KR200316932Y1 - Door with assembly type of glass supporter - Google Patents

Abstract

This design improves the work efficiency by allowing the glass fixing work to be performed by the worker in a stable state in which the glass does not flow in the frame fixed to the through-hole of the door, and improves the work efficiency. Its purpose is to provide a prefabricated glass support for the door that can significantly increase productivity by shortening the production time.

The present invention for achieving the above object, in the glass support is formed in the longitudinal hole along the inner surface so as to support the glass while surrounding the edge of the glass is located in the through hole of the door, the glass support, The first frame and the second frame are divided in the longitudinal direction along the groove, and the latch protrusion is formed on the divided surface of the first frame to protrude in the longitudinal direction of the first frame. On the divided surface, a latch groove is inserted into the latch protrusion to correspond to the latch protrusion, and is pressed in a state where the latch protrusion of the first frame and the latch groove of the second frame correspond to each other. It provides a prefabricated glass support for a door, characterized in that for engaging the second frame.

Description

Door with assembly type of glass supporter

The invention relates to a prefabricated glass support for a door that wraps around the edge of the glass and is fixed to the inner side of the through-hole of the door.

In general, an additional door is installed between the front door and the living room in an apartment such as an apartment so that the front door is not directly visible in the living room, thereby adequately concealing and blocking the dirty environment generated from the shoes placed on the front door.

In addition, by installing such a shutter, it is possible to minimize the change in temperature of the living room to reduce the energy required for cooling or heating.

If the doors used for this purpose are made of an opaque material, such as the front door, it will give a frustrating feeling when a guest, such as a guest, opens the front door. In this case, there is also a need to install a separate lighting device between the shutter and the front door, in general, the shutter door is located in the middle of the door at least one transparent glass so that the light is transmitted, while the messy appearance of the front door is not visible if possible.

1 is a schematic view showing a door having a glass support according to the prior art, Figure 2 is a cross-sectional view showing a glass support fixed to the glass shown in FIG.

The door 1 shown in FIG. 1 is a technique known from Korean Utility Model Registration No. 0287928 (the name of the design "door with a glass support").

According to the above known prior art, the glass support 20 for the door is fixed to the inner surface of the through hole 3 formed in the door (1) is fixed, the plurality of frames (21; 21H, 21S, 21L) is fixed to match the shape of the through hole 3, and the edge of the glass 10 is inserted into the grooves 22 (22H, 22L) formed in the longitudinal direction of the frame 21 on the inner surface of the frame 21. Then, the silicon 30 is shot at the edge of the groove 22 and the glass 10 to fix the glass 10 to the frame 21.

Thus, in order to have the structure which fits the glass 10 in the frame 21 of the glass support 20 fixed to the door 1, as shown in FIG. 2, the recess 22 formed in the frame 21 is shown. The depth of the groove 22H formed in the upper frame 21H is formed deeper than the depth of the groove 22L formed in the other frames 21S and 21L.

In order to fit the glass 10 into the grooves 22 of the frame 21, the size of the glass 10 needs to be cut to the exact size according to the depth of the frame 21 and the grooves 22.

The size of the glass 10 determined according to the depth of the frame 21 and the groove 22 is as follows. The length of the glass 10 is equal to the distance between the sides of the glass 10 and the corresponding inner surfaces of the two frames 21, and the width of the glass 10 is between the inner surfaces of the two frames 21 positioned up and down. It is larger than the interval of, but is inserted into the grooves 22 of the upper and lower frames 21H, 21L to span the upper and lower frames 21H, 21L to have a width that can flow in the vertical direction.

Therefore, the glass 10 in a state before the silicon 30 is shot to fix the glass to the glass support 20 is movable by the clearance with the groove 22.

That is, in order to insert the glass 10 into the grooves 22 of the frame 21, an operator once pushes the glass 10 into the grooves 22H of the upper frame 21H and inserts it into the glass 10. When the force is removed, the glass 10 is fitted into the groove 22L of the lower frame 21L and the upper end portion is positioned over the groove 22H of the upper frame 21H.

In this state, both sides of the glass 10 are not inserted into the grooves of the two side frames 21S, and the glass 10 is vertically and horizontally in the depth direction of the grooves 22 and the width of the grooves and the glass 10. Can flow in the front-rear direction according to the difference in thickness.

Thus, the operator must set the position of the glass 10 before shooting the silicon 30 on the glass 10 and shoot the silicon 30 in this state.

Then, before the silicon 30 is completely fused, when the door 1 is moved or tilted, the silicon 30 which is not completely fused is pushed to one side by the flow of the glass 10 and the glass 10 is stably fixed. You won't be able to.

