KR101040431B1 - Fittings without step using magnetic force - Google Patents

Abstract

PURPOSE: A window without step height using magnetic force is provided to clean up impurities falling down on the bottom of a window frame through a flat window frame more simply using a permanent magnet. CONSTITUTION: A window without step height using magnetic force comprise a door portion(100) formed to be movable from side to side, a frame of a door portion(200) formed around the outer circumference of the door portion to function as a frame of a door portion, and a permanent magnet formed on the inside of a lower frame of a door portion(140) of the door portion.

Description

Window without a step using magnetic force {FITTINGS WITHOUT STEP USING MAGNETIC FORCE}

The present invention relates to windows and doors using magnetic force, and more particularly, to windows and windows that do not have a step using magnetic force to make cleaning easier by forming the bottom of the window frame flat.

Conventional windows and doors are composed of a door portion that moves from side to side and a door frame serving as an outer frame so that the door portion is located inside. The conventional windows and doors are designed in the form of a rail having a step (bending) so that the door part located inside can move left and right in a sliding manner.

However, such a rail type has a problem that it is very inconvenient to clean when the foreign matter such as dust falls inside the rail because of the depth. In addition, there is a problem that can be cleaned only through a separate cleaning tool in order to remove the foreign matter settled inside the rail.

Accordingly, windows and doors have been developed to solve the problems occurring in the conventional rail type.

For example, "Sliding door without door fat" is disclosed in Republic of Korea Registered Utility Publication No. 20-0219403 (registered on January 29, 2001).

This is a technology for sliding doors that do not have easy door opening and closing as well as a door area can enlarge the space of the living room, doors that do not have a door area to facilitate cleaning and after-sales service.

In addition, Korean Unexamined Patent Publication No. 10-2007-0003482 (published Jan. 5, 2007) discloses a sliding door without a step using magnetic force.

This is to solve the problem that the effect of the decoration applied to the sliding door is halved by the presence of a step between the door and the door in the state of closing the door in the conventional sliding door, the two adjacent doors when the sliding door is closed It is a technology for stepless sliding doors using magnetic force that is located on the same plane as a date and no step is formed between the door and the door.

The above-mentioned prior arts are related to sliding doors, and there is an advantage of improving aesthetics in terms of ease of cleaning and design of sliding doors by removing a conventional rail structure formed at a door threshold or a door frame. However, these prior arts have a problem that the structure adopted to remove the step of the rail is too complicated. In addition, such a problem occurs that the cost side according to the manufacturing rises, and furthermore, there occurs a problem that the work efficiency is lowered according to the installation.

Accordingly, there is a demand for the development of windows and doors having simple structures that can replace the conventional rail structures.

Therefore, the first object of the present invention does not have a step using a magnetic force to more easily clean the foreign matter falling on the bottom of the window frame through a flat window frame using a permanent magnet instead of the slide-type rail structure formed in the conventional window frame. To provide a window.

The second object of the present invention does not have a step using a magnetic force to more easily clean the foreign substances that fall on the bottom surface of the window frame through a flat window frame using a permanent magnet and an electromagnet instead of the slide-type rail structure formed in the conventional window frame To provide a window.

In order to achieve the first object of the present invention described above, an embodiment of a window and door having no step using the magnetic force of the present invention comprises a door portion movable left and right including a permanent magnet therein; And a door frame including a permanent magnet formed inside the door part circumferential surface such that the door part is located therein, wherein the permanent magnet formed in the door part is matched with a permanent magnet formed in the door part frame. It is formed in an upper position, the door having no step using the magnetic force, characterized in that the permanent portion of the door portion and the permanent magnet of the door portion is formed in a plane that does not have a step between the door portion and the door frame surface to provide.

In order to achieve the above-described second object of the present invention, one embodiment of a window having no step using the magnetic force of the present invention is an upper door frame, a left door frame, a right door frame, and a lower door A door part formed of a frame and movable left and right with a permanent magnet formed in the left door part frame, a right door part frame, and a lower door part frame; And an upper door boot frame frame, a left door boot frame frame, a right door boot frame frame, and a lower door boot frame frame formed on a circumferential surface of the door part so that the door part is located therein, and the left door boot frame frame and the right door boot frame. A frame and a door frame having electromagnets formed therein; A power supply unit connected to the electromagnets formed in the left door boot frame, the right door boot frame, and the lower door boot frame to supply power; And a controller for controlling the power provided to the electromagnet through the power supply unit, wherein the upper side of the lower side of the door frame frame is formed in a plane having no step, thereby providing a window having no step using magnetic force. .

