action,

Forming a fixed space portion on the lower side of the inclined protrusion formed on the rotating means is inserted into the fixed space to be firmly fixed when assembling, easy to assemble, the conventional body is turned to solve the problem that the body portion is floated, the adsorption plate and the body portion is opened, At the same time, it has the effect of providing a beautifully designed appearance.

In addition, the soft adhesive material on the bottom surface of the adsorption plate and the corner portion of the body to form a hard adhesive material to prevent the shaking during rotation of the rotating means to increase the adsorption force, and the adsorption plate can be attached to various materials and curved surfaces. In particular, there is a better effect that can solve the disadvantage that the adsorption force is reduced by solving the problem of shaking due to the generation of stress caused by the rise of the suction plate during the rotation through a hard adhesive material.

1 is a conventional suction plate structure.

2 is a perspective view of a dual structure vacuum suction plate according to an embodiment of the present invention.

3 is a front exploded perspective view of a dual structure vacuum suction plate according to an embodiment of the present invention.

4 is a rear exploded perspective view of a dual structure vacuum suction plate according to an embodiment of the present invention.

Figure 5 is a plan view of the rotating means of the dual structure vacuum suction plate according to an embodiment of the present invention.

6 is a partial cross-sectional view of the rotating means of the dual structure vacuum suction plate according to an embodiment of the present invention.

Figure 7 is a rear perspective view of the body portion of the dual structure vacuum suction plate according to an embodiment of the present invention.

* Detailed description of the major symbols in the drawings *

100: adsorption means

110: suction plate

120: support shaft

130: pin

200: body

210: protrusion groove

220: protrusion

300: rotation means

310: pin coupling hole

320: inclined protrusion

330: fixed space

340: slope

350: stop

400: hook member

500: soft adhesive material

600: hard adhesive material

Dual structure vacuum suction plate according to an embodiment of the present invention for achieving the above object,

Adsorption plate 110 is formed to be elastically deformable,

A pin coupling hole 310 for inserting the pin,

And a rotating means 300 formed successively with the upper end of the inclined surface to stop the rising of the pin.

On the other hand, the dual structure vacuum suction plate according to another embodiment of the present invention,

Adsorption plate 110 is formed to be elastically deformable,

A pin coupling hole 310 for inserting the pin,

Rotating means 300 is formed in series with the upper end of the inclined surface to form a stop 350 for stopping the rise of the pin;

A soft adhesive material 500 formed on the bottom surface of the suction plate;

And a hard adhesive material 600 formed to prevent shaking during rotation of the rotating means at the corner of the body portion.

At this time, the present invention according to an additional aspect is formed on the outer surface of the rotating means for the hook member 400 to hang the object; characterized in that it further comprises.

At this time, the body portion and the rotation means,

It is characterized by a polygonal shape or a circle.

At this time, the stop unit 350,

Characterized in that the projection is formed higher than the height of the groove or inclined surface.

At this time, the inclined protrusion 320,

When the pin inserted into the pin coupling hole is rotated to guide to the fixed space portion is characterized in that to prevent the departure of the pin by seating in the fixed space.

At this time, when rotating the rotating means,

The pin seated in the fixed space portion 330 is moved to the upper side by riding on the inclined surface, it is characterized in that the adsorption plate is adsorbed to the object as it comes up.

Hereinafter, the embodiment of the dual structure vacuum adsorption plate according to the present invention will be described in detail.

As shown in Figures 2 to 4, the dual structure vacuum suction plate of the present invention,

Adsorption plate 110 is formed to be elastically deformable,

A pin coupling hole 310 for inserting the pin,

It is formed to be connected to the upper end of the inclined surface and the rotating means 300 is formed with a stop 350 to stop the rising of the pin;

The adsorption means 100,

Adsorption plate 110 is formed to be elastically deformable,

The pin 130 is inserted into the hole of the support shaft.

The adsorption plate 110 is formed to be elastically deformable to raise the adsorption plate to provide a strong adsorption force on the center.

In addition, the support shaft 120 is installed on the upper portion of the suction plate, a hole for inserting the pin is formed on the upper side, the pin 130 is inserted into the hole structure.

