KR101215180B1 - Magnet lifting sliding window - Google Patents

Abstract

The present invention relates to a window that opens and closes in a sliding manner, and discloses a magnetic levitation sliding window that facilitates opening and closing by floating a glass frame against a base frame using a magnetic force.
The present invention is a base frame formed in the opening of the building; A glass frame slidably coupled to the inside of the base frame; A side permanent magnet provided on the base frame facing the side of the glass frame; A handle groove formed on a side of the glass frame facing the side permanent magnet; An operation piece provided to be withdrawn in the horizontal direction in the handle groove; And a handle permanent magnet provided on the working piece, wherein the operating piece is pressed in the same polarity as that of the side permanent magnet, and in the pulled state of the working piece, the handle permanent magnet facing the other side of the permanent magnet. To provide a magnetic levitation sliding window.

Description

Magnetically floating sliding window with handle using magnetic force {MAGNET LIFTING SLIDING WINDOW}

The present invention relates to a window that is opened and closed by a sliding method, by applying a magnetic force to the handle when opening the repulsive force acts to facilitate the opening, the magnetic force acting upon closing facilitates closing the sliding window It is about.

The general sliding window comprises a base frame formed in the opening of the building, and a glass frame slidably formed in the base frame,

The base frame is provided with a rail, the glass frame is provided with a roller, and the glass frame is configured to be slidably movable in the rolling manner of the roller.

However, this method has a problem in that the roller is easily worn or damaged by the weight of the window and the sliding drive is difficult.

In addition, the sliding window has a characteristic that requires a lot of force in the initial opening due to the inertia.

An object of the present invention is to provide a magnetic levitation sliding window having a handle using a magnetic force that can push the glass frame in the initial opening using the magnetic force of the permanent magnet.

Another object of the present invention is to provide a magnetic levitation sliding window that is easy to open and close by reducing the noise caused by friction by floating the glass frame against the base frame using the magnetic force of the permanent magnet.

The present invention for achieving this object is a base frame formed in the opening of the building; A glass frame slidably coupled to the inside of the base frame; A side permanent magnet provided on one side of the side of the glass frame and the base frame facing the glass frame; A handle groove formed on the side of the glass frame and the other side of the base frame facing the glass frame; An operation piece provided to be withdrawn in the horizontal direction in the handle groove; And a handle permanent magnet provided on the working piece, wherein the operating piece is pressed in the same polarity as that of the side permanent magnet, and in the pulled state of the working piece, the handle permanent magnet facing the other side of the permanent magnet. To provide a magnetic levitation sliding window.

It may further include an elastic member for providing an elastic force so that the operating piece is drawn out,

The side permanent magnet is preferably arranged so that the center line of which the polarity changes is placed in the horizontal direction, and vertical direction is possible depending on the structure.

And, the base bottom permanent magnet formed on the bottom surface of the base frame; A glass bottom permanent magnet provided on the bottom surface of the glass frame and arranged to face the same polarity as the base bottom permanent magnet; A vertical plate fixing plate provided on the upper surface of the base frame; Up and down fixed plate permanent magnet arranged on the bottom surface of the up and down fixed plate; And a glass upper permanent magnet provided on an upper surface of the glass frame and arranged to face a different polarity from the fixed plate permanent magnet for vertical movement.

The upper surface of the glass frame is provided with an upper roller exposed to the upper end, the fixing plate for vertical movement may be provided with a guide groove for guiding the upper roller,

On the contrary, the upper and lower movable fixing plate may be provided with an upper roller exposed to the lower end, and a guide groove for guiding the upper roller may be provided on the upper surface of the glass frame.

At this time, the up and down fixed plate permanent magnet is preferably arranged on both sides of the guide groove.

When used as an insole, the bottom surface of the base frame has a U-shaped cross section with an upper opening, and the bottom surface of the glass frame preferably has a shape accommodated in the C-shaped cross section.

When used as an outsole, it is preferable that the bottom surface of the glass frame has a U-shaped cross section with an open bottom, and the bottom surface of the base frame has a protrusion accommodated in the opened c-shaped cross section.

In addition, in order to improve the feeling of operation, the base bottom permanent magnet may be arranged without space or spaced apart in the fully open position of the glass frame.

