KR101993172B1 - Interworking gate - Google Patents

Abstract

The present invention relates to an interlocking gate, and more particularly, to provide an interlocking gate in which an interlocking portion is formed under the frame. To this end, the interlocking gate according to the present invention includes: a first gate having a first sliding part formed on at least one of an upper end and a lower end; A second gate having a second sliding part engaged with the first sliding part and sliding on a first side, a third sliding part formed on a second side, and an interlocking part formed on a lower side thereof; And a third gate having a fourth sliding part engaged with the third sliding part and sliding on the first side, and the linking part is rotatably mounted at both ends of the lower surface of the second frame, respectively. A pair of rollers; And a belt fastened to the pair of rollers, wherein the belt is connected to the first gate and the second gate.

Description

Interlocking gates {INTERWORKING GATE}

The present invention relates to a gate, in particular, is mounted on the doorway formed in the outer structure, such as a fence surrounding the outer circumference of the building, a plurality of frames are continuously moved to open and close the doorway to be installed in place of the fence inside the complex urban housing complex It is about a groundbreaking interlocking gate that can secure the parking space of the alleyway.

Since the entrance and the like formed on the fence outside the building is generally wide, it is not possible to completely open and close the entrance and exit only by the gate formed of one or two frames.

Therefore, in general, a sliding gate composed of three or more frames is used for this entrance.

However, since the conventional sliding gate does not have an interlock device that can be interlocked, the divided gates collide with each other when the gate is pulled and pulled. Therefore, the conventional sliding gate has a problem that noise is generated during opening and closing, the manufacturing process is complicated, and when a problem occurs in the interlocking part, repair is difficult.

In addition, since the conventional sliding gate is a steel pipe welding method instead of an aluminum assembly bar, the appearance is not neatly arranged.

In addition, a simple sliding gate composed of three or more frame gates is used for the entrance door of such a house, and this conventional gate has a problem in that it pulls and pulls the frame gates when pulled and pulled because there is no interlocking device that can be interlocked.

In addition, the general house is provided surrounded by a fence wall except for the door, which has a limit that can not be utilized widely available parking space.

The present invention has been proposed to solve the above problems, the linkage is formed integrally with the gate under the inside of the frame, there is no balance, easy to repair and repair, install the interlocking gate in place of the fence in a complex urban house Therefore, it is a technical problem to provide an innovative interlocking gate that can secure a parking space of a complicated alley by maximizing the space inside the house by opening and closing the interlocking gate if necessary.

According to an aspect of the present invention, there is provided an interlocking gate including: a first gate having a first sliding part formed on at least one of an upper end and a lower end; A second gate having a second sliding part engaged with the first sliding part and sliding on a first side, a third sliding part formed on a second side, and an interlocking part formed on a lower side thereof; And a third gate having a fourth sliding part engaged with the third sliding part and sliding on the first side, and the linking part is rotatably mounted at both ends of the lower surface of the second frame, respectively. A pair of rollers; And a belt fastened to the pair of rollers, wherein the belt is connected to the first gate and the second gate.

According to the present invention, the second gate 200 and the third gate 300 are interlocked with the first gate 100 by the interlocking part 250, the first fastening part 140, and the second fastening part 340. The first gate 100 and the second gate 200 by opening and closing only the first gate 100 by allowing the first to third gates 100-300 to be moved along the rail 400 installed in the rail 400. Since the third gate 300 can be opened and closed at the same time, since the linkage is formed under the frame, the appearance can be neatly processed, there is no residual trouble, the operational reliability is high, and the configuration of the linkage is simple, manufacturing And the effect is easy to repair.

1 is an exemplary view showing a state in which the interlocking gate according to the present invention is mounted on the pillar of the doorway.
Figure 2 is an exemplary view showing a view of the interlocking gate according to the present invention in the direction A of Figure 1;
3 is an exemplary view showing a cross section of a portion B shown in FIG.
4 to 6 are exemplary views for explaining a state in which the interlocking gate according to the present invention operates.

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

1 is an exemplary view showing a state in which the interlocking gate according to the present invention is mounted on the pillar of the doorway, and FIG. 2 is an exemplary view showing a state in which the interlocking gate according to the present invention is viewed from the direction A of FIG. 1. 3 is an exemplary view showing a cross section of a portion B shown in FIG. 2, and shows an interlocking part 250 and a second fastening part 340.

