KR20180094252A - Window structure - Google Patents

Abstract

According to an embodiment of the present invention, a sliding window structure provided with a first window and a second window and including a window frame divided into a first area in which the first window slides and a second area in which the second window slides adjacent to the first area includes: at least one side latching piece provided on a side of the first window and including a locking protrusion sliding along a predetermined path by rotation of a locking lever provided on the first window; and at least one side locking piece formed at a position corresponding to the side latching piece, on an inner surface of a side frame of the window frame, wherein the side locking piece includes a pair of side guides extending while maintaining a predetermined width, and a pair of bottom guides bent inwardly from each side guide to maintain a predetermined gap, and is formed inside the side guides and the bottom guide with a receiving space, and wherein the side locking piece is divided as a first straight linear portion extending in a straight line, an inclined portion continuous from the first straight linear portion and extending in the oblique direction toward the second area, and a second straight linear portion continuous in the inclined portion and extending in the linear direction, the locking protrusion of the side latching piece approaches a front end opening of the first straight linear portion of the side locking piece and is accommodated in the receiving space when the locking lever is rotated while the sliding window structure is closed, and the first window is shifted in the direction approaching the second area to approach the second window when the locking protrusion is guided in the receiving space of the inclined portion.

Description

Microstructure Structure {WINDOW STRUCTURE}

The present invention relates to a microscopic structure, and more particularly, to a microscopic structure capable of enhancing security by increasing the reliability of locking while preventing a gap between a pair of windows from being generated when a window of a microscopic window or a micro- Structure.

A micro window or a micro door is a product in which at least one window is coupled to a frame and horizontally opened and closed along a track provided in the frame. Small-sized products are called microscopic windows and large-sized products are called microscopic doors and used in various fields. 1A and 1B are conceptual diagrams for explaining a one-point locking structure of a microstructure according to the prior art. 1B is provided on the side surface of the window 10 so as not to open the window 10 in the micro window according to the prior art and the frame 20 corresponding thereto is provided with the A latch 2 is provided. When the lever 10 of the handle 10 is closed after the window 10 is closed, the latch 1 is received in the latch 2 and the latch 10 is locked to the frame 20 by fastening the latch 2 and the latch 1 (Ie, one-point locking).

However, according to such a conventional locking device, when the locking device is forcibly released or when the window is forcedly moved in the vertical direction even in the locked state, the locking piece can be separated from the latch so that the window can be separated from the frame without difficulty, Therefore, it has been pointed out that it is vulnerable to intrusion of outside. In addition, in the conventional micro structure, it is general that the window is designed so as to have a slight gap between the window and the window so as not to interfere with each other in the process of crossing each other while moving in the back and forth direction. However, in this case, there has been a problem that outside air is introduced into the gap without being blocked, thereby deteriorating the function of keeping the inside of the room or inserting the cold.

Therefore, it is required to develop a microscopic structure in which the hermeticity between windows is improved even in the closed state, and the reliability of the locked state is improved.

It is an object of the present invention to provide a microstructure structure in which a gap between a window and a window is more closely adhered to a window in a closed state of a window to thereby reliably block a draft.

Another object of the present invention is to provide a microscopic structure in which the reliability of the locking state is improved by adding a locking structure of a latch and a locking piece to a plurality of places between the window and the window frame.

Another object of the present invention is to provide a microscopic structure in which a problem of breakage of a window or a window frame due to repeated use is solved by performing a damping action first in a region immediately before a window contacts a window frame in a slide-moving window .

The objects of the present invention are not limited to those mentioned above, and other objects not mentioned may be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a micro-scale structure including a first window and a second window, the first window having a first window slidably moved, And at least one window formed on a side surface of the first window and having a predetermined length by a rotation operation of a lock lever installed on the first window, A side pawl including a locking protrusion for making a locking projection; And at least one side locking piece formed at a position corresponding to the side brace at an inner surface of the side frame of the window frame, wherein the side locking piece has a pair of side guides extending while maintaining a predetermined width, And a pair of bottom guides bent inwardly from the side guides of the bottom guide and holding predetermined gaps, and a receiving space is formed on the inside of the side guides and the bottom guide, and the side- 1 linear section, an inclined section continuing from the first rectilinear section and extending in an oblique direction toward the second section, and a second rectilinear section continuing from the inclined section and extending in the linear direction, When the lock lever is rotated in the closed state, the locking protrusion of the side latch is engaged with the first side of the side locking piece The first window is shifted in the direction of approaching the second region and the second window is moved in the second window as the locking protrusion is guided in the inclined portion accommodating space, Approach.