And, in order to facilitate the detachable attachment of the glass frame, it is preferable that the up and down fixed plate for movement is formed to be able to move up and down.

In order to achieve a slim appearance, the base frame is provided with a finishing rib protruding to the inner side or the outdoor side in the inner end, and the side of the base frame except for the closing rib is embedded in the building, or wrapped with the building finishing material It is preferable.

Magnetic levitation sliding window according to the present invention acts in the direction in which the magnetic force pushes the glass frame by pressing the handle, bringing the effect that can easily and simply open the glass frame with a small force.

In addition, the magnetic levitation sliding window according to the present invention does not expose the handle groove portion in normal, it also brings the effect of improving the appearance by exposing the handle groove portion only when used.

Maglev-type sliding window according to the present invention by using the magnetic force of the permanent magnet to reduce the friction between the glass frame and the base frame brings the effect that the drive becomes easy. In addition, the friction is reduced, noise can be reduced and durability can be improved.

In addition, the magnetic levitation sliding window according to the present invention brings the effect of reducing the burden on the weight of the window by minimizing the portion directly rubbed.

In addition, the magnetic levitation sliding window according to the present invention brings the aesthetic effect of making the frame appearance thin and simple by allowing the base frame to be embedded in the building.

1 is a conceptual diagram for explaining the configuration of the magnetic levitation sliding window according to the present invention,
2 is an external perspective view of a magnetically levitated sliding window having a handle using a magnetic force according to the present invention;
3 is a cross-sectional view showing the operation structure of the handle using a magnetic force according to the present invention,
4 is a configuration diagram for explaining the structure of the magnetic levitation sliding window according to the present invention,
Figure 5 is an enlarged perspective view showing the upper surface structure of the glass frame according to an embodiment of the present invention,
6 and 7 are views for explaining the removable structure of the glass frame according to an embodiment of the present invention,
8 and 9 is a view showing a removable structure of the glass frame according to another embodiment of the present invention,
10 is a view showing a bottom coupling structure of the glass frame and the base frame according to an embodiment of the present invention,
11 is a view showing a bottom coupling structure of the glass frame and the base frame according to another embodiment of the present invention.

Hereinafter, a magnetic levitation sliding window having a handle using a magnetic force according to the present invention will be described with reference to the accompanying drawings.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various forms, only the embodiments of the present invention make the disclosure of the present invention complete, and those of ordinary skill in the art to which the present invention belongs. It is provided to fully inform the scope of the invention, and the invention is defined only by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In addition, the size of the components constituting the invention in the drawings are exaggerated for clarity of the specification, and if any component is described as "existing inside or connected to the other components", A component may be installed in contact with the other component, may be installed at a predetermined distance, and when installed at a distance, a third for fixing or connecting the component to the other component The description of the means of may be omitted.

1 is a conceptual view for explaining the configuration of the magnetic levitation sliding window according to the present invention.

The present invention provides a magnetic levitated sliding window that floats the window using the magnetic force of the permanent magnet.

The window and door includes a base frame 100 formed in the opening of the building, and a glass frame 200 coupled to the base frame 100 so as to be openable and closed.

The glass frame 200 is provided with a window (window glass).

The glass frame 200 moves in a sliding manner with respect to the base frame 100.

The present invention provides a magnetic force so that the glass frame 200 can maintain the injured state (floating state) with respect to the base frame 100 for the smooth sliding operation of the glass frame 200.

As shown, the permanent magnet is disposed on the bottom of the glass frame 200 and the bottom of the base frame 100, the same polarity is disposed to face each other. Although the illustrated embodiment shows that the N poles face each other, the S poles may be disposed to face each other.

When the permanent magnets face the same polarity, the repulsive force that pushes each other acts. Therefore, the bottom of the glass frame 200 is pushed up against the bottom of the base frame 100.

In addition, a permanent magnet is provided between the upper surface of the glass frame 200 and the upper portion of the base frame 100. In this case, the polarities of the glass frames 200 are arranged to face each other so that the upper portion of the glass frame 200 is pulled up to the upper side of the base frame 100. In addition, since the principle of attraction between the different poles, it is possible to replace the material capable of attraction, such as metal or rubber magnets.