As shown in FIGS. 1 and 2, the interlocking gate according to the present invention includes a first gate 100 and a first gate 100 in which a first sliding part 120 is formed at at least one of an upper end and a lower end. The second sliding part 221 which is engaged with the first sliding part 120 and slides is provided on the first side facing the ), and the third sliding part 222 on the second side opposite to the first side. And a second gate 200 having an interlocking portion 250 formed thereon, and a fourth sliding portion 320 that is engaged with the third sliding portion 222 and slides on the first side thereof. The third gate 300 is included.

First, the second gate 200 is a core configuration of the present invention, and has a second shape 210 having a predetermined shape, and the lower end of the second frame 210 opposite to the third gate 300. And a second support part 270 that is mounted in a direction toward the first gate 100 to support the right front end of the second frame 210, on an upper end of the first side surface of the second frame 210. It is continuously mounted in the longitudinal direction, the second sliding portion 221 for guiding the first sliding portion 120, the upper side of the second side of the second frame 210, opposite to the first gate It is mounted in the direction, and includes a third sliding unit 222 which is guided and moved by the fourth sliding unit 320 and the interlocking portion 250 mounted on the lower side of the second frame 210.

The second frame 210 may be manufactured in various forms according to a user's taste, and may be decorated with various patterns.

The second support part 270 is for supporting the second frame 210, and as shown in FIGS. 1 and 2, the lower part of the second frame 210 is opposite to the third gate 300. And is biased in a direction toward the first gate 100. A wheel is mounted at the lower end of the second support part 270 to move along the rail 400 installed on the ground 910.

The second sliding unit 221 supports the first frame to be supported by the second frame, and performs a function of allowing the first frame to naturally slide while being in contact with the first side of the second frame. To this end, the second sliding part 221 may be formed in a rail shape capable of guiding the first sliding part 110 formed in a roller shape. One end of the first frame is supported by the first support unit 170, and the other side of the first frame is slid with the roller-shaped first sliding unit 110 mounted on the second sliding unit 221. The 110 may be stably moved in a standing state on the ground 910. The shape of the first sliding part and the second sliding part may be configured to be opposite to each other.

The third sliding unit 222 allows the second frame to be supported by the third frame, and performs the function of allowing the second frame to naturally slide in contact with the first side of the third frame. To this end, the second sliding part 221 may be formed in a roller shape. In this case, the third sliding part 222 may be moved while being guided by the fourth sliding part 320 formed in a rail shape. The shapes of the third sliding part 222 and the fourth sliding part 320 may also be configured to be opposite to each other.

The interlocking unit 250 is to allow the second gate 200 and the third gate 300 to move in association with the first gate 100. For this interlocking unit 250, is rotatably and the second frame 210 and a pair of rollers (240, 240) which are respectively mounted on both ends of the side of and a belt that is fastened to the roller of the pair ( 260, and the belt 260 is connected to the first gate 100 and the second gate 200. Since the linking unit 250 is mounted in the groove formed on the lower surface of the second frame 210, it is not exposed to the outside. That is, the linking unit 250 is mounted in the groove formed along the longitudinal direction of the second frame 210 on the lower surface of the second frame 210.

The pair of rollers 240 and 240 are mounted at both left and right ends of the second frame 210. The belt 260 is rotated while being wound on the rollers 240 and 240. Roller grooves 241 may be formed in the rollers 240 and 240 so that the belt 260 may be rotated more stably along the rollers 240 and 240, and the belt 260 may correspond to the roller grooves 241. Protrusions may be formed.

In addition, the handle 160 is mounted in a direction opposite to the third gate of the first frame. Accordingly, the user may move the first gate in the direction of the arrow as shown in FIG. 1 by using the handle 160.

Next, the first gate 100 may include a first frame 110 having a predetermined shape and a lower end of the first frame mounted in a direction opposite to the third gate to support the first frame. The first support part 170 and the lower end of the first sliding part 120 and the first side of the first frame are mounted in a direction toward the third gate among the upper ends of the first side of the first frame. Among them, a first fastening part 140 is mounted in a direction toward the first gate, protrudes from the lower end, and is connected to the belt 260.

Like the second frame 210, the first frame 110 may be manufactured in various forms according to a user's taste, and may be decorated with various patterns.

