CN106641624B - Display that is a kind of inexpensive and facilitating adjusting splices adjusting bracket and adjusting method - Google Patents

Abstract

This patent is related to display splicing support field, it discloses display that is a kind of inexpensive and facilitating adjusting and splices adjusting bracket, including linear first and second supporting track, the first and second regulating mechanisms being mounted on the first track, the third and fourth regulating mechanism being mounted on the second track, first, second, third and fourth regulating mechanism is connect with a display back side, for adjusting the translation and rotation of the display and the splicing of other displays of surrounding.Adjusting bracket structure described in this patent is simple, low manufacture cost, and display backside configuration is succinct, and stability is high and can save a large amount of bracket installation space.

Description

Display splicing adjusting support with low cost and convenient adjustment and adjusting method

Technical Field

The patent relates to the field of display splicing supports, in particular to a low-cost and conveniently-adjusted display splicing adjusting support and an adjusting method.

Background

The display splicing is a mainstream method for expanding the area of the display at present, and although narrow-edge splicing seams exist among display units, the splicing seams can be ignored visually compared with the whole splicing area. In addition, the technology of the existing narrow-edge display unit is more and more mature, the width of the side frame is smaller and smaller, and the splicing display is gradually a mainstream technology of super-large screen display. Nevertheless, the key technology for determining the display effect is mainly the size of the physical gap spliced between the display units, and if the display units are not tightly attached to each other, the advanced display technology cannot make up the physical gap. Therefore, whether the splicing technology is excellent or not becomes a key for determining whether the current super-large screen display can have a good display effect or not.

The splicing of the existing display is mainly realized by adjusting a support, for example, a liquid crystal display, and after a display unit of an LCD product is installed on the support, the flatness, the verticality and the splicing gap of the display unit are adjusted by adjusting an adjusting screw on a hook. The front and rear adjusting screws of the conventional LCD display unit hook are separated. When the display unit needs to be adjusted forwards, the rear adjusting screw needs to be unscrewed, and then the front adjusting screw needs to be adjusted, or vice versa. And the conventional LCD display unit hook is either too costly or not strong enough.

The existing display splicing also adopts a professional support to realize the adjustment of a plurality of directions and angles, but the professional support not only has a complex structure, but also has high manufacturing cost. In addition, the display is installed after the adjustment is completed, and then fine adjustment is performed, so that the whole splicing operation is time-consuming and labor-consuming, and the efficiency is very low.

Disclosure of Invention

The display splicing adjusting support and the adjusting method aim to solve at least one technical defect in the prior art, and the display splicing adjusting support is simple in structure, convenient and flexible to adjust, low in cost and convenient to adjust.

The patent solves the technical problem through the following technical scheme.

The patent discloses a low-cost and conveniently-adjusted display splicing adjusting bracket, which comprises a linear first supporting track, a linear second supporting track, a linear first adjusting mechanism, a linear second adjusting mechanism, a linear third adjusting mechanism and a linear fourth adjusting mechanism, wherein the linear first supporting track and the linear second supporting track are arranged on the first supporting track, the linear first adjusting mechanism and the linear second adjusting mechanism are arranged on the second supporting track, the linear first adjusting mechanism, the linear second adjusting mechanism, the linear third adjusting mechanism and the linear fourth adjusting mechanism are connected,

the first track and the second track are fixedly arranged in parallel, and the first track and the second track are provided with a Y-axis direction perpendicular to the first track and the second track and an X-axis direction perpendicular to the plane of the first track and the second track;

the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism respectively comprise a supporting mechanism supported on the first track or the second track, a hanging mechanism connected with the display, a vertical adjusting mechanism used for adjusting the relative position of the supporting mechanism and the hanging mechanism on the Y axis, and a horizontal adjusting mechanism used for adjusting the relative position of the supporting mechanism and the hanging mechanism on the X axis;

the vertical adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism are adjusted in the same direction to form a Y-axis translation adjusting mechanism of the display together;

the horizontal adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism are adjusted in the same direction to form an X-axis translation adjusting mechanism of the display together;

the horizontal adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the horizontal adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism are adjusted reversely to form a Y-axis rotation adjusting mechanism of the display together;

the vertical adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the vertical adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism are adjusted in a reverse direction to form an X-axis rotation adjusting mechanism of the display together.