In addition, in order to insert the glass 10 into the groove 22H of the upper frame 21H, the glass 10 should be inserted in a curved state by applying a force to the glass 10, wherein excessive force is applied to the glass in an amorphous solid state. The disadvantage is that the glass can break when applied.

In addition, when cutting the glass according to the size of the frame and the depth of the groove, there is a disadvantage that the dimensional calculation of the glass is complicated.

This invention is to solve the problems of the prior art as described above, the operator can proceed with the glass fixing work in a stable state in which the glass does not flow in the frame fixed to the through hole of the door to improve the work efficiency It is also an object of the present invention to provide a prefabricated glass support for a door that can significantly improve productivity by shortening the production time because the fixing of the glass is completed by simply fitting and assembling.

1 is a schematic view showing a door with a glass support according to the prior art,

Figure 2 is a cross-sectional view showing a glass support fixed to the glass shown in Figure 1,

3 is an exploded perspective view of a prefabricated glass support for a door according to an embodiment of the present invention,

4 is a cross-sectional view showing the glass support shown in FIG.

5 is a cross-sectional view showing a glass support fixed to the glass shown in FIG.

FIG. 6 illustrates a process of manufacturing a door by employing the prefabricated glass support shown in FIG. 3.

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

100: door 103: through hole

200: glass support 203: chamfered surface

210, 220: frame 230: groove

241, 242: stepped portion 250: latch protrusion

260: latch groove 270: nail

The present invention for achieving the above object, in the glass support is formed in the longitudinal hole along the inner surface so as to support the glass while surrounding the edge of the glass is located in the through hole of the door, the glass support, The first frame and the second frame are divided in the longitudinal direction along the groove, and the latch protrusion is formed on the divided surface of the first frame to protrude in the longitudinal direction of the first frame. On the divided surface, a latch groove is inserted into the latch protrusion to correspond to the latch protrusion, and is pressed in a state where the latch protrusion of the first frame and the latch groove of the second frame correspond to each other. It provides a prefabricated glass support for a door, characterized in that for engaging the second frame.

Preferably, the step surface part may be formed in the outer surface of the said glass support body along the longitudinal direction of the said support stand in the width both ends.

In the following, with reference to the accompanying drawings, the assembled glass support for the door according to an embodiment of the present invention will be described in detail.

In this case, the door is applicable to the case of fixing the glass in the through-hole, such as a shutter, a window and a door.

In the drawings, Figure 3 is an exploded perspective view of a prefabricated glass support for a door according to an embodiment of the present invention, Figure 4 is a cross-sectional view showing the glass support shown in Figure 3, Figure 5 is the glass shown in Figure 3 is fixed It is a cross-sectional view showing the glass support, Figure 6 shows a process of manufacturing the door by employing the prefabricated glass support shown in FIG.

As shown in Figure 3, the door 100 is formed with a plurality of through holes 103 in the longitudinal direction of the door 100 so that a plurality of glass windows can be fitted.

The first frame 210 of the prefabricated glass support 200 is fixed to the through hole 103, and the first frame 210 is positioned on the fixed first frame 210. The glass 10 is fixed between the first frame 210 and the second frame 220 by fastening the two frames 220.

Hereinafter, the structure of the assembled glass support 200 which consists of such 1st, 2nd frames 210 and 220 is demonstrated in detail.

As shown in FIG. 3, the prefabricated glass support 200 has a size corresponding to the through hole 103 of the door 100 as a rectangular frame. Therefore, when the glass support 200 is inserted into and positioned in the through hole 103 of the door 100, the glass support 200 comes into contact with the outer surface of the glass support 200 and the inner surface of the through hole 103 of the door 100.

On the other hand, the prefabricated glass support 200 is a frame formed by connecting the four frames, both ends of the frame is chamfered 45 ° is fixed in a state in which the mutual chamfered surface 203 abuts. Each of the frames is divided into a first frame 210 and a second frame 220 along the groove 230 formed in the longitudinal direction on the surface facing each other.

As shown in FIG. 4, the first frame 210 and the second frame 220 face the outer surface of the prefabricated glass support 200, that is, the inner surface of the door through hole 103 in a state where they are fastened to each other. The first stepped portion 241 is formed on the surface in the longitudinal direction of each of the frames 210 and 220, and the position of the first stepped portion 241 is formed at both ends of the width of the frame corresponding to both sides of the door 100. It is formed at the corner.

The first stepped portion 241 is used as a joint of the manufactured door 100 to fill or insert a separate foreign material as well as to obtain the effect of decoration.