As shown in FIGS. 1 and 2, the first support unit 170 supports the first frame and is mounted in a direction opposite to the third gate of the lower end of the first frame. . The wheel 180 is mounted at the lower end of the first support part 270 to move along the rail 400 installed on the ground 910.

The first sliding part 120 is fastened to the second sliding part 221 as described above. In FIG. 2, the first sliding part 120 having a roller shape is illustrated.

The first fastening portion 140, one end is connected to the first frame, the other end of the first connection bar 141 and the first connection bar 141 in contact with the belt 260 It includes a first fixing pin 145 for fixing the other end to the belt 260. In addition, the first fastening part 140 faces the other end of the first connection bar 141 at the boundary of the belt 260 and is connected to the belt 260 by the first fixing pin 145. It may further include a first auxiliary plate to be fixed. Since the first fastening part 140 is connected to the first frame 110 and the belt 260, when the first gate 100 is moved left and right, as shown in FIG. It can be moved left and right. This operation will be described in detail with reference to FIGS. 3 to 5 below.

Finally, the third gate direction 300 toward the first support part 170 of the third frame 310, the third frame 310, the first gate 110 of the lower end of which has a predetermined shape A third support part 371 that is attached to the third support part 371, which supports the right front end (see FIG. 4) of the third frame 310, and a lower end of the third frame 310, the first of the first gate 110. The fourth support part 372, which is mounted in a direction opposite to the support part 170 and supports the left rear end (see FIG. 4) of the third frame 310, of the first side surface of the third frame 310. The first gate of the lower end of the first side of the fourth sliding part 320 and the third frame 310 for guiding the third sliding part 222 is mounted continuously in the longitudinal direction. It is mounted in the direction toward 110, and protrudes from the lower end, and includes a second fastening portion 340 connected to the belt 260.

Like the second frame 210, the third frame 310 may be manufactured in various forms according to a user's taste, and may be decorated with various patterns.

The third support part 371 is for supporting the right front end (see FIG. 4) of the third frame 310, and as shown in FIG. 1, the first gate of the lower end of the third frame 310. It is attached to the direction toward the 1st support part 170 of 110. As shown in FIG. The lower end of the third support 371 is mounted with a wheel, and can move along the rail 400 installed on the ground 910.

The fourth support part 372 is also for supporting the left rear end (see FIG. 4) of the third frame 310, and is opposite to the first support part 170 of the first gate among the lower ends of the third frame 310. It is mounted on. Wheels are also mounted on the lower end of the fourth support part 372 to move along the rail 400 installed on the ground 910. In the case of the present invention shown in FIG. 1, one side (left rear end) of the third gate 300 to which the fourth support part 372 is mounted is fixed to the pillar 920 of the fence. Therefore, the user can open and close the interlocking gate according to the present invention by moving the first gate 110 in the direction of the arrow.

The fourth sliding part 320 is fastened to the third sliding part 222 as described above. In FIG. 2, the fourth sliding part 320 is continuously mounted to the upper end of the first side surface of the third frame 310 in the longitudinal direction, and the roller It is shown in a form that can guide the third sliding portion 222 formed in the shape.

The second fastening portion 340, one end is connected to the right front end (see Fig. 4) of the lower end of the third frame 310, the other end is in contact with the belt 260 second connection bar ( 341 and a second fixing pin 345 for fixing the other end of the second connecting bar 341 to the belt 260. In addition, the second fastening part 340 faces the other end of the second connecting bar 341 with respect to the belt 260 and is connected to the belt 260 by the second fixing pin 345. It may further include a second auxiliary plate 343 is fixed. Since the second fastening part 340 is connected to the right front end of the third frame 310 and the belt 260, when the second gate 100 is moved to the left and right together with the first gate 100. The third frame 310 may also be moved left and right. This operation will be described in detail with reference to FIGS. 3 to 5 below.

On the other hand, in the above, it has been described that the sliding parts 120, 221, 222, 320 are formed only on the upper end of the first to third gate, in another example of the present invention, as shown in FIG. Also, sliding parts 130, 231, 232, and 330 as described above may be formed at lower ends of the first to third gates.