At least one upper locking piece is formed on the upper surface of the first window, at least one upper locking piece is formed on a lower surface of the upper frame of the window frame at a position corresponding to the upper locking part, The locking piece may have the same structure as the side latch and the side locking piece.

The side locking pieces and the upper locking piece may protrude by the same height, and the first linear portion, the inclined portion, and the second linear portion may have the same height.

In addition, a roller assembly having a chassis roller rotatably mounted on a lower side of the first window is formed. In a first area on a lower frame of the window frame, a rail for supporting the chassis roller in contact with the chassis roller Rear direction, and the chassis roller can form an asymmetric inclined surface increasing in cross-sectional diameter as the distance from the second region increases.

The side guide of the upper locking piece may have an upward slope such that the first linear portion side has a first height from the lower face of the upper frame and the slope portion side is decreased toward the second linear portion side, And the second linear side may have a second height lower than the first height from a lower surface of the upper frame.

Further, when the first window approaches the side frame of the window frame, the locking protrusion of the upper latch is received in the accommodating space after approaching the front opening of the first straight portion of the upper locking piece, and the first window As the locking protrusion is guided in the inclined portion accommodating space, the first window moves up and down toward the upper frame and shifts in a direction close to the second area when the locking protrusion approaches the side frame of the window frame The second window can be accessed.

In addition, when the lock lever is rotated while the micro structure is closed, the locking protrusion of the upper latch is received in the accommodation space after approaching the front end opening of the first straight portion of the upper locking piece, As the guide moves in the accommodating space, the first window shifts in a direction approaching the second area to approach the second window, and the first window can move up and down toward the upper frame.

According to the micro-scale structure of the present invention, when a window is locked in a closed state by deforming a portion (inclined portion) of a locking piece attached to a side frame of a window frame in a diagonal direction, Is guided obliquely along the inclined portion of the locking piece, so that the first window is brought into close contact with the second window.

Further, since the upper latch of the first window is received in the receiving space of the upper locking piece formed in the upper frame of the window frame before the window contacts the window frame, the upper locking piece reduces the sliding speed of the first window, And the effect of suppressing the breakage of the window of the microscopic window by mitigating the contact impact of the window frame.

In addition, since the first window is fastened a plurality of times in the side frame and the upper frame of the window frame, the locking function is reinforced by adding an additional locking function together with the lateral locking by the conventional one-point locking device.

In addition, since the locking function and the close-contact effect can be simultaneously performed in the process of closing the micro-door, there is an advantage that an improved effect can be obtained by a simple operation.

