KR20190115675A - Multi-vision install system - Google Patents

Abstract

The present invention relates to a multivision installation system for installing a multivision system consisting of monitors with four coupling grooves on the rear surface. The system comprises: a frame portion for supporting a monitor in correspondence with each monitor; a bracket portion coupled to the rear surface of each monitor constituting the multivision, and installing the monitor on the frame portion; and a control unit including a rod having one end inserted into and coupled to the coupling groove formed in the rear surface of the monitor, a leveler having a cylindrical shape through which the rod is coupled, the leveler being composed of a cylindrical body, a head having a diameter larger than the body, and a locking groove having a diameter smaller than the body between the head and the body, and a bolt having a through hole formed with a screw thread on the inner circumferential surface of a central shaft which is coupled to the other end of the rod penetrating the leveler to control forward and backward movement of the rod. The bracket portion includes a horizontal bracket coupled to the frame portion and a vertical bracket coupled to the coupling groove. Coupling holes are formed in the vertical bracket at locations corresponding to the locations of the four coupling grooves, respectively, and a locking protrusion of the leveler is coupled to the coupling holes.

Description

Multivision installation system {MULTI-VISION INSTALL SYSTEM}

The present invention is a multi-vision installation multi-vision installation configured to install each monitor constituting a multi-vision to adjust the balance of the front, rear, left, and right of each monitor in a simple manner.

Multi vision is a presentation facility that uses a device that combines screens to form large displays or to combine them into one. Sometimes it refers to the appearance of several images in a frame. General term for multi-screen or multi-image representation. ([NAVER Encyclopedia] Multivision [multivision] (IT Terminology Dictionary, Korea Information and Communication Technology Association))

Various communication means have been developed and provided according to the development of electronic communication technology, and multimedia that transmits a regular broadcast or an advertisement broadcast using this technology has been widely used. Such multimedia includes DID, which is a public information guide system installed in a waiting room of a bus terminal or a public facility's plaza to provide normal regular broadcasting or to provide information related to municipal administration or public service advertisement. DID is an abbreviation of Digital Information Display. Various office building guides, subway bus routes, emergency evacuation information for indoor and outdoor departments, train stations, terminals, boarding stations, shopping centers, airports, parks, hotels, exhibition halls, etc. It is a display device that provides advertisements, images, and sound along with public interest campaigns, street cheering, or election promotion. It is a composite video device with longer lifespan, improved brightness, and enhanced durability of the panel itself.

The DID system is currently in the spotlight as a new alternative advertising medium in the display industry and market, and is emerging as a new paradigm of signage board. In addition, the DID system can show a variety of multimedia images, unlike the existing offline advertising media mainly provide a limited information, such as stop or rolling, or LED signboard, digital signage or digital signage (Digital Signage) It is also called a public display.

As the monitor of the DID system enters the generation that the flat panel monitors mainly do, when the flat panel monitor is installed on the wall, ceiling, or floor, there is an installation device that can stably and easily install the flat panel monitor according to the installation surface. The trend is developing a lot. Among them, the flat panel monitor installed on the wall fixes the monitor to the wall by installing the latch on the monitor side, installing the bracket on the wall, and then fixing the latch and the bracket.

In the case of a conventional DID having a multi-monitor, when a plurality of monitors are installed on a wall, a means for accurately adjusting the front, rear, left, right, top and bottom heights and depths of the monitor is required. If you do not correctly adjust the front, rear, left, right, top and bottom height and depth of the individual monitors, the monitors are protruded or retracted so that they are not good in appearance. There is a problem.

Republic of Korea Patent No. 10-1097356 Republic of Korea Patent No. 10-1591930 Republic of Korea Patent No. 10-1135863

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a multi-vision installation system that can adjust the front, rear, left, and right positions of the monitor constituting the multi vision by a simple method.