4 to 6 are exemplary diagrams for explaining a state in which the interlocking gate according to the present invention operates, and it can be seen that the interlocking gate according to the present invention is unfolded as shown in FIG. 4 through FIG. have. Unfolding the interlocking gate according to the invention means that the entrance and exit are closed. Accordingly, if the following description is operated in reverse, that is, if the process proceeds to the same state as in FIG. 4 through FIGS. 6 to 5, the interlocking gate according to the present invention may open the doorway.

In the following description, the present invention will be described with an example in which the third gate 300 of the interlocking gate according to the present invention is fixed to the pillar 920 of the fence as shown in FIG. 4. That is, in order for the present invention to be used, either the first gate or the third gate must be fixed to the pillar.

First, as shown in FIG. 4, the first gate 100, the second gate 200, and the third gate 300 constituting the interlocking gate according to the present invention are superimposed. It shows the open state.

In this case, the second frame 210 overlaps with the third frame 310 such that one side on which the third sliding part 222 is mounted is adjacent to the fourth support part 372 of the third gate 300. The first frame 110 is overlapped with the second frame 210 such that one side on which the first sliding part 120 is mounted is adjacent to the fourth support part 372 of the third gate 300.

In addition, the first fastening part 140, which is mounted on the first frame 110, and includes the first connecting bar 141 and the first fixing pin 145, has a fourth support part 372 among the second frames. It is located adjacent to the first roller 241 mounted in the direction adjacent to the. The second fastening part 340, which is mounted on the third frame 310 and includes a second connecting bar 341 and a second fixing pin 345, is adjacent to the third support part 371 of the second frame. It is located adjacent to the second roller 242 mounted in the direction.

In addition, the first support part 170, the second support part 270, and the third support part 371 are positioned in an overlapped state in order in the state in which the doorway is opened.

Next, when the user grasps the handle 160 mounted to the first gate and pushes the first gate 100 in the direction of the arrow shown in FIG. 5, the first support part 170 moves in the direction of the arrow and the first Frame 110 also moves in the direction of the arrow (right).

The first sliding part 120 mounted on the first frame 110 in a direction opposite to the first support part 170 is in an arrow direction along the second sliding part 221 formed in the second frame 210. Go to.

As the first frame 110 moves in the direction of the arrow, the first fastening part 140 also moves in the direction of the arrow, and the belt 260 connected to the first fastening part 140 also moves in the direction of the arrow.

As the belt 260 connected to the first fastening part 140 moves in the direction of the arrow, the pair of rollers 240 and 240 rotate in the clockwise direction as a whole.

As the belt 260 rotates clockwise, the second fastening portion 340 connected to the belt 260 must also move along the belt 260 in the opposite direction of the arrow, that is, in the direction of the pillar 920. . However, since the third gate on which the second fastening portion 340 is mounted is fixed to the column 920, instead of moving the second fastening portion 340 in the direction opposite to the arrow, the second fastening portion 340 is moved by the reflection action. The two gates 200 move in the direction of the arrow.

That is, since the first fastening part 140 and the second fastening part 340 are fixed to the belt 260 at regular intervals, as much as the first gate 100 moves in the arrow direction, the second gate ( 200) also moves in the direction of the arrow.

Finally, if the movement as described above is made continuously, as shown in Figure 6, the second frame 210, one side on which the third sliding unit 222 is mounted is the third gate 300; The first frame 110 moves to a position adjacent to the first support part 371, and one side on which the first sliding part 120 is mounted is adjacent to the second support part 270 of the second gate 200. Go to the location.

In addition, the first fastening parts 140, 141, and 145 mounted on the first frame 110 and composed of the first connecting bar 141 and the first fixing pin 145 are second among the second frames. It is positioned to be adjacent to the second roller 242 mounted in the direction adjacent to the support portion 270. The second fastening portions 340, 341, and 345 mounted on the third frame 310 and including the second connecting bar 341 and the second fixing pin 345 are disposed in a direction adjacent to the third frame. It is located adjacent to the first roller 241 which is mounted.

As described above, the first to third gates are fully unfolded, and the interlocking gate according to the present invention closes the entrance and exit.