According to the present invention, the bottom surface on which foreign matter such as dust falls is flat and can be easily cleaned compared to the conventional rail type.

In addition, it can be applied to windows that allow the outside to be seen from the inside, and can be applied to sliding doors that allow people to pass through the inside and the outside, and thus has an advantage of high utilization range.

In addition, by using an electromagnet, it is easy to use because it can control the opening and closing of windows using a separate switch or a remote control.

1 is a perspective view for explaining a window having no step using a magnetic force according to an embodiment of the present invention.
FIG. 2 is a schematic cross-sectional view for describing part A of FIG. 1.
FIG. 3 is a schematic cross-sectional view for describing part B of FIG. 1.
4 is a schematic cross-sectional view for describing the portion C of FIG. 1.
Figure 5 is an exemplary view showing a change in the attraction force according to the movement of the door portion of the window having no step using a magnetic force according to an embodiment of the present invention.
FIG. 6 is a schematic cross-sectional view for describing a portion D of FIG. 1.
FIG. 7 is a schematic cross-sectional view for describing a portion E of FIG. 1.

Hereinafter, with reference to the drawings will be described in detail windows and windows having no step using a magnetic force according to an embodiment of the present invention.

1 is a perspective view for explaining a window having no step using a magnetic force according to an embodiment of the present invention.

Referring to Figure 1, the window having no step using a magnetic force according to an embodiment of the present invention includes a door portion 100 that can move from side to side, and the door to act as a frame of the door portion 100 The door 100 includes a door frame 200 formed around an outer circumferential surface thereof.

In more detail, the door part 100 includes an upper door part frame 110, a left door part frame 120, a right door part frame 130, and a lower door part frame 140. The door unit 100 may be manufactured in one piece, or may be manufactured by assembling the upper, left, right, and lower side door part frames 110, 120, 130, and 140, respectively. In addition, the door part 100 includes glass (not shown) therein.

The door frame 200 includes an upper side door frame frame 210, a left side door frame frame 220, a right side door frame frame 230, and a lower side door frame frame 240. In addition, it may be manufactured integrally, such as the production of the door unit 100, or may be manufactured by assembling each of the door frame frame.

Hereinafter, each component will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic cross-sectional view for describing part A of FIG. 1.

In more detail, FIG. 2 is a schematic cross-sectional view for describing a permanent magnet formed in portion A of FIG. 1.

1 and 2, the window having no step using the magnetic force of the present invention includes a permanent magnet 145 formed in the lower door portion frame 140 of the door portion 100. In more detail, the permanent magnet 145 is located inside the lower side door part frame 140, but preferably positioned near the inner bottom part. The reason is to maximize the attraction and repulsive force with the permanent magnet formed inside the door frame of the lower side of the door frame 200 to be described later.

More specifically, the permanent magnet 145 is located in the lower side door portion frame 140, the arrangement is located in the three-row arrangement structure in the longitudinal direction of the lower side door frame frame 140 Do.

Furthermore, in the case of the three-column array structure, the middle array structure preferably includes an array of a plurality of permanent magnets 142 spaced apart from each other. The array structure formed on the left and right sides with respect to the center array structure is preferably formed of an array of permanent magnets 141 and 143 continuous in the longitudinal direction.

FIG. 3 is a schematic cross-sectional view for describing part B of FIG. 1.

In more detail, FIG. 3 is a schematic cross-sectional view for describing a permanent magnet formed in part B of FIG. 1.

1 and 3, the window does not have a step using the magnetic force of the present invention is a permanent magnet 245 formed inside the lower door boot frame frame 240 of the door boot 200 is the lower door boot Located inside the frame 240, it is preferable to be located close to the inner upper end. The reason is to maximize the attraction and repulsive force with the permanent magnet formed in the lower door portion frame 140 of the door portion 100.

More specifically, the permanent magnet 245 is preferably arranged in the same manner as the arrangement of the permanent magnet 145 located inside the lower door frame 140.