Multi-vision installation system according to an embodiment of the present invention for achieving the above object,

In the multi-vision installation system that installs a multi-vision consisting of monitors that are provided with four coupling grooves on the back,

A frame unit including a horizontal frame and a vertical frame for supporting the monitor corresponding to each monitor;

A bracket unit coupled to a rear surface of each monitor constituting the multi-vision and for installing the monitor in the frame unit; And

A rod having one end inserted into and coupled to a coupling groove disposed on the rear surface of the monitor, and a cylindrical shape through which the rod penetrates, and has a cylindrical body and a head larger in diameter than the body, and between the head and the body. A control part including a leveler composed of a locking groove having a small diameter, and a bolt having threaded through-holes formed on an inner circumferential surface of a central axis for engaging the other end of the rod penetrating the leveler to adjust the rod forward and backward; ,

The bracket part includes a horizontal bracket coupled to the frame portion and a vertical bracket coupled to the coupling groove, wherein the coupling holes are respectively formed at positions corresponding to the positions of the four coupling grooves on the vertical bracket, The engaging jaw of the leveler is characterized in that the coupling.

The coupling hole of the bracket portion is coupled to the longitudinal direction in which the head of the leveler does not penetrate the large diameter through which the body penetrates, and the body does not penetrate the lower body under the large diameter and the locking groove can be seated. Characterized in that formed in the shape of a double diameter long hole.

The horizontal frame of the frame portion is formed in the shape of a square pillar in which a slot is formed in the longitudinal direction in the center of each side,

The horizontal bracket of the bracket portion is characterized in that the locking jaw is formed on the flange and the flange end vertically rearward at the end, and the flange is coupled to the frame portion such that the flange is inserted into the slot to move left and right.

The vertical bracket of the bracket portion is formed with a flange in the vertical rear at the bottom under the coupling hole 211 formed in the lower portion, a bolt hole is formed at a position corresponding to the center of the body of the leveler inserted into the coupling hole, the bolt hole It is characterized in that the wrench bolt to rise from below and finely adjust the body up and down.

According to another embodiment of the present invention,

In the multi-vision installation system that installs a multi-vision consisting of monitors that are provided with four coupling grooves on the back,

A frame unit including a horizontal frame and a vertical frame for supporting the monitor corresponding to each monitor;

A bracket unit coupled to a rear surface of each monitor constituting the multi-vision and for installing the monitor in the frame unit; And

A rod having one end inserted into and coupled to a coupling groove disposed on the rear surface of the monitor, and a cylindrical shape having a through hole through which the rod penetrates, and has a cylindrical body and a head having a diameter larger than the body and between the head and the body. The leveler is composed of a locking groove of a smaller diameter than the body and penetrates to the through-hole position on one side of the body to form a tab hole, a tab screw coupled to the tab hole to fix the rod, and the forward and backward movement of the rod. An adjusting portion comprising a nut engaging the rear of the leveler to adjust,

The bracket part includes a horizontal bracket coupled to the frame portion and a vertical bracket coupled to the coupling groove, wherein the coupling holes are respectively formed at positions corresponding to the positions of the four coupling grooves on the vertical bracket, It provides a multi-vision installation system to which the locking step of the leveler is coupled.

According to another embodiment of the present invention,

A cylindrical shape in which a through hole is formed in the center of the longitudinal direction so that a rod formed with a thread on the outer circumferential surface thereof may be penetrated therethrough. A cylinder having a larger diameter than the body and the head having a diameter larger than the body, and a diameter smaller than the body between the head and the body. Consists of a groove, the rear of the locking groove provides a leveler that is formed with a bolt groove to which the bolt can be coupled.

According to another embodiment of the present invention,

A cylindrical shape in which a through hole is formed in the center of the longitudinal direction so that a rod formed with a thread on the outer circumferential surface thereof can be penetrated therethrough. It provides a leveler comprising a groove and a tab hole is formed through one side of the body to the through-hole position and is coupled to the tab hole to secure the rod.

According to the means for solving the above-described problems, it is possible to provide a multi-vision installation system that can adjust the position of the individual monitors constituting the multi-screen system back and forth, horizontally in a simple manner.