In addition, since the chassis roller is formed as an asymmetric inclined surface on the lower side of the first window, the first window is supported by the rail at the large diameter portion of the chassis roller in the locked state of the first window and the second window, When the first window is unlocked from the second window, the first window is supported by the rail at the small diameter portion of the chassis roller as the first window is lowered by the gravity, so that a gap between the first window and the second window is opened, There is an advantage that the window can be easily slide-moved without being interfered with the second window.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1A and 1B are conceptual diagrams for explaining a locking structure according to the related art.
2 is a conceptual diagram showing a micro structure of a first embodiment of the present invention.
3A is a conceptual view for explaining support positions of the chassis roller and the rails in the unlocked state of the first window and the second window.
3B is a conceptual view for explaining support positions of the chassis roller and the rails in the locked state of the first window and the second window.
FIGS. 4A to 4C are conceptual diagrams illustrating a locking process in the microstructure according to the first embodiment of the present invention.
5A to 5C are conceptual diagrams illustrating a change in the position of the first window in the process of fastening the side braces of the first window to the side locking pieces of the window frame.
6 is a conceptual diagram showing a micro structure of a second embodiment of the present invention.
FIG. 7 is a perspective view for explaining an engagement relationship between the upper latch and the upper locking piece in FIG. 6. FIG.
8A to 8C are conceptual diagrams illustrating a locking process in the microstructure according to the second embodiment of the present invention.
9A is a perspective view of a top locking piece according to a modification of the second embodiment of the present invention.
FIG. 9B is a side view showing the state that the upper locking piece shown in FIG. 9A is installed on the lower surface of the upper frame.
10A to 10C are conceptual diagrams for explaining a locking process of a window by a lock lever in a modification of the second embodiment of the present invention.
11A to 11C are conceptual diagrams illustrating a locking process of a window by sliding the first window in a modification of the second embodiment of the present invention.
FIG. 12 is a conceptual view showing a structure of a micro structure according to a third embodiment of the present invention.
13A to 13C are conceptual diagrams illustrating a locking process in a microstructure structure according to a third embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unnecessary. The terms described below are defined in consideration of the structure, role and function of the present invention, and may be changed according to the intention of the user, the intention of the operator, or the custom.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art to which the present invention pertains, It is only defined by the scope of the claims. Therefore, the definition should be based on the contents throughout this specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

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

The microscopic structure 100 described in the present invention includes a first window 101, a second window 102, and a window frame 103. The window frame 103 is constituted by an upper frame 103u and a lower frame 103d and a pair of side frames 103s and includes a first region R1 in which the first window 101 slides, And a second area R2 adjacent to the area R1 in which the second window 102 slides. The first area R1 and the second area R2 are arranged on the left and right sides with respect to the front and rear direction respectively and the first area R1 and the second area R2 are arranged in a track shape And the first window 101 and the second window 102 are coupled to slide in the back and forth direction along a track formed on the window frame 103, for example, inside the rectangular window frame 103. For reference, the 'window' in the present invention is not limited as long as it is slidably coupled to the window frame 103 to perform the function of opening and closing the microstructure 100. The window may be in a transparent form such as a glass window or a glass door, And a form in which the front surface is made opaque by an iron plate or a wood plywood. Hereinafter, a description will be made on the basis of a microscopic structure in which a pair of windows are coupled to the window frame 103. However, the microscopic structure of the present invention is not limited to a pair of microscopic windows (or microscopic images; It will be apparent to those skilled in the art that variations may also be applied to a pair of microscopic windows.

1st Example

2 is a conceptual diagram showing a microstructure structure 100 according to a first embodiment of the present invention. Microstructure structure 100 according to a first embodiment of the present invention includes at least one side brace 110 and at least one side locking piece 130.

First, at least one side pawl 110 is disposed on a side surface of the first window 101 at a position facing the side frame 103s of the window frame 103, and each side pawl 110 has a first window 101 And a locking protrusion 111 slidable in a predetermined path by a rotational operation of the lock lever L provided in the lock lever L. The locking projection 111 of the side pawl 110 is linked with the lock lever L in the inside of the first window 101 and interlocked with the lock lever L. [ The locking protrusion 111 slides in both directions along the slit of the side pawl 110. For example, as shown in FIG. 2 or 7, the cross-section of the locking protrusion 111 may be a 'T' character . The locking protrusion 111 is extended leftward and rightward with respect to the slide movement direction so that after the side brace 110 is once inserted into the receiving space 136 of the side locking piece 130 to be described later, So that the side braces 110 are restrained in the receiving space 136 without detaching from the side locking pieces 130. [ The lateral width of the locking projection 111 is preferably equal to or slightly smaller than the inner width of the accommodation space 136. [