On the other hand, the body portion 200,

A space in which the adsorption means is seated is provided therein, and a protrusion groove 210 is formed in an upper portion of the outer surface to form a protrusion 220 for inserting the pin.

Therefore, a hole for inserting the support shaft is formed in the central portion of the body portion, as shown in FIG.

In addition, as shown in Figures 5 to 6, the rotating means 300 is the core configuration of the present invention,

A pin coupling hole 310 for inserting a pin,

It is formed in series with the upper end of the inclined surface is configured to include a stop 350 for stopping the rise of the pin.

That is, as shown in Figure 4, the bottom surface of the rotating means is formed with a pin coupling hole 310 of the shape shown in the figure for inserting the pin.

At this time, it is a characteristic part of the present invention to provide a space for the pin is inserted and seated.

That is, the inclined protrusion 320 is formed to be inclined to guide the pin inserted into the pin coupling hole into the fixed space portion, as shown in the drawing, so that one side forms an inclination higher than the other side so that the pin is inclined. Ascend the ride to naturally descend from the end of the pin is seated in the fixed space 330 formed on the lower side of the inclined protrusion.

As described above, the pin can be easily inserted by the pin coupling hole, and the pin is seated by the inclined protrusion and the fixed space part, so that the pin can be easily assembled and stays in the fixed space so that the pin is not detached and is never disassembled. Will not become.

That is, the inclined protrusion 320 is guided to the fixed space portion when the pin inserted in the pin coupling hole rotates to be seated in the fixed space portion to prevent the pin from being separated.

In addition, when the rotating means is rotated, the pin seated in the fixed space portion 330 is moved to the upper direction on the inclined surface is adsorbed by the object as the adsorption plate rises up.

In addition, the inclined surface 340 is formed in succession with the fixed space portion to guide the pin in the vertical direction.

In other words, if the pin is moved in the left direction on the drawing, the pin is lifted upward in the upward direction by the inclined plane, and if the pin is moved upward in the right direction in the drawing, the suction is lowered by the inclined plane. Will be released.

At this time, the upper end of the inclined surface to form a stop 350 to stop the rise of the pin, the stop 350 may be formed of a protrusion formed higher than the height of the groove or inclined surface.

The difference between the structure of the rotating means of the present invention and the conventional suction plate is that the prior art does not have a pin coupling hole, does not have an inclined protrusion, and does not have a fixed space portion and is a lever type. It was difficult, and had to be covered with a lever cover after assembly to be disassembled.

As shown in FIG. 2, when the rotation means is rotated by 90 degrees, the adsorption plate is lifted up so that the adsorption is more closely possible with the object (wall surface, etc.).

As shown in Figure 7, the bottom of the body portion is provided with a space for inserting the suction plate in the center portion to insert the suction plate, wherein a soft adhesive material 500 is formed on the bottom surface of the suction plate, for example For example, the polyurethane or silicon is formed, and at the same time, a hard adhesive material 600 is formed on the corner portion of the body to prevent shaking when the rotating means is rotated. For example, silicon or rubber is formed.

That is, the dual structure described in the present invention is a soft adhesive material 500 formed on the bottom surface of the suction plate;

Hard adhesive material 600 is formed to prevent shaking during the rotation of the rotating means to the edge portion of the body portion; as such, it means that it constitutes a double bottom structure.

The double structure (double bottom structure) increases the adsorption force, and the adsorption plate can be attached to various materials and curved surfaces.

If only the soft adhesive material is used, the adsorption body and the body part rises when the adsorption rotates, so the adsorption plate and the body part open and the body part shakes.

However, when the hard adhesive material is formed in the corner portion, the above-described shake is effective, and at the same time, the role of holding the corner portion during adsorption provides a better effect of increasing the adsorption force.

That is, since the adsorption plate is raised during the rotation of the rotating means, the hard adhesive material and the object (attachment surface) that secure the shaking due to the stress are more firmly fixed, thereby minimizing the shaking.

In addition, according to an additional aspect, as shown in Figure 2, the hook member 400 for hanging the object on the outer surface of the rotating means; is formed to be able to hang the object.

For example, a towel or tissue may be an object.