As described above, the permanent magnets 145 and 245 are arranged in a three-row array in the lower door part frame 140 of the door part 100 and the lower door part frame 240 of the door part 200, respectively. The three-row arrangement structure formed inside the lower side door frame frame 240 may be arranged to correspond to the three-row arrangement structure formed inside the lower side door frame frame 140 of the door part 100.

And the three-row arrangement structure formed in the lower side of the door frame frame 240 of the door frame 200 corresponds to the number of the door portion 100 is determined the number. In more detail, when the door part 100 is two, the door part 100 will each include two lower side door part frames, and respectively correspond to the two lower side door part frames. Inside the lower side door frame frame 240 of the 200 is to include a three-row array structure consisting of a double.

4 is a schematic cross-sectional view for describing the portion C of FIG. 1.

Referring to Figure 4, the window does not have a step using the magnetic force of the present invention is a permanent magnet of the three-row array structure formed inside the lower side door frame frame 240 of the door frame 200 and the lower side door frame frame ( 240, the permanent magnets of the three-row arrangement structure formed in the lower side door portion frame 140 of the door portion 100 located on the upper portion is preferably formed to match the position. That is, the permanent magnet array inside the lower door frame frame 240 and the permanent magnet array inside the lower door frame frame 140 may be positioned on the same vertical line.

In addition, the permanent magnets (141, 143) formed in the left and right in the longitudinal direction in the lower side door frame frame 140 of the door part 100 and the lower side of the door frame frame 240 of the door frame 200, respectively Between the permanent magnets (241, 243) formed in succession to the left and right in the longitudinal direction to each other, the repulsive force acts as a pushing force. In a state in which the lower side door frame frame 140 of the door part 100 is supported by the repulsive force without a portion rubbing from an upper surface of the lower side door frame frame 240 of the door frame 200. Will be located.

In order to stably support the lower side door frame frame 140 of the door unit 100 from the upper side of the lower side door frame frame 240 of the door frame 200, the lower side door frame frame 240 is It is preferable to apply the inclination to the permanent magnets 241 and 243 positioned in the repulsive force and the permanent magnets 141 and 143 positioned in the lower door frame 140 and acting in the repulsive force.

More specifically, among the permanent magnets formed in the lower door part frame 140 of the door part 100, the permanent magnets 141 and 143, which form a continuous structure on the left and right sides, are spaced apart from each other. The inclined surface is oriented in the arrangement direction, but the inclination of the inclined surface preferably has 1 ° to 10 °. Permanent magnets 241 and 243 formed in the lower side of the door frame frame 240 of the door frame 200, it is also preferably located with a slope of 1 ° to 10 ° in the same manner. If the inclined surface exceeds 10 °, the door part 100 may be inclined too much and may not be easily moved left and right.

In addition, the plurality of permanent magnets 142 and spaced apart from each other in the lower side door frame frame 140 of the door unit 100 and the lower side of the door frame frame 240 of the door frame 200 spaced from each other There is a plurality of permanent magnets 242 formed between the attraction force to each other acts. The lower door door frame 140 of the door part 100 positioned in a state of being lifted from the lower door boot frame 240 of the door boot 200 by the attraction force is pulled out.

In this case, the repulsive force and the force of the attraction force do not cancel each other, and the lower side door part frame 140 continuously maintains the support (부) state. The reason is that the area of the permanent magnet to which the attraction force is applied is smaller than that of the permanent magnet to which the repulsive force is applied. The reason for using the attraction is to move the left and right of the door unit 100 more easily. The left and right movement of the door part 100 will be described later.

Window having no step using the magnetic force of the present invention has a repulsive force and attraction between the lower side door frame frame 140 of the door unit 100 and the lower side door frame frame 240 of the door frame 200 as described above Design to work. In addition, a conventional rail structure may be used as the space between the upper door frame 110 of the door part 100 and the upper door frame of the door frame 200, or the door part 100 may have a conventional rail structure. Like the design structure between the lower side door frame 140 and the lower side door frame 240 of the door frame 200, the repulsive force and the attraction force may be designed.

By lowering the door frame frame 140 of the door portion 100 from the lower side of the door frame frame 240 of the door frame 200 using the repulsive force and the attraction force of the magnetic properties as described above, the lower The upper side of the side door frame frame 240 is formed in a plane that does not require a separate rail structure as in the prior art. This planar structure can solve the problems caused during cleaning, which is a problem from the conventional rail structure.