The side locking pieces 130 are formed on the inner surface of the first area R1 of the side frame 103s to be engaged with the side braces 110 of the first window 101. [ Of course, the aforementioned side braces 110 may also be formed on the side of the second window 102, in which case the side locking pieces 130 are formed in the second region R2 of the side frames 103s. The side locking pieces 130 are configured to extend along a vertical direction of the side frames 103s by a predetermined length. Specifically, the side locking pieces 130 are provided with a pair of side surfaces A guide 134 and a bottom guide 135 bent inwardly from each side guide 134 and extending vertically in the vertical direction. A pair of opposed bottom guides 135 maintain a preset gap. 2 or 9, a receiving space 136 for receiving the locking protrusion 111 is formed on the inner side of the side guide 134 and the bottom guide 135, and the side brace 110 is formed And is configured to guide movement along the accommodating space 136. On the other hand, the side locking pieces 130 have openings with open ends at both ends in the longitudinal direction. The opening is oriented upward or downward of the side frame 103s, and FIG. 2 shows a structure in which the opening of the side locking piece 130 is oriented downward. Again, the opposite end (the other end) of the opening can be closed to prevent the release of the side brace 110. 5A to 5C, when the first window 101 is in contact with the side frame 103s of the window frame 103 and the micro-structure 100 is closed, the side locking pieces 130 are locked When the lever L is rotated, the locking protrusion 111 is positioned so as to be caught by the above-mentioned other end of the side locking piece 130. [

On the other hand, the side locking piece 130 has a first straight portion 131 extending from the one end in the lengthwise direction to the other end, a first straight portion 131 extending from the first straight portion 131, And a second rectilinear section 132 which is continuous in the inclined section 133 and extends in a linear direction. At this time, the side locking pieces 130 are protruded by the same height as the side guides 134, and the first rectilinear section 131, the inclined section 133, and the second rectilinear section 132 are formed at the same height.

4A to 4C are conceptual diagrams illustrating a locking process in the microstructure 100 according to the first embodiment of the present invention. 4A, when the first window 101 is slid and the first window 101 is slid and the first window 101 is in a closed state in contact with the inner surface of the side frame 103s as shown in FIG. 4B, Is disposed close to the opening of the front end of the first straight portion 131 of the side locking piece 130. 5C, when the lock lever L is operated in a rotating manner or the like, the locking protrusion 111 is gradually moved upward to be accommodated in the receiving space 136 of the side locking piece 130, And moves upward along the accommodating space 136 while traversing the gap of the side locking pieces 130. First moves upward along the accommodating space 136 on the side of the first rectilinear section 131 and then enters into the accommodating space 136 on the side of the inclined section 133. [ At this time, the inclined portion 133 of the side locking piece 130 extends in the diagonal direction toward the second region R2, and the locking projection 111 is guided in the accommodating space 136 on the side of the inclined portion 133 The entire first window 101 integral with the locking projection 111 gradually shifts in the direction of approaching the second region R2 as shown in Fig. 4C. The first window 101 is shifted until just before the locking projection 111 enters the accommodation space on the side of the second rectilinear section 132. [ According to such a shift movement, the first window 101 becomes close to the second window 102 as shown in FIG. 4C, and can be brought into close contact with the second window 102. As shown in FIG.

The micro structure 100 according to the first embodiment of the present invention includes a roller assembly 160 mounted on a lower side of the first window 101 and having a chassis roller 150 rotatably fixed by a fixing shaft . A pair of tracks of the lower frame 103d of the window frame 103 are respectively provided with a rail R extending in the front and rear direction and the first window 101 is supported by the chassis roller 150 of the roller assembly 160 Is supported on the rail (R), and is supported in a rolling manner on the rail (R) through the chassis roller (150) when sliding the window in the forward and backward directions. Inside the roller assembly 160, the chassis roller 150 rotates about an axis while being fixed in position at a predetermined position in the axial direction.

At this time, the chassis roller 150 forms an asymmetric inclined surface increasing in cross section in one direction out of the asymmetric slopes, that is, the left and right sides away from the second region R2. 3A is a conceptual view for explaining support positions of the chassis roller 150 and the rail R in the unlocked state of the first and second windows 101 and 102. FIG. And a supporting position of the chassis roller 150 and the rail R in a locked state of the second window 102. [ 5A to 5C are views for explaining a change in the position of the first window 101 in the process of fastening the side braces 110 of the first window 101 to the side locking pieces 130 of the window frame 103 It is a conceptual diagram.