1 is a diagram illustrating a rear surface of a monitor installed in a multi-screen system.
2 is a rear view showing a multi-vision installation system according to a first embodiment of the present invention.
3 is a rear view illustrating a structure for installing one monitor of the multi-vision installation system according to the first embodiment of the present invention.
4 is a front view illustrating the bracket of the multivision installation system of FIGS. 2 and 3.
5 is a partial perspective view illustrating a state in which a leveler is coupled to the bracket of FIG. 4.
6 is a side view showing an adjustment unit of the multi-vision installation system according to a second embodiment of the present invention.
7 is an exploded cross-sectional view of FIG. 5.
8 is a cross-sectional view showing an adjustment unit of the multi-vision installation system according to the third embodiment of the present invention.
9 is a cross-sectional view showing a state in which the bracket portion is coupled to the back of the monitor by the adjustment unit in the multi-vision installation system according to a second embodiment of the present invention.
FIG. 10 is a cross-sectional view taken along line AA ′ of FIG. 3.
11 is a cross-sectional view illustrating a monitor coupled to a multi-vision installation system according to a fourth exemplary embodiment of the present invention.

Hereinafter, a multi-vision installation system according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

The same elements in the drawings are shown by the same reference numerals and symbols as possible even if shown on different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, when a part is said to "include" a certain component, this means that it may further include other components, except to exclude other components unless otherwise stated.

1 is a diagram illustrating a rear surface of a monitor installed in a multi-screen system, FIG. 2 is a rear view of a multi-vision installation system according to a first embodiment of the present invention, and FIG. 3 is a first embodiment of the present invention. FIG. 4 is a rear view showing a structure for installing a monitor of one of the multi-vision mounting systems, FIG. 4 is a front view showing the bracket of the multi-vision installation system shown in FIG. 3, and FIG. 5 is a leveler of the bracket shown in FIG. 4. Figure 6 is a partial perspective view showing a combined state, Figure 6 is a side view showing the adjustment of the multi-vision installation system according to a second embodiment of the present invention, Figure 7 is an exploded cross-sectional view of Figure 5, Figure 8 is a third embodiment of the present invention 9 is a cross-sectional view showing an adjustment unit of the multi-vision installation system according to an example, and FIG. 9 is a bracket portion of the multi-vision installation system according to the second embodiment of the present invention. 10 is a cross-sectional view showing a state coupled to the, Figure 10 is a cross-sectional view cut along the line AA 'of Figure 3, Figure 11 shows a state in which the monitor is coupled to the amalgamvision installation system according to a fourth embodiment of the present invention It is a cross section.

1 is a view showing the back of the monitor 10 installed in the multi-vision installation system. As shown in FIG. 1, four coupling grooves 11 for installing the monitor 10 are formed at the rear of the monitor 10 constituting the multivision. According to the size of the screen device, four coupling grooves 11 are formed at intervals of 400 mm or 600 mm for the situation room installation screen, 200 mm for the TV, and 100 mm for the work monitor.

FIG. 2 is a diagram illustrating a multi-vision installation system in which 6 monitors, 3 × 2, 3 horizontally, 2 vertically, are installed. As shown in FIG. 2, the multi-vision installation system according to the exemplary embodiment of the present invention includes a frame part 100, a bracket part 200, and an adjusting part 300.

3 is a diagram illustrating a structure for separately installing a monitor of the multi-vision installation system of FIG. 2. As shown, the frame portion 100 includes upper and lower horizontal frames 110 and 120 and left and right vertical frames 130 and 140, and the upper and lower horizontal frames 110 and 120 correspond to left and right vertical frames 130 and 140. The inner side, for example bolting or riveting or screwing together to form a rectangular grid. In FIG. 3, a bolt 150 has been applied. The slots 111 and 121 may be formed along the longitudinal direction of each surface in the shape of a rectangular pillar in the horizontal frames 110 and 120. The horizontal frames 110 and 120 and / or the vertical frames 130 and 140 may employ a V-shaped frame in which slots are formed in the length direction of each surface of the square pillar.