When the permanent magnets of different polarity face each other, the attraction force is applied to pull each other. Therefore, the upper surface of the glass frame 200 is drawn to the base frame 100 side.

As such, the lower portion of the glass frame 200 is pushed up by the magnetic force, and the upper portion of the glass frame 200 is lifted by the magnetic force, thereby maintaining the glass frame 200 being lifted from the base frame 100. It becomes possible.

When the glass frame 200 is floated by using a magnetic force, the glass frame 200 and the base frame 100 do not directly rub, so the sliding operation of the glass frame 200 is smoothly driven, and noise generated during friction Can be significantly reduced.

Figure 2 is an external perspective view of a magnetic levitation sliding window having a handle using a magnetic force according to the present invention, Figure 3 is a cross-sectional view showing the operation structure of the handle using a magnetic force according to the present invention.

As shown in FIG. 2, the glass frame 200 is coupled to be slidable inside the base frame 100, and a handle 300 is provided at one side of the glass frame 200.

The handle 300 includes a handle groove 310 which provides a gripping groove, and an operation piece 320 which is provided in a horizontal direction in the handle groove 310.

In appearance, only the handle groove 310 and the operation piece 320 are exposed, but the side permanent magnet and the handle permanent magnet are provided therein, so that the attraction force or repulsive force acts according to the polarity thereof.

The left side of FIG. 3 illustrates a state in which the glass frame 200 is closed, and the right side of FIG. 3 illustrates a state in which the glass frame 200 is opened by pushing the operation piece 320.

Side permanent magnet 180 is provided in the base frame 100, it is arranged so that the center line 182 of the polarity is placed in a vertical direction (where the vertical direction means a vertical direction with respect to the bottom surface). desirable. When the center line 182 having the polarity is changed in the vertical direction, the polarity facing the horizontal movement of the handle permanent magnet 330 may be changed.

With water, the handle permanent magnet 330 can be formed to move in the vertical direction as the operating piece 320 is pressed, in which case the center line 182 of the side permanent magnet 180 is placed in a horizontal direction with respect to the floor surface. Should be arranged to

Looking at the left side of Figure 3, the permanent magnet 330 facing the side permanent magnet 180 has a polarity of the N pole (or S pole), in the closed state the handle permanent magnet 330 is a side permanent magnet ( The S pole (or N pole) of the 180 is faced, and the attraction force is generated between the handle permanent magnet 330 and the side permanent magnet 180. That is, the magnetic force acts to bring the glass frame 200 into close contact with the base frame 100.

In order to open the glass frame 200, the operation piece 320 exposed by the handle groove 310 may be pressed.

As shown in the right side of FIG. 3, when the operating piece 320 is pressed, the operating piece 320 moves in the horizontal direction, so that the north pole of the handle permanent magnet 330 is the south pole of the side permanent magnet 180. Faced with. Therefore, a repulsive force is generated between them, and the glass frame 200 moves to the right due to the repulsive force.

Since the glass frame 200 according to the present invention maintains an injured state in which the glass frame 200 does not directly rub against the base frame 100 by magnetic force, the glass frame 200 may be sufficiently moved by the magnetic force alone.

In addition, when the operating piece 320 is pressed, the handle groove 310 generates a space that can be held by hand, so that the user can easily move the glass frame 200 by inserting a finger into the space. .

On the contrary, when the glass frame 200 is closed, when the glass frame 200 is brought into close contact with the base frame 100, the operation piece 320 returns to its original position by the magnetic force of the side permanent magnet 180 and the glass frame ( The attraction force is generated between the 200 and the base frame 100.

The operating piece 320 may maintain the same state as the left side of FIG. 3 by the magnetic force, but may include an elastic member 340 that provides an elastic force in a direction in which the operating piece 320 is pushed out. The elastic member 340 may be a material such as a spring, sponge, or the like.

The elastic member 340 provides an elastic force so that the operation piece 320 maintains a state in which the operating piece 320 is drawn out of the handle groove 310 (a state of maintaining the same surface as the surface of the handle groove).

In the illustrated embodiment, the side permanent magnet 180 is provided on the base frame 100 and the handle 300 is provided on the glass frame, but the handle 300 is formed on the base frame 100. In addition, the glass frame 200 may include a side permanent magnet 180. In this case, since the operation structure is the same, duplicate description is omitted.