First, in a state before the locking piece of the first window 101 and the locking piece of the window frame 103 are fastened (see FIGS. 3A and 5A; see the unlocked state), the latch is not constrained to the locking piece of the window frame 103 The first window 101 is mounted on the window frame 103 only by the rim of the first region R1 and the first window 101 is not mounted on the window frame 103 due to the own weight of the first window 101, Is supported in contact with the rail (R) at a first small point of the asymmetric slope.

When the locking piece of the window frame 103 is fastened to the latch of the first window 101 by the operation of the lock lever L in the closed state (see FIGS. 3B, 5B and C, The first window 101 shifts in the direction close to the second area R2 as described above. As the first window 101 moves in the close contact direction by the fastening force between the side pawl 110 and the side locking piece 130, a portion of the asymmetrical sloped surface of the chassis roller 150 below the first window 101 And the second point, which is larger than the first point, comes into contact with the rail (R). And, as shown in FIG. 3B, the position of the second point is away from the first point as the first window 101 approaches the second region R2.

On the other hand, when the lock is released again from the locked state, the side brace 110 is released from the side locking piece 130, and the first window 101 is moved back to the window frame 103 only by the rim of the first area R1, Respectively. Accordingly, the first window 101 applies a downward force due to its own weight, and the contact support point is transferred again to the first point where the diameter of the asymmetric slope of the chassis roller 150 is small, as shown in FIG. 3A and 3B, when the first window 101 is supported by the rail R at the second point, the first window 101 is positioned close to the second region R2, , It is away from the second region R2. Accordingly, in a locked state, the first window 101 is disposed close to the second window 102, but a space is generated between the first window 101 and the second window 102 in a locked state. The first window 101 and the second window 102 can slide freely without interference by the second window 102 to open the window.

In the meantime, according to another embodiment of the present invention, at least two side braces 110 are disposed apart from each other along the front-rear direction on the side surface of the first window 101, Two or more side locking pieces 130 may be spaced apart from each other along the vertical direction in the first area R1 so that the respective latches are received in the respective locking pieces. The micro structure 100 is installed in the first area R1 of the first window 101 and the window frame 103 and the second area R2 of the second window 102 and the window frame 103, .

Second Example

6 is a conceptual view showing a microstructure structure 100 according to a second embodiment of the present invention. FIG. 7 is a perspective view for explaining an engagement relationship between the upper latch 120 and the upper locking piece 140 in FIG. to be. The microstructure structure 100 according to the second embodiment of the present invention may include at least one upper pawl 120 and at least one upper locking piece 140. 6, at least one upper pendant 120 is formed on the upper surface of the first window 101, and the upper pendant 120 is provided on the lower surface of the upper frame 103u of the window frame 103 At least one upper locking piece 140 is formed at the corresponding position. The detailed configuration of the upper pawl 120 and the upper locking piece 140 has the same configuration as the side pawl 110 and the side locking piece 130 described above. 6, the upper locking piece 140 is configured to extend by a predetermined length along the front-rear direction of the upper frame 103u, and the opening is extended toward the front-rear direction central portion of the upper frame 103u .

Specifically, the first straight portion 131 of the upper locking piece 140 is extended by a predetermined length in the straight direction along the upper frame 103u so as to be parallel to the longitudinal direction of the upper frame 103u, And the portion 133 extends continuously to the first rectilinear section 131. At this time, the inclined portion 133 is extended by a predetermined length in the diagonal direction toward the second region R2. That is, the inclined portion 133 is obliquely oriented toward the direction in which the second region R2 is arranged in the left-right direction with respect to the extending direction of the first rectilinear section 131. [ For example, as shown in FIG. 6 or 7, the inclined portion 133 extends in a diagonal direction toward the right where the second region R2 is disposed. The second rectilinear section 132 extends continuously from the inclined section 133. The second rectilinear section 132 extends from the first area R1 of the upper frame 103u to the front of the upper frame 103u And extends along the upper frame 103u by a predetermined length in the straight direction.