The bracket unit 200 is coupled to the rear surface of the monitor 10 to couple the monitor 10 to the frame unit 100. As shown in FIGS. 3 and 4, the bracket 200 has a rectangular shape, and horizontal brackets 220 are spaced apart from each other so as to be coupled to the slots 111 and 121 of the upper and lower horizontal frames 110 and 120, respectively. The vertical brackets 210 are formed at the upper and lower ends of the leveler 310 coupling holes 211 of the adjustment unit 300 to be described later, respectively. The coupling holes 211 are formed at positions corresponding to the arrangement positions of the four coupling grooves 11 formed on the rear surface of the monitor 10, respectively. That is, the shape and size of the frame part 100 and the bracket part 200 are set corresponding to the size of the monitor 10 and the arrangement positions of the four coupling grooves 11 formed on the back of the monitor 10. As shown in Figure 4, the coupling hole 211 is formed in the long hole along the vertical direction. The coupling hole 211 has a large diameter through which the body 312 of the leveler 310 can pass, and a locking groove 313 between the head 311 and the body 312 with a diameter that the body cannot pass through. It is preferable that the small diameter to be seated is formed in a shape that is combined. As illustrated in FIG. 10, the lower horizontal bracket of the horizontal bracket 220 is bent vertically to form a first flange 230. A latching jaw 231 bent vertically downwards is formed at an end of the first flange 230 to be inserted into and caught in the slot 121 of the lower frame 120. The upper horizontal bracket of the horizontal bracket 220 is formed with a second flange 240 bent vertically. A locking jaw 241 bent downward at the end of the second flange 240 is formed to be inserted into the slot 111 of the upper frame 110 to be caught. The third flange 250 has a horizontal bracket 220 so as to be spaced apart by the distance between the slot 111 and the end of the frame 110 downward from the second flange 240 to support the bottom surface of the frame 110. It may be formed to protrude in the vertical direction. A bolt hole 251 is formed at a position corresponding to the slot of the bottom of the frame 110 to fix the frame part 100 and the bracket part 200. As shown in FIGS. 5 and 10, the vertical bracket 210 is formed with a fourth flange 260 vertically rearward at the bottom under the lower coupling hole 211, and a leveler 310 inserted into the coupling hole 211. A bolt hole 261 is formed at a position corresponding to the center of the body 312 of the wrench, and the bolt hole 261 rises from the bottom and pushes the body 312 upward and downward to support and finely adjust the wrench bolt 510. And nut 520 are coupled.

6 and 7, the adjusting unit 300 of the multi-vision installation system according to the second embodiment of the present invention will be described. As shown, the adjuster 300 includes a leveler 310, a rod 320, and bolts 330 coupled thereto. The rod 320 is threaded in the body, one end (a) is inserted into the coupling groove 11 of the back of the monitor 10, the other end (b) is coupled through the leveler 310 and the bolt 330 . The leveler 310 has a cylindrical shape having a first through hole 314 formed in a longitudinal direction at the center thereof, and has a cylindrical body 312, a head 311 having a larger diameter than the body 312, and a head 311. The body 312 is composed of a locking groove 313 of a smaller diameter than the body 312. The bolt 330 has a third through hole 331 through which the rod 320 can be coupled by passing through the head and the threaded portion, and the threaded portion of the bolt 330 is formed at the lower end of the body 312 of the leveler 310. A second through hole 315 of a corresponding size is formed so that can be combined. Preferably, the first through hole 314 and the third through hole have a diameter and a thread corresponding to the rod 320, and the third through hole has a diameter and a thread corresponding to the threaded portion of the bolt 330. . By operating the bolt 330, the leveler 310 is moved forward or backward in the front and rear of the rod 320, so that the monitor 10 can be finely adjusted forward or backward with respect to the bracket 200.

An adjustment unit 300 ′ of the multi-vision installation system according to the third embodiment of the present invention will be described with reference to FIG. 8. Since the same reference numerals as in FIGS. 6 and 7 represent the same configuration, redundant descriptions will be omitted. The tab hole 316 is formed at one side of the body 312 of the leveler 310, and the fixing screw 350 is coupled to fix the leveler 310 to the rod 320. 6 and 7 omit the bolt 330 having the through hole, adjust the forward and backward of the rod 320 with the nut 360, and then use the set screw 350 to leveler 310 on the rod. Will be fixed. According to the third embodiment, it is not necessary to separately form a second through hole corresponding to the diameter of the threaded portion of the bolt 330 at the rear end of the leveler 310, and the rod 320 penetrates and engages in the center thereof. Since the bolt 330 in which the third through hole is formed can be omitted, the cost can be reduced. The nut 360 engages with the rod 320 behind the trunk 312, and the leveler 310 moves forward and backward in front of and behind the rod 320 by the rotation of the nut 360 to finely move forward or backward in the monitor 10. You can adjust it.