Meanwhile, in the first frame 210, a protrusion 250 having a latch is formed on the divided surface divided along the recess 230 to protrude in the longitudinal direction of the first frame 210. In addition, a latch groove 260 to which the protrusion part 250 is formed is formed in the divided surface of the second frame 220 in contact with the first frame 210.

Therefore, when the protrusions 250 of the first frame 210 and the latch grooves 260 of the second frame 220 are pressed in the mutually opposite directions in a correspondingly located state, the protrusions 250 in the latch grooves 260. Is tightened while being forcibly inserted.

In the fastening process as described above, the first and second frames 210 and 220 are fastened with the glass 10 positioned between the first frame 210 and the second frame 220. Four frames are fixed along four sides.

4 and 5, the second stepped portion 242 is formed on the divided surface of the first frame 210 so that the edge of the glass 10 rests on the second stepped portion 242. Preferably, the step height of this second stepped portion 242 is formed higher than the thickness of the glass 10.

This is because the nail 270 is driven into the second stepped portion 242 of the first frame 210 to fix the first frame 210 to the inner surface of the through hole 103. This is to secure a sufficient area to be located.

In general, the glass 10 fixed to the door 100 has a thickness of about 4 mm, but since the diameter of the nail header is 4 mm or more, the step height of the second step portion 242 should be higher than the thickness of the glass 10. .

Hereinafter, the manufacturing process of the door with the assembled glass support constructed as described above will be described in detail with reference to FIG. 6.

As shown in FIG. 6, four first frames 210 are positioned on inner surfaces of the door through holes 103, respectively, and the first stepped portion 241 of the first frame 210 is a door through hole ( It is located to face the inner side of (103).

In this state, the worker drives the nail 270 to the second stepped portion 242 of the first frame 210 to fix the first frame 210 to the inner surface of the through-hole 103.

In this case, the four first frames 210 are fixed in a rectangular shape in the same manner as the through hole 103 by being positioned in a state where the chamfered surfaces 203 formed at each end are in contact with each other. In this state, the glass 10 is seated on the second stepped portion 242 of the first frame 210.

At this time, the glass 10 is seated on the four first frames 210 fixed to the rectangle, so that the rectangular glass 10 is positioned in the second stepped portion 242 in a stable state. In this state, the second frame 220 is fastened to the protrusion 250 of the first frame 210.

That is, when the latch groove 260 of the second frame 220 and the protrusion 250 of the first frame 210 are positioned to face each other, the second frame 220 is pressed in the direction of the first frame 210. The protrusion 250 is fastened while the steel is inserted into the latch groove 260.

As described above, the glass 10 is positioned and fixed between the first frame 210 fixed to the door 100 and the second frame 220 fastened to the first frame 210.

On the other hand, instead of the nail 270 in this design, using the taka pin can be fixed to the inner surface of the first through hole 103 with the takapin.

In addition, since the size of the glass 10 in this design is such that the size of the glass 10 can be seated on the first stepped portion 241 of the first frame 210, the size of the glass in cutting and manufacturing the glass. The calculation is simple.

As described in detail above, according to the assembled glass support for the door of the present invention, after fixing the first frame to the inner surface of the through hole and seating the glass, the second frame is fastened to the first frame to fix the glass. By shortening the time required for fusion of the adhesive, such as shortening the production time of the door has the advantage that can significantly improve the productivity.

In addition, according to the prefabricated glass support for the door of the present invention, there is an advantage that it is possible to prevent the risk of breaking the glass by not pressing the glass in order to insert the glass.

In addition, according to the prefabricated glass support for the door of the present invention, there is an advantage that the size calculation of the glass size is simple in cutting and manufacturing the glass fixed to the glass support.

Although the technical idea of the assembled glass support for the door of the present invention has been described together with the accompanying drawings, this is illustrative of the most preferred embodiment of the present invention and is not intended to limit the present invention.

Claims (2)

In the glass support which is formed in the through hole of the door and is formed in the longitudinal direction along the inner surface to support the glass while surrounding the edge of the glass, The glass support, It is divided in the longitudinal direction along the groove divided into a first frame and a second frame, On the divided surface of the first frame, the latch protrusion is formed to protrude in the longitudinal direction of the first frame, On the divided surface of the second frame, a latch groove is inserted into the latch protrusion corresponding to the latch protrusion, And a latch protrusion of the first frame and a latch groove of the second frame are pressed to engage the first frame and the second frame. The method of claim 1, Prefabricated glass support for the door, characterized in that the stepped portion is formed along the longitudinal direction of the support on the outer surface of the glass support.