Looking at the flow of moving the door portion 100 of the window and doors that do not have a step using the magnetic force of the present invention configured as described above to the left and right as follows.

First, by using external force in a state in which the lower side door frame frame 140 of the door portion 100 is supported from the upper side of the lower side door frame frame 240 of the door frame 200 using repulsive force and attraction force. By moving the door part 100 located inside the door frame 200, the door part 100 can be moved left and right, and when only the repulsive force acts, a lot of force is required from the outside. This requires less force from the outside. In addition to this, in order to reduce the force from the outside to the minimum, the present invention allows the arrangement of the permanent magnets to which the attraction force is applied differently.

In more detail, after the door part 100 is positioned inside (inside) the door frame 200, a plurality of permanent magnets spaced apart from each other while maintaining the closed state, that is, the lower side of the door part 100. The permanent magnet 142 located inside the door frame frame 140 and the permanent magnet 242 located inside the door frame frame 240 on the lower side of the door frame 200 are arranged to be positioned on the same vertical line with each other. The permanent magnet 142 of the lower side door frame frame 140 and the permanent magnet 242 of the lower side door frame frame 240 are preferably arranged so as to be staggered from each other. Accordingly, when the door part 100 is moved to the left or the right by an external force, the attraction force and the repulsive force alternately act in the diagonal direction of the moving direction, thereby reducing the door part 100 with less external force. You can move it left or right.

The change in attraction due to the movement of the door unit 100 can be confirmed through FIG. 5, which is an exemplary view showing the change in attraction due to the movement of the door unit. In other words, the change in the attraction force, the door unit 100 As the left side moves to the left, the permanent magnets staggered from each other are spaced apart from each other to generate an attraction force with another permanent magnet located on the side, thereby minimizing the force from the outside.

FIG. 6 is a schematic cross-sectional view for describing a portion D of FIG. 1.

In more detail, FIG. 6 is a cross-sectional view viewed from above after cutting the portion D of FIG. 1 horizontally.

Referring to Figure 6, the window does not have a step using the magnetic force according to an embodiment of the present invention is a block 131 for blocking the flow of air in the left or right door frame 130 of the door portion 100 ) May be further included, or the blocking unit 131 may be further included in both the left and right door frame frames 120 and 130. In the present invention, the blocking part 131 formed on the right door part frame 130 will be described as an example.

In addition, the blocking unit 131 is preferably made of a material that can be buffered, for example, in the present invention, the rubber is adopted. In addition, the blocking unit 131 includes a first magnetic body 132 therein. To this end, the right door frame frame 130 is preferably formed in the groove structure vertically so that the blocking portion 131 is inserted.

In addition, the window of the present invention corresponds to a position corresponding to the blocking unit 131, that is, to the first magnetic body 132 of the blocking unit 131 in the right door frame frame 230 of the door frame 200. The second magnetic body 231 is included in the position. To this end, the right door frame frame 230 preferably has a recess structure vertically formed like the right door frame frame 130 so that the second magnetic material 231 is located therein.

Thus, the window of the present invention uses the first magnetic body 132 of the blocking unit 131 and the second magnetic body 231 of the right door boot frame 230, thereby making the side rail structure used in the conventional windows and doors. By removing the structure of the right door frame frame 130 and the right door frame frame 230 can be designed in a plane. As a result, the structure of the windows and doors can be easily designed. However, the door unit 100 may be fixed to the door frame 200 by using the first and second magnetic bodies 132 and 231, respectively, but the locking device may not function as a conventional locking device. Accordingly, the window of the present invention preferably uses a conventional locking device for the locking function.

As described above, the blocking part 131 of the right door part frame 130 is in contact with the right door boot frame 230 and at the same time the first magnetic material 132 and the right door boot frame of the blocking part 131 ( The contact between the second magnetic material 231 of the 230 through the attraction force is made, it is also possible to form a buffer unit 133 filled with air in the blocking unit 131 in order to cushion the shock generated at this time.

FIG. 7 is a schematic cross-sectional view for describing a portion E of FIG. 1.