9 is a cross-sectional view showing a state in which the bracket 200 of the multi-vision installation system is coupled with the monitor 10 by using the adjustment unit 300 according to the second embodiment of the present invention. As shown, first, one end (a) of the rod 320 is inserted into the coupling groove 11 of the back of the monitor 10. It is arranged to engage the engaging groove 313 of the leveler 310 in the coupling hole 211 of the bracket 200. The rod 320 penetrates and couples the through hole 314 of the leveler 310. The bolt 330 having the through hole 331 is coupled to the other end b of the rod 320, and the user adjusts the position of the leveler 310 with respect to the rod 320 by adjusting the bolt 330. The forward and backward movements of the corresponding positions (upper right side, upper left side, lower right side, lower left side) of (10) can be adjusted. Next, the wrench bolt 510 located below the leveler 310 is turned to finely adjust the height of the leveler 310 to adjust the level of the monitor 10.

10 is a view showing a state in which the frame portion 100, the bracket 200, the leveler 310 and the wrench bolt 510 of the multi-vision installation system according to the third embodiment of the present invention are coupled. The first flange 230 and the locking jaw 231 of the lower horizontal bracket 220 are inserted into and coupled to the slot 121 of the lower frame 120 and the locking jaw 241 of the second flange 240 of the upper horizontal bracket 220. ) Is inserted into and coupled to the slot 111 of the upper frame 110. After passing the body of the leveler 310 through the large diameter of the coupling hole 211 of the bracket 200, the locking jaw 313 is positioned at a small diameter, and one end (a) of the rod 320 is located at the rear of the monitor 10. Inserted into the coupling groove 11, the other end (b) passes through the first through hole 314 of the leveler 310. By operating the nut 360, the rod 320 can be moved forward or backward in the front and rear of the leveler 310. After adjusting the forward and backward of the corresponding positions (upper right side, upper left side, lower right side, lower left side) of the monitor 10, although not shown, the fixing screw 350 is used to fix the rod. Next, the wrench bolt 510 located below the leveler 310 is turned to finely adjust the height of the leveler 310 to adjust the level of the monitor 10. 340 shows a washer in the figure.

11 is a side cross-sectional view showing a multi-vision installation system according to a third embodiment of the present invention. 11 is a pop-up style multivision in which the monitor 10 protrudes forward when the monitor 10 is pushed from the front. This style is applied when there is insufficient space behind the frame part 100 '. Long holes are formed in the vertical frame and the vertical bracket of each of the frame part 100 'and the bracket part 200' in the longitudinal direction, and an X-shaped connecting rod having an end portion is coupled to the long holes. An end portion of the X-shaped connecting rod moves along the long hole to pop up / down, so that the detailed description will be omitted.

According to the multi-vision installation system according to the embodiments of the present invention configured as described above, it is possible to install the multi-vision monitors in a simple configuration, and after the monitor is installed, the bolts to advance back and forth to the front and rear of the threaded rod 320 is bolted 330 can be easily achieved by leveling the monitors 10 so that they do not protrude or retract, and by turning the wrench bolt 510 located below the leveler 310 disposed below, the height of the leveler 310 can be adjusted. By finely adjusting the level of the monitor 10 can be adjusted.