The side surface guide 134 protrudes from the upper locking piece 140 by the same height as the side locking piece 130 and the first and second linear portions 131, (132) may be formed at the same height.

According to the micro-structure 100 having the upper brace 120 and the upper locking piece 140 according to the second embodiment of the present invention, when the lock lever L is rotated in a state where all the windows are closed, Locking is performed by the upper brace 120 and the upper locking piece 140 while the first window 101 is close to the second window 102. [ 8A to 8C are conceptual diagrams illustrating a locking process by the rotation of the lock lever L in the microstructure 100 according to the second embodiment of the present invention. Referring to FIG. 8A, when the first window 101 is slid and the first window 101 is opened and the first window 101 is in a closed state in contact with the inner surface of the side frame 103s as shown in FIG. 8B, The locking protrusion 111 is disposed close to the tip opening of the first straight portion 131 of the upper locking piece 140. 8C, when the lock lever L is operated in a rotating manner or the like, the locking protrusion 111 is slowly moved to the right to be accommodated in the receiving space 136 of the upper locking piece 140, And sequentially guided to the accommodating space 136 on the side of the first rectilinear section 131, the side of the inclined section 133 and the side of the second rectilinear section 132 while traversing the gap of the upper locking piece 140. At this time, the inclined portion 133 extends diagonally toward the second region R2. When the locking projection 111 is guided in the accommodating space 136 on the inclined portion 133, the inclined portion 133 is integrally formed with the locking projection 111 The first window 101 is shifted in a direction toward the second region R2 in a direction toward the second region R2 (see Fig. 8C) And can be brought into close contact with the second window 102. As shown in Fig. 8A, it is preferable that two or more locking pieces are provided on the lower surface of the upper frame 103u from the viewpoint of stability of close contact.

On the upper surface of the first window 101, at least two upper brackets 120 are disposed apart from each other along the front-rear direction. A first region R1 on the upper frame 103u of the window frame 103 is disposed along the front- Two or more upper locking pieces 140 may be spaced apart. Each upper brace 120 is configured to be received in a respective upper locking piece 140. The micro structure 100 may be installed in the first region R1 of the first window 101 and the window frame 103 and may be installed in the second window 102 and the window frame 103 as well.

In the micro structure 100 according to the second embodiment of the present invention, a roller assembly 160 is mounted on the lower side of the first window 101, with the chassis roller 150 being rotatably fixed by a fixing shaft . These components are the same as those described in the first embodiment, and the description thereof is omitted.

Meanwhile, as a modification of the second embodiment of the present invention, the upper locking piece 140 may adopt a configuration in which the side guides 134 have a gradient. 9A is a perspective view of the upper locking piece 140 according to a modification of the second embodiment of the present invention. FIG. 9B shows a state in which the upper locking piece 140 shown in FIG. 9A is installed on the lower surface of the upper frame 103u Fig. As shown in the figure, the side of the first linear portion 131 of the side guide 134 has a first height from the lower surface of the upper frame 103u and the side of the inclined portion 133 toward the second rectilinear portion 132 And the side of the second rectilinear section 132 may be configured to have a second height lower than the first height from the lower surface of the upper frame 103u.