Figure 4 is a block diagram for explaining the structure of the magnetic levitation sliding window according to the present invention.

As shown, the magnetic levitation sliding window according to the present invention is the base frame 100 formed in the opening of the building, the glass frame 200 is slidably coupled to the inside of the base frame 100, and A base bottom permanent magnet 110 formed on the bottom surface of the base frame 100 and a glass bottom permanent magnet 210 provided on the bottom surface of the glass frame and arranged to face the same polarity as the base bottom permanent magnet 110. ), A vertical movement fixing plate 150 provided on the upper surface of the base frame, a vertical movement fixing plate permanent magnet 160 arranged on a bottom surface of the vertical movement fixing plate 150, and an upper surface of the glass frame 200. It is provided with and the glass upper permanent magnet 260 is arranged to face the polarity different from the fixed plate permanent magnet 160 for vertical movement.

The figure shows a state in which the glass frame 200 is closed, and is opened when the glass frame 200 moves to the right.

The base bottom permanent magnet 110 may be uniformly arranged to generate a uniform magnetic force in the entire section, and in order to increase or decrease the feeling of use, the base bottom permanent magnet 110 in an area corresponding to the open position of the glass frame 200. May be arranged at intervals. When there is a gap between the base bottom permanent magnets 110, the glass frame 200 moves smoothly, and when it passes through the gap, a feeling occurs, and a brake effect may occur.

Up and down fixing plate 150 provided on the upper surface of the base frame 100 is preferably provided to be able to move up and down in a predetermined range. This is to allow the glass frame 200 to be separated smoothly, which will be described later with reference to FIGS. 4 and 5.

As shown, the glass frame 200 and the base frame 100 is disposed in the permanent magnets facing each other, the bottom of the glass frame 200 is pushed up by the repulsive force of the permanent magnet, the glass frame ( The upper portion of the 200 is to be lifted by the attraction force of the permanent magnet, so that the glass frame 200 can be slidably moved along the departure preventing rail in a suspended state without directly rubbing against the base frame 100.

5 is an enlarged perspective view illustrating a top surface structure of a glass frame according to an embodiment of the present invention.

As shown, a plurality of upper rollers 270 is provided in a line at the center of the upper surface of the glass frame 200, the glass upper permanent magnet 260 is arranged on both sides of the upper roller 270.

The upper roller 270 moves along the guide groove 170 formed on the fixed plate 150 for vertical movement. The upper roller 270 has an effect of maintaining a gap so that the glass upper permanent magnet 260 provided in the glass frame 200 and the fixed plate permanent magnet 160 for vertical movement provided in the vertical fixing plate 150 are not attached to each other. Bring.

In the illustrated embodiment, the roller 270 is provided on the upper surface of the glass frame 200, the guide groove 170 is formed on the fixed plate 150 for vertical movement, the role of the roller 270 is the glass frame 200 Since the gap is maintained between the up and down fixed plate 150, the roller 270 may be provided on the up and down fixed plate 150, and the guide groove 170 may be provided on the upper surface of the glass frame 200. .

6 and 7 are views for explaining the detachable structure of the glass frame according to an embodiment of the present invention.

As shown, the fixing plate 150 for vertical movement is coupled to the upper end of the base frame 100 and formed to be able to move up and down in a certain range. In the state that the external force of the vertical movement fixing plate 150 is not applied, it maintains the lowered state by its own weight.

The vertical movement fixing plate 150 may be further provided with a spring to maintain the lowered state. The spring limits the movement of the fixed plate 150 for vertical movement and serves to give a load downward.

In addition, since the attraction force acts between the up and down fixed plate permanent magnet 160 and the upper glass permanent magnet 260 provided in the up and down fixed plate 150 in the state that the glass frame 200 is coupled, the fixed plate for vertical movement ( 150 is forced in a downward direction.

In order to separate the glass frame 200 from the base frame 100, first lift the glass frame 200 upward. Then, as shown in FIG. 4, the fixing plate 150 for vertical movement is pushed up. At this time, since the distance between the glass frame 200 and the vertical movement fixing plate 150 is maintained by the roller 270 described above with reference to FIG. 3, the fixed plate permanent magnet 160 and the upper glass permanent magnet 260 for vertical movement are mutually different. It is not attached.