10: monitor 11: coupling groove
100: frame portion
110: upper horizontal frame, 120: lower horizontal frame
111: slot, 121: slot
130: left vertical frame, 140: right vertical frame
150: bolt
200: bracket portion
210: vertical bracket
211: coupling hole
220: horizontal bracket
230: first flange, 240: second flange
231: jamming jaw, 241: jamming jaw
250: third flange, 260: fourth flange
251: bolt ball, 261: bolt ball
300: adjusting unit
310: Leveler
311 head
312: Torso
313: hanging groove
314: first through hole
315: second through hole
316: tap hole
320: load
330: Bolt
331: through the third
340 washer
350: set screw
360: Nut
510: wrench bolt, 520: nut
610 X-shaped rod

Claims (7)

In the multi-vision installation system for installing a multi-vision consisting of monitors formed with four coupling grooves on the back,
A frame unit supporting the monitor;
A bracket unit coupled to a rear surface of each monitor constituting the multi-vision and for installing the monitor in the frame unit; And
A rod having one end inserted into and coupled to a coupling groove disposed on the rear surface of the monitor, and a cylindrical shape through which the rod penetrates, and has a cylindrical body and a head larger in diameter than the body, and between the head and the body. A control part including a leveler composed of a locking groove having a small diameter, and a bolt having threaded through-holes formed on an inner circumferential surface of a central axis for engaging the other end of the rod penetrating the leveler to adjust the rod forward and backward; ,
The bracket part includes a horizontal bracket coupled to the frame portion and a vertical bracket coupled to the coupling groove, wherein the coupling holes are respectively formed at positions corresponding to the positions of the four coupling grooves on the vertical bracket, The multi-vision installation system is coupled to the locking step of the leveler. The method of claim 1,
The coupling hole has a large diameter through which the head of the leveler does not penetrate and the body penetrates and a small diameter through which the body does not penetrate and the locking groove can be seated in the longitudinal direction. Multi-vision installation system, characterized in that formed in the long hole shape. The method of claim 1,
The frame portion is composed of a horizontal frame and a vertical frame,
The horizontal frame of the frame portion is formed in the shape of a square pillar in which a slot is formed in the longitudinal direction in the center of each side,
The horizontal bracket of the bracket unit is a multi-vision, characterized in that the locking jaw is formed on the flange and the flange end in the vertical vertical to the end and the flange is coupled to the slot to the left and right movable by inserting the flange into the slot Installation system. The method of claim 2,
The vertical bracket of the bracket portion has a flange formed in the vertical rear at the bottom under the coupling hole formed in the lower portion, a bolt hole is formed at a position corresponding to the center of the body of the leveler inserted into the coupling hole, the bolt hole in the downward Multi-vision installation system, characterized in that the wrench bolt for adjusting the up and down to adjust the body up and down. In the multi-vision installation system that installs a multi-vision consisting of monitors that are provided with four coupling grooves on the back,
A frame unit supporting the monitor;
A bracket portion coupled to a rear surface of the monitor constituting the multi-vision and for installing the monitor in the frame portion; And
A rod having one end inserted into and coupled to a coupling groove disposed on the rear surface of the monitor, and a cylindrical shape having a through hole through which the rod penetrates, and has a cylindrical body and a head having a diameter larger than the body and between the head and the body. The leveler is composed of a locking groove of a smaller diameter than the body and penetrates to the through-hole position on one side of the body to form a tab hole, a tab screw coupled to the tab hole to fix the rod, and the forward and backward movement of the rod. An adjusting portion comprising a nut engaging the rear of the leveler to adjust,
The bracket part includes a horizontal bracket coupled to the frame portion and a vertical bracket coupled to the coupling groove, wherein the coupling holes are respectively formed at positions corresponding to the positions of the four coupling grooves on the vertical bracket, The multi-vision installation system is coupled to the locking step of the leveler. A cylindrical shape in which a through hole is formed in the center of the longitudinal direction so that a rod formed with a thread on the outer circumferential surface thereof can be penetrated therethrough. The leveler is composed of a groove, the bolt groove is formed in the rear of the locking groove can be coupled to the bolt. A cylindrical shape in which a through hole is formed in the center of the longitudinal direction so that a rod formed with a thread on the outer circumferential surface thereof may be penetrated therethrough. A cylinder having a larger diameter than the body and the head having a diameter larger than the body, and a diameter smaller than the body between the head and the body. The leveler comprising a tab and a tab screw formed to penetrate to the through-hole position on one side of the body and coupled to the tab hole to fix the rod.