According to this configuration, as the locking projection 111 is guided in the accommodating space 136 on the side of the inclined portion 133, the first window 101 moves up and down toward the upper frame 103u, To approach the second window 102. [0050] 10A to 10C are conceptual diagrams for explaining a locking process of a window by the lock lever L in a modification of the second embodiment of the present invention. Referring to FIG. 10A, when the first window 101 is slid and the first window 101 is opened and the first window 101 is in a closed state in contact with the inner surface of the side frame 103s as shown in FIG. 10B, The locking protrusion 111 is disposed close to the tip opening of the first straight portion 131 of the upper locking piece 140. In this state, when the lock lever L is operated in a rotating manner or the like as shown in FIG. 10C, the locking protrusion 111 is slowly moved to the right to be accommodated in the receiving space 136 of the upper locking piece 140, And sequentially guided to the accommodating space 136 on the side of the first rectilinear section 131, the side of the inclined section 133 and the side of the second rectilinear section 132 while traversing the gap of the upper locking piece 140. At this time, since the inclined portion 133 extends obliquely toward the second region R2 and at the same time forms a gradually inclined slope upwardly, the locking projection 111 slides in the inclined portion 133 side accommodation space 136, The entire first window 101 integral with the locking projection 111 moves upward toward the upper frame 103u while gradually shifting in the direction of approaching the second region R2 (see FIG. 8C) The first window 101 is brought close to the second window 102 and can be brought into close contact with the second window 102 in accordance with the shift and the upward movement. As shown in Fig. 10A, it is preferable that two or more locking pieces are provided on the lower surface of the upper frame 103u from the viewpoint of stability of close contact. According to the modification of the second embodiment of the present invention, when the first window 101 is shifted toward the second region R2 and the first window 101 is inclined at the inclined portion 133 of the upper locking piece ) ≪ / RTI > That is, the first window 101 is fastened to the upper frame 103u, and the height thereof is increased. At this time, as described above, the chassis roller 150 is formed as an asymmetric inclined surface, so that even if the first window 101 is gradually moved upward in the process of shifting to approach the second region R2, At a second point at which the diameter is gradually increased corresponding to the radius R. The chassis roller 150 of the roller assembly 160 is spaced apart from the rail R of the window frame 103 and does not contact the bottom of the first window 101, The support state can be maintained constantly.

Meanwhile, according to the micro structure 100 of the second embodiment of the present invention, the first window 101 can be automatically locked during the sliding movement of the first window 101 to the window frame 103. That is, when the first window 101 approaches the side frame 103s of the window frame 103, the locking protrusion 111 of the upper latch 120 is engaged with the first linear portion 131 of the upper locking piece 140, When the first window 101 is closer to the side frame 103s of the window frame 103, the locking protrusion 111 is received by the inclined portion 133 side As the guide moves in the accommodating space 136, the first window 101 shifts toward the second region R2 and approaches the second window 102. [ 11A to 11C are conceptual diagrams illustrating a locking process of a window by sliding the first window 101 in a modification of the second embodiment of the present invention. Referring to these drawings, first, when the first window 101 starts to move to the right side toward the side frame 103s and reaches the position of FIG. 11B, the locking projection 111 of the upper brace 120 is locked And is close to the tip opening of the first rectilinear section 131 of the piece. The locking projection 111 is accommodated in the accommodating space 136 on the side of the first rectilinear section 131 of the upper locking piece 140 as the first window 101 is slid by the inertia continuously, And sequentially guided to the accommodating space 136 on the side of the inclined portion 133 and the side of the second rectilinear section 132 while traversing the gap of the first rectilinear section 130. In this process, when the locking projection 111 is guided in the accommodating space 136 on the side of the inclined portion 133, the entire first window 101 shifts in the direction toward the second region R2. Then, while the first window 101 is continuously slid, the latch moves toward the other end of the upper locking piece 140, and the side surface of the first window 101 contacts the side frame 103s to completely close the micro- The locking projection 111 is seated in the upper locking piece 140 so that the first window 101 is locked to the upper frame of the window frame 103. [ As described above, when the inclined portion 133 of the upper locking piece 140 has a gradient, the first window 101 is moved toward the second region R2 while continuously sliding by the inertia And shifts upward simultaneously with shift.

As described above, according to the second embodiment, when the first window 101 is slid and closed, the locking projections (not shown) of the upper brace 120 before the first window 101 contacts the side frames 103s 111 are accommodated in the receiving space 136 of the upper locking piece 140 and the shift movement of the first window 101 is automatically implemented via the inclined portion 133 of the locking piece. That is, in addition to the effect that the first window 101 and the second window 102 are in close contact with each other in the process of sliding the window by sliding the user, the locking effect can be obtained. Since the inclined portion 133 of the upper locking piece 140 is bent in the diagonal direction toward the second region R2, the locking projection 111 Enters a side of the inclined portion 133 and receives resistance in a direction opposite to the moving direction. Accordingly, the first window 101 has an advantage of providing a damping effect between the window and the window frame 103 because the moving speed thereof is reduced immediately before the first window 101 contacts the side frame 103s.