In addition, the body portion and the rotation means may be formed in a polygonal shape, such as a triangle, a square, a pentagon, a rhombus, to improve the problem that it is impossible to form in other designs other than the conventional circular design to add a beautifully designed sensory shape It becomes possible.

That is, in the prior art, an operating lever for turning the suction plate was absolutely necessary, and a cover was configured to protect the operating lever from the outside, and thus, it was impossible to deform other than the circular design.

Through the configuration and operation as described above to form a fixed space portion on the lower side of the inclined protrusion formed on the rotating means is inserted into the fixed space in the assembly firmly fixed and easy to assemble, the conventional body is turned to the body portion floats the suction plate and It solves the problem of the body part spreading, and at the same time provides a beautiful appearance in design.

Those skilled in the art to which the present invention pertains as described above may understand that the present invention may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not restrictive.

The scope of the invention is indicated by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the invention. do.

The present invention forms a fixed space portion on the lower side of the inclined protrusion formed on the rotating means is inserted into the fixed space when the assembly is firmly fixed and easy to assemble, the conventional body is turned to the body portion floats the adsorption plate and the body portion is open Solving, and at the same time to provide a beautiful appearance by design will be widely used in bathroom appliances, kitchen appliances, wall attachments.

Claims

In the dual structure vacuum suction plate,

Adsorption plate 110 is formed to be elastically deformable,

A support shaft 120 installed at an upper portion of the suction plate and having a hole for inserting a pin at an upper side thereof;

Adsorption means (100) comprising a pin (130) inserted into the hole of the support shaft;

A body portion 200 having a space in which the suction means is seated, a protrusion groove 210 formed on an outer surface thereof, and a protrusion 220 for inserting the pin;

A pin coupling hole 310 for inserting the pin,

An inclined protrusion 320 formed to be inclined to guide the pin inserted into the pin coupling hole into the fixed space part;

A fixed space portion 330 formed on the lower side of the inclined protrusion to seat the pin;

An inclined surface 340 formed in series with the fixed space to slide the pin in a vertical direction;

And a rotating means (300) having a stop (350) formed to be connected to the upper end of the inclined surface to stop the rising of the pins.
In the dual structure vacuum suction plate,

Adsorption plate 110 is formed to be elastically deformable,

A support shaft 120 installed at an upper portion of the suction plate and having a hole for inserting a pin at an upper side thereof;

Adsorption means (100) comprising a pin (130) inserted into the hole of the support shaft;

A body portion 200 having a space in which the suction means is seated, a protrusion groove 210 formed on an outer surface thereof, and a protrusion 220 for inserting the pin;

A pin coupling hole 310 for inserting the pin,

An inclined protrusion 320 formed to be inclined to guide the pin inserted into the pin coupling hole into the fixed space part;

A fixed space portion 330 formed on the lower side of the inclined protrusion to seat the pin;

An inclined surface 340 formed in series with the fixed space to slide the pin in a vertical direction;

Rotating means 300 is formed in series with the upper end of the inclined surface to form a stop 350 for stopping the rise of the pin;

A soft adhesive material 500 formed on the bottom surface of the suction plate;

And a rigid adhesive material (600) formed to prevent shaking during rotation of the rotating means at the corner of the body portion.
The method according to claim 1 or 2,

And a hook member (400) formed on an outer surface of the rotating means to hang the object.
The method according to claim 1 or 2,

The body portion and the rotation means,

Double structure vacuum suction plate, characterized in that the polygonal shape or circular.
The method according to claim 1 or 2,

The stop unit 350,

Dual structure vacuum suction plate, characterized in that the projection is formed higher than the height of the groove or slope.
The method according to claim 1 or 2,

The inclined protrusion 320,

The dual structure vacuum suction plate, characterized in that when the pin inserted into the pin coupling hole rotates to guide the fixed space to be seated in the fixed space to prevent the pin from being separated.
The method according to claim 1 or 2,

When turning the rotating means,

Dual structure vacuum adsorption plate, characterized in that the pin is seated in the fixed space portion 330 is moved to the upper direction on the inclined surface and the adsorption plate is adsorbed to the object as it comes up.