Referring to FIG. 7, a window having no step using magnetic force according to another embodiment of the present invention has a 'U' shape open upward in the upper part of the upper door part frame 110 of the door part 100. It is preferable to further include the insertion portion 111 of. And it further comprises a permanent magnet 112 formed along the inner surface of the insertion portion 111.

In addition, the window of the present invention is recessed in the direction of the upper door frame frame 110 in the lower portion of the upper door frame frame 210 of the door frame 200 so as to conform to the shape of the upper door frame 110. 211 is formed, and further includes a permanent magnet 212, one side of which is inserted into the recess 211 and the other side of which is inserted into the center of the inserting portion 111 formed on the upper side door part frame 110.

And a window that does not have a step using the magnetic force according to an embodiment of the present invention may use only a permanent magnet as described above, or may replace the permanent magnet formed inside the door boot 200 with an electromagnet in another way. There will be. This will be described in detail below.

Window having no step using the magnetic force of the present invention includes a door portion 100 that can move from side to side. The door part 100 includes an upper door part frame 110, a left door part frame 120, a right door part frame 130, and a lower door part frame 140, and the left door part frame 140. It is preferable that the permanent magnet is formed in the 120, the right door part frame 130, and the lower door part frame 140.

And the window having no step using the magnetic force of the present invention includes a door boot 200. The door frame 200 has an upper side door frame frame 210, a left side door frame frame 220, a right side door frame frame formed on the circumferential surface of the door portion 100 so that the door portion 100 is located inside ( 230, and the lower side door frame frame 240, an electromagnet is formed inside the left side door frame frame 220, the right side door frame frame 230, and the lower side door frame frame 240.

Electromagnets formed in the left door frame frame 220 and the right door frame frame 230, respectively, are formed to match the position of the permanent magnets formed in the left door frame frame 120 and the right door frame frame 130, respectively. It is desirable to be.

In addition, the permanent magnets formed in the lower side door frame 140 are preferably spaced apart from each other and formed in a single row array structure, and the electromagnets formed in the lower side door frame frame 240 are spaced apart from each other. It is preferable to form in a single row arrangement structure consisting of a plurality.

In addition, the permanent magnets and the electromagnets formed in the one-row array structure, respectively, after the door part 100 is positioned inside (inside) the door frame 200, the staggered (shifted) arrangement structure of each other in a closed state It is preferred to be arranged as.

In the case of a window using a permanent magnet and an electromagnet, which is another embodiment of the present invention configured as described above, the components included by using an electromagnet are included. In more detail, a power supply circuit is connected to an electromagnet formed in the left door boot frame frame 220, the right door boot frame frame 230, and the lower door boot frame frame 240 of the door boot 200 to supply power. It includes a supply (not shown). And it includes a controller (not shown) for controlling the power provided to the electromagnet through the power supply.

The controller may include a switch or may include a remote controller.

As described above, in the state in which the permanent magnet is formed in the left door frame frame 120, the right door frame frame 130, and the lower door frame frame 140 of the door part 100, respectively, the door through the controller By controlling the electricity provided to the electromagnet formed in the left door boot frame frame 220, the right door boot frame frame 230, and the lower door boot frame frame 240 of the boot 200 to repeatedly change the polarity of the electromagnet The door unit 100 may be moved left and right.

More specifically, the polarity of the electromagnet formed inside the right door boot frame 230 is first changed through the controller. Thereafter, the door unit 100 is automatically moved from right to left by repeatedly changing polarities of a plurality of electromagnets spaced apart from each other formed in the lower door boot frame 240.

When the polarity change as described above is reversed, that is, by changing the polarity of the electromagnet formed inside the left door boot frame 220, the polarity of the electromagnet formed inside the lower door boot frame 240 is repeatedly changed. The door part 100 located inside the door boot 200 is automatically moved from left to right.

In addition, in the case of the window of the present invention using an electromagnet as described above, it is also possible to use a locking device formed in a conventional window or the inside of the left door frame frame 120 and the right door frame frame 130, respectively. The permanent magnet formed and the electromagnets formed inside the left door boot frame 220 and the right door boot frame 230 may be used as a permanent magnet and an electromagnet having strong magnetic force, and may be used as a substitute for the conventional locking device.