Third Example

12 is a conceptual diagram showing a microstructure structure 100 according to a third embodiment of the present invention. 13A to 13C are conceptual diagrams illustrating a locking process in the microstructure 100 according to the third embodiment of the present invention. 12, the microstructure structure 100 according to the third embodiment of the present invention includes at least one side brace 110 and side locking pieces 130, at least one upper brace 120, And a locking piece 140. The roller assembly 160 may be mounted on the lower side of the first window 101. [ These components omit the same repetitive description as those described in the first and second embodiments and refer to the above description.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention is not limited thereto and that various changes and modifications may be made therein without departing from the scope of the invention.

100: micro structure 101: first window
102: second window 103: window frame
103s: side frame 103u: upper frame
103d: lower frame R1: first area
R2: second area L: lock lever
110: side brace 120: upper brace
111: locking protrusion 130: side locking piece
140: upper locking piece 131: first straight portion
132: second rectilinear section 133: inclined section
134: side guide 135: bottom guide
136: accommodation space 150: chassis roller
160: Roller assembly R: Rail

Claims (7)

A microstructure structure comprising a first window and a second window, the window having a first region in which the first window slides and a second window adjacent to the first region in which the second window slides, ,
And a locking projection formed on at least one side of the first window and slidably moving in a predetermined path by a rotation operation of a lock lever installed on the first window; And
And at least one side locking piece formed at an inner surface of the side frame of the window frame at a position corresponding to the side brace,
Wherein the side locking pieces include a pair of side guides extending while maintaining a preset width and a pair of bottom guides bent inward from the respective side guides and holding a preset gap, A receiving space is formed inside the guide,
The side locking piece includes a first straight portion extending in a straight line, an inclined portion continuing from the first straight portion and extending in an oblique direction toward the second region, and an inclined portion extending continuously in the inclined portion and extending in the linear direction A second rectilinear section,
When the lock lever is rotated in a state in which the micro structure is closed, the locking protrusion of the side latch is received in the accommodating space after approaching the front end opening of the first straight portion of the side locking piece, and the locking protrusion is received in the inclined- Wherein the first window is shifted in a direction toward the second area to approach the second window as the guide moves in the second window. The method according to claim 1,
Wherein at least one upper locking piece is formed on an upper surface of the first window and at least one upper locking piece is formed on a lower surface of an upper frame of the window frame at a position corresponding to the upper latch, Has the same structure as the side latches and the side locking pieces. 3. The method of claim 2,
Wherein the side locking pieces and the upper locking piece are protruded by the same height so that the first straight portion, the inclined portion, and the second straight portion are formed at the same height. The method according to claim 1,
Wherein the chassis is provided with a roller assembly rotatably disposed on a lower side of the first window, and a first region on the lower frame of the window frame is provided with a rail for supporting the chassis roller in contact with the chassis roller, Lt; / RTI >
Wherein the chassis roller forms an asymmetric sloped surface that increases in cross-sectional diameter away from the second region. 3. The method of claim 2,
The side guide of the upper locking piece may include:
Wherein the first linear portion side has a first height from the lower surface of the upper frame and the inclined portion side has an upward slope that decreases in height toward the second straight portion side, And a second height lower than the first height. 6. The method of claim 5,
Wherein when the first window approaches the side frame of the window frame, the locking projection of the upper latch is received in the accommodation space after coming close to the tip opening of the first straight portion of the upper locking piece,
When the first window is closer to the side frame of the window frame, as the locking protrusion is guided in the inclined portion accommodating space, the first window moves up and down toward the upper frame, Wherein the second window is shifted in a direction toward the second window. 6. The method of claim 5,
When the lock lever is rotated while the micro structure is closed, the locking protrusion of the upper latch is received in the accommodating space after approaching the front end opening of the first straight portion of the upper locking piece, and the locking protrusion is received in the inclined- The first window is shifted in the direction of approaching the second area to approach the second window and the first window is moved up and down toward the upper frame.

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