When the glass frame 200 is lifted upward in this way, the lower end of the glass frame 200 rises from the bottom surface of the base frame 100, so as shown in FIG. 5, the lower end of the glass frame 200 is pulled out. The base frame 100 can be pulled out.

The method of fitting the glass frame 200 is similar. First, match the upper surface of the glass frame 200 with the fixing plate 150 for vertical movement and then push it up so that the upper part of the glass frame 200 is coupled to the base frame 100, and then push the lower part of the glass frame 200. Put the lower part of the glass frame 200 to the base frame 100.

8 and 9 illustrate a detachable structure of the glass frame according to another embodiment of the present invention.

Referring to FIG. 8, the up and down moving fixing plate 150 may be rotatably connected to the base frame 100 by the hinge shaft 152. At this time, it is preferable that the upper and lower fixing plate 150 further includes an elastic member (not shown) that provides an elastic force to maintain a parallel state with the upper surface of the glass frame 200.

In the previous embodiment, the up and down movement fixing plate 150 had a structure of lifting up and down, but in this embodiment, the up and down movement fixing plate 150 is connected to the base frame 100 by the hinge shaft 152 and can be folded to one side. Provide structure.

When the external force does not act by the above-mentioned elastic member, the up and down fixing plate 150 is maintained in a state parallel to the upper surface of the glass frame 200, this state is the upper and lower movable fixing plate of the glass frame 200 It is also maintained by the magnetic force acting between the 150.

That is, normally, as shown in the left side of FIG. 8 is maintained, the glass frame 200 is slid and moved on the base frame 100, and when removing the glass frame 200 to lift the glass frame 200 When raised, when the fixing plate 150 for vertical movement is folded to one side, the glass frame 200 can move upwards, so that the glass frame 200 can be separated from the base frame 100.

The embodiment of Figure 9 is to be formed by splitting the two fixed plate 150 for vertical movement to be folded to both sides, the operation principle is the same as the embodiment of FIG.

10 shows the bottom coupling structure of the glass frame and the base frame according to an embodiment of the present invention.

The illustrated embodiment is a structure suitable for an insole connecting the interior and the interior.

In the case of the insole, it is preferable that the bottom of the base frame 100 has a simple structure for convenience of cleaning. In the conventional case, a roller is provided at the bottom of the glass frame at the bottom, and a rail for guiding the roller should be formed at the bottom of the base frame, which causes inconvenience of cleaning.

On the contrary, the present invention is configured such that the bottom surface of the base frame 100 has a c-shape opened upward to perform only a function of preventing the left and right separation of the glass frame 200. Therefore, the beautiful appearance and the convenience of cleaning can be achieved.

In addition, the base frame 100 according to the present invention is characterized in that it comprises a finishing rib 102 to minimize the external exposure of the base frame 100 to achieve a slim appearance.

The finishing ribs 102 are formed to protrude from the inner end of the base frame 100 toward the indoor side or the outdoor side. Only the protruding finishing ribs 102 are exposed to the outside and other parts of the base frame 100 are closed. It is to be hidden by (50). Reference numeral 20 that is not described indicates a frame of the building.

Alternatively, the base frame 100 except for the finishing ribs 102 may be embedded in the building.

11 shows a bottom coupling structure of the glass frame and the base frame according to another embodiment of the present invention.

While the previous embodiment is a structure suitable for insoles, this embodiment is a structure suitable for outsoles. Outsole is a window that distinguishes the outdoor side from the indoor side. The outsole should have a structure that does not penetrate rain in the rain.

To this end, the present invention is to form a bottom surface of the glass frame as a U-shaped cross section of the lower opening, the bottom surface of the base frame 100 to have a protrusion shape accommodated in the open c-shaped. In addition, the inclined to the outer surface may be further provided with a groove that can escape the water when water enters.

That is, by forming a protrusion on the bottom surface of the base frame 100 is formed so that rain water can be blocked by the protrusion.