While the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

100: door part 110: upper side door part frame
120: left door part frame 130: right door part frame
140: lower side door frame 200: door boot
210: upper side door boot frame 220: left door boot frame
230: right door boot frame 240: lower door boot frame

Claims (12)

A door part including an upper side door part frame, a left door part frame, a right door part frame, and a lower door part frame, wherein a permanent magnet is formed inside the lower side door part frame, and movable left and right; And
And an upper door boot frame frame, a left door boot frame frame, a right door boot frame frame, and a lower door boot frame frame formed on a circumferential surface of the door part so that the door part is located therein, and a permanent magnet inside the lower door boot frame frame. Including a door booth formed in,
Permanent magnets formed in the lower side door frame and the lower side door frame frame located therein are arranged in a three-row arrangement in the longitudinal direction, the middle arrangement is an array of a plurality of permanent magnets spaced apart from each other The array structure formed on the left and right sides of the center array structure is made of an array of permanent magnets continuous in the longitudinal direction.
The door having no step using magnetic force, characterized in that the permanent magnet of the door portion and the permanent magnet of the door portion is formed in a plane that does not have a step between the door portion and the door frame surface adjacent to each other. delete The method of claim 1,
The three-row arrangement structure formed inside the lower side door frame frame corresponds to the three-row arrangement structure formed inside the door portion frame of the lower side of the door portion,
Window having no step using magnetic force, characterized in that the number of the three-row arrangement structure is formed corresponding to the number of the door portion. The method of claim 1,
A repulsive force acts between the permanent magnets formed continuously in the longitudinal direction in the lower side door frame in the left and right directions and the permanent magnets formed continuously in the longitudinal direction in the lower side door frame in the longitudinal direction,
There is no step using magnetic force between the permanent magnets spaced apart from each other inside the lower side door frame and the permanent magnets spaced apart from each other inside the lower side door frame Window. The method of claim 1,
The continuous permanent magnets arranged in the left and right sides formed in the lower door frame and the lower door frame, respectively, may be inclined in a direction toward a plurality of permanent magnet arrays spaced apart from each other. Window having no step using magnetic force characterized by having an inclination angle of °. The method of claim 1,
The right door frame of the door portion is
Blocking unit for blocking the flow of air; And
A first magnetic body formed inside the blocking unit,
The right door boot frame of the door boot is inside
And a second magnetic body formed at a position corresponding to the first magnetic body formed inside the blocking unit. The method of claim 1,
The upper door frame of the upper door portion is
An 'U' shaped insert opening in an upward direction; And
It includes a permanent magnet formed along the inner surface of the insertion portion,
The upper side of the door frame frame of the door frame is
Grooves are formed in the direction of the upper door frame,
One side is inserted into the groove and the other side is a window that does not have a step using magnetic force, characterized in that it comprises a permanent magnet inserted in the center of the insertion portion formed in the upper side door frame. The upper door frame, the left door frame, the right door frame, and the lower door frame frame, and the left and right door frame, the right door frame, the left and right door frame is formed with a permanent magnet inside Door part which can move to; And
The upper door boot frame, the left door boot frame, the right door boot frame, and the lower door boot frame, which is formed on the circumferential surface of the door to be located inside the door part, the left door boot frame, the right door boot frame And a door frame formed with an electromagnet inside the lower door frame;
A power supply unit connected to the electromagnets formed in the left door boot frame, the right door boot frame, and the lower door boot frame to supply power; And
It includes a controller for controlling the power provided to the electromagnet through the power supply,
The permanent magnets formed in the lower side door part frame are spaced apart from each other, and are formed in a single row array structure.
Electromagnets formed in the lower side door boot frame are spaced apart from each other and formed in a single row arrangement structure consisting of a plurality,
A window having no step using magnetic force, characterized in that the lower side of the door frame frame is formed in a plane having no step. The method of claim 8,
The electromagnets formed in the left door frame and the right door frame, respectively, are formed so as to match the positions of the permanent magnets respectively formed in the left door frame and the right door frame frame does not have a step using magnetic force Window. delete The method of claim 8,
And the plurality of permanent magnet array structures and the plurality of electromagnet array structures are arranged so as to cross each other. The method of claim 8,
Starting with a change in the polarity of the electromagnet formed inside the left or right door boot frame frame iteratively converts the polarity of the electromagnet formed inside the lower door boot frame frame to move the door portion located inside the door boot frame Window which does not have step using magnetic force.

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