That is, the present invention, as described above, the first by the interlocking portion 250 mounted on the lower side of the second gate 200 and the first fastening portion 140 and the second fastening portion 340 connected thereto, The gate to the third gate may move in conjunction.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, it is to be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

100: first gate 200: second gate
300: third gate

Claims (10)

delete delete delete delete The first frame 110 having a predetermined shape, the first support portion 170 which is mounted on the right end of the lower end of the first frame 110 to support the first frame 110, and the first The first sliding part 120 mounted on at least one of the upper end and the lower end of the first side of the frame 110 and the interlocking part 25 protruding from the lower end of the first side of the first frame 110. A first connecting bar 141 connected to the belt 260 of the first and a first fixing pin 145 for fixing the end of the first connecting bar 141 to the belt 260 A first gate 100 including a fastening part 140;
The first side is provided with a second sliding part 221 which is engaged with the first sliding part 120 and slides, the second side is formed with a third sliding part 222, and the lower side is rotatable. And a pair of rollers 240 and 240 mounted at both ends of the lower side of the second frame 210, respectively, and coupled to the pair of rollers 240 and 240, and the first gate 100 and The second gate 200 having an interlocking part 250 including a belt 260 connected by the second gate 200, the first fastening part 140, and the second fastening part 340, respectively. ; And
A third frame 310 having a predetermined shape, a third support part 371 mounted on the right end of the lower end of the third frame 310 to support the third frame 310, and the third The fourth support part 372 of the lower end of the frame 310, which is mounted on the left rear end opposite to the third support part 371 and supports the third frame 310, and the third frame 310 of the third frame 310, respectively. A fourth sliding part 320 for guiding the third sliding part 222 by slidingly coupled to the third sliding part 222 and continuously mounted to the upper end of the first side in the longitudinal direction, and the third A second fixing for protruding from the lower end of the first side of the frame 310 and the second connecting bar 341 connected to the belt 260 and the other end of the second connecting bar to the belt 260 Interlocking crab including a third gate 300 including a second fastening portion 340 including a pin 345 Bit. The first frame 110 having a predetermined shape, the first support portion 170 is mounted to the right end of the lower end of the first frame 110 to support the first frame 110, and the first The first sliding part 120 mounted on at least one of the upper end and the lower end of the first side of the frame 110 and the belt 260 of the interlocking part 25 protruding from the lower end of the first frame 110. A first fastening part 140 including a first fixing bar 141 connected to the first fixing bar 141 and a first fixing pin 145 for fixing the end of the first connecting bar 141 to the belt 260. A first gate 100 including);
A second support part 270 mounted on the right end of the second frame 210 having a predetermined shape and a lower end of the second frame 210 to support the second frame 200, and the second frame ( On the first side of the 210 is continuously mounted in the longitudinal direction at the upper end and the second sliding portion 221 is coupled to the first sliding portion 120 and sliding, and on the second side of the second frame 210 The third sliding part 222 is mounted in a direction opposite to the first support part 170 of the first gate 100 and is guided and moved by the fourth sliding part 320, and has a lower side surface. And a pair of rollers 240 and 240 mounted at both ends of the lower side of the second frame 210 and rotatably coupled to the pair of rollers 240 and 240 so as to be rotatable. The belt 260 connected by the 100 and the second gate 200, the first fastening part 140, and the second fastening part 340, respectively. The second gate 200 with the interworking unit 250, which includes the formation; And
A third frame 310 having a predetermined shape, a third support part 371 mounted on the right end of the lower end of the third frame 310 and supporting the third frame 310, and the third Among the lower ends of the third frame 310, the fourth support part 372 mounted in a direction opposite to the third support part 371 and supporting the third frame 310, and the third frame 310 of the third frame 310. A fourth sliding part 320 for guiding the third sliding part 222 by slidingly coupled to the third sliding part 222 so as to be continuously mounted on the first side in the longitudinal direction, and the third frame; The second fixing bar protruding from the lower end of the first side of the 310 is connected to the belt 260 and the second fixing for fixing the other end of the second connecting bar to the belt 260 Interlocking crab including a third gate 300 including a second fastening portion 340 including a pin 345 Bit. delete The method of claim 6,
The roller 240 has a roller groove 241 is formed,
Interlock gate, characterized in that the belt 260 is formed with a projection corresponding to the roller groove (241). The method of claim 6,
The linking unit 250,
On the lower side of the second frame 210, the interlocking gate, characterized in that mounted in the groove formed along the longitudinal direction of the second frame (210). The method of claim 6,
An interlocking gate according to claim 1, wherein sliding parts corresponding to the first sliding part 120 to the fourth sliding part 320 are mounted on lower ends of the first to third frames 110 to 310, respectively.

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