As described above, the magnetic levitation sliding window according to the present invention is a magnetic levitation sliding window that is easy to open and excellent sealing property by allowing the repulsion or attraction force to act between the glass frame and the base frame by the operation of the push handle. to provide.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments but may be manufactured in various forms, and having ordinary skill in the art to which the present invention pertains. It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

100: base frame 102: finishing rib
110: permanent magnet base bottom 150: fixed plate for vertical movement
160: fixed plate permanent magnet for vertical movement 170: guide groove
180: side permanent magnet 182: center line
200: glass frame
210: glass bottom permanent magnet
260: permanent magnet on the glass
270: roller 300: handle
310: handle groove 320: operation piece
330: handle permanent magnet

Claims (16)

A base frame formed in the opening of the building;
A glass frame slidably coupled to the inside of the base frame;
A side permanent magnet provided on one side of the side of the glass frame and the base frame facing the glass frame;
A handle groove formed on the side of the glass frame and the other side of the base frame facing the glass frame;
An operation piece provided to be withdrawn in the horizontal direction in the handle groove; And
It is provided in the operating piece, the operating piece is in the pressed state facing the same polarity with the side permanent magnet, the pulled permanent magnet facing the other side of the permanent magnet in the pulled out state; Maglev sliding windows.
The method of claim 1,
The magnetic levitation sliding window, characterized in that it further comprises an elastic member for providing an elastic force so that the operating piece is drawn out.
The method of claim 1,
The side permanent magnet is a magnetic levitation sliding window, characterized in that arranged in such a way that the center line of the polarity is changed in the horizontal or vertical direction.
The method of claim 1,
A base bottom permanent magnet formed on the bottom surface of the base frame;
A glass bottom permanent magnet provided on the bottom surface of the glass frame and arranged to face the same polarity as the base bottom permanent magnet;
A vertical plate fixing plate provided on the upper surface of the base frame;
Up and down fixed plate permanent magnet arranged on the bottom surface of the up and down fixed plate; And
And a glass upper permanent magnet provided on an upper surface of the glass frame and arranged to face a different polarity from the fixed plate permanent magnet for vertical movement.
The method of claim 4, wherein
The upper surface of the glass frame is provided with an upper roller exposed to the top,
Maglev sliding window door characterized in that the up and down moving fixed plate is provided with a guide groove for guiding the upper roller.
The method of claim 4, wherein
The upper and lower movable fixing plate is provided with an upper roller exposed to the lower end,
Maglev-type sliding window, characterized in that the upper surface of the glass frame is provided with a guide groove for guiding the upper roller.
The method according to claim 5 or 6,
The fixed plate permanent magnet for vertical movement
Maglev-type sliding window, characterized in that arranged on both sides of the guide groove.
The method of claim 4, wherein
The bottom surface of the base frame has a U-shaped cross section, the top of which is opened,
The bottom surface of the glass frame is a magnetic levitation sliding window characterized in that it has a shape that is accommodated in the cross-section of the U-shape.
The method of claim 4, wherein
The bottom surface of the glass frame has a U-shaped cross section, the bottom of which is opened,
The bottom surface of the base frame is a magnetic levitation sliding window, characterized in that it has a projection which is accommodated in the opening cross-section of the U-shape.
The method of claim 4, wherein
The base bottom permanent magnet is a magnetic levitation sliding window, characterized in that arranged at intervals in the open position of the glass frame.
The method of claim 4, wherein
The vertically movable fixing plate is connected to the hinge axis is characterized in that the magnetic levitation sliding window, characterized in that rotatably formed in the upward direction.
The method of claim 11,
Maglev sliding window is characterized in that it further comprises an elastic member for providing an elastic force to maintain the horizontal plate for the vertical movement.
The method of claim 11,
The vertically movable fixing plate is a magnetic levitation sliding window, characterized in that divided into a plurality.
The method of claim 4, wherein
The vertically movable fixing plate is a magnetic levitation sliding window, characterized in that formed to be able to move up and down.
The method of claim 4, wherein
The base frame is a magnetic levitation sliding window, characterized in that the inner end is provided with a finishing rib protruding toward the indoor or outdoor side.
The method of claim 15,
The side surface of the base frame, except for the finishing ribs are buried in the building, the magnetic levitation sliding window, characterized in that wrapped with the building finishing material.

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