The adjusting method of the mechanism comprises the following steps:

s1, a step of installing a first support rail and a second support rail, and a step of installing a first adjusting mechanism, a second adjusting mechanism, a third adjusting mechanism and a fourth adjusting mechanism on the back side of a display;

s2, mounting the display on the first and second support rails through the first, second, third and fourth adjusting mechanisms;

s3, adjusting the display to be matched with other peripheral displays;

the step S3 specifically includes, in parallel:

s31, adjusting the vertical adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism in the same direction to enable the display to move horizontally in the Y-axis direction; or,

s32, adjusting horizontal adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism in the same direction to enable the display to move horizontally in the X-axis direction; or,

s33, reversely adjusting the horizontal adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the horizontal adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism to enable the display to rotate around the Y axis; or,

and S34, reversely adjusting the vertical adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the vertical adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism to enable the display to rotate around the X axis.

The steps S31-S34 may be specifically selected according to the adjustment purpose to be achieved in the splicing process, so as to minimize the splicing gap between the mounted display and the other displays whose peripheries are fixed, and to be located on the same plane.

According to the technical scheme, the display flatness, the verticality and the splicing gap are adjusted by matching the four adjusting mechanisms with the two parallel rails. The four adjusting mechanisms are matched with each other, so that translation in six directions, namely front, back, left, right, upper and lower directions of the display unit can be realized, rotation adjustment with the XY axis as a normal direction can be further realized, and compared with a hook structure which only can realize translation in the prior art, the hook structure further has a rotation adjusting function. And the display can be directly hung on the rail first and then adjusted, and the adjusting method is simple, convenient, flexible and easy to operate. And this patent adjust support simple structure, the cost of manufacture is low, and the dorsal part structure of display is succinct, and stability is high and can save a large amount of support installation spaces. Compared with the prior art, the method has outstanding substantive features and remarkable progress and is creative.

Drawings

Fig. 1 is a schematic structural diagram of an adjusting mechanism according to an embodiment of the present patent.

Fig. 2 is a display splicing adjustment bracket employing the adjustment mechanism shown in fig. 1.

Illustration of the drawings: the display device comprises a first supporting rail 110, a second supporting rail 120, a first adjusting mechanism 210, a second adjusting mechanism 220, a third fourth adjusting mechanism 230, a fourth adjusting mechanism 240, a display 300, a supporting mechanism 510, a hanging mechanism 520, a molded base 521, a hook main body 522, a step transition portion 523, a sliding groove 524, a vertical adjusting mechanism 530, a horizontal adjusting mechanism 540, a sliding rail 550, a fastening nut 551 and an auxiliary screw 560.

Detailed Description

To further explain the structure and operation of the present patent, the following detailed description of the patent refers to the accompanying drawings by way of example.

As shown in fig. 2, the present embodiment discloses a low-cost and easily adjustable monitor splicing adjustment bracket, which includes a first support rail 110 and a second support rail 120 that are linear, a first adjustment mechanism 210 and a second adjustment mechanism 220 that are mounted on the first rail 110, and a third adjustment mechanism 230 and a fourth adjustment mechanism 240 that are mounted on the second rail 120. The first, second, third and fourth adjusting mechanisms 210, 220, 230 and 240 are connected to the back side of the monitor 300, and the first and second support rails 110 and 120 are mounted in parallel on a spliced main supporter (not shown).

As can be seen from fig. 2, the first support rail 110 and the second support rail 120 are fixedly disposed in parallel, having a Y-axis direction perpendicular to the first support rail 110 and the second support rail 120, an X-axis direction perpendicular to a plane in which the first support rail 110 and the second support rail 120 are located, and a Z-axis direction perpendicular to the XY-axis.

In this embodiment, the first adjusting mechanism 210, the second adjusting mechanism 220, the third fourth adjusting mechanism 230, and the fourth adjusting mechanism 240 are adjusting mechanisms having the same structure, and the composition of the structure is specifically shown in fig. 1. Including a support mechanism 510 supported on the first support rail 110 and the second support rail 120, a suspension mechanism 520 coupled to the display 300, a vertical adjustment mechanism 530 for adjusting the relative positions of the support mechanism 510 and the suspension mechanism 520 in the Y-axis, and a horizontal adjustment mechanism 540 for adjusting the relative positions of the support mechanism 510 and the suspension mechanism 520 in the X-axis.

Specifically, the supporting mechanism 510 is a U-shaped sleeve hook sleeved on the first supporting rail 110 and the second supporting rail 120, the U-shaped sleeve hook can slide left and right along the first supporting rail 110 and the second supporting rail 120 in the Z-axis direction, and an auxiliary screw 560 is provided for fixing. The structure of the U-shaped sleeve hook is matched with the first supporting rail 110 and the second supporting rail 120 with square sections, so that the installation is very convenient. After the four adjusting mechanisms are fixed on the back side of the display 300, the display can be directly hung on the supporting rail, and the specific position can be adjusted in a sliding mode along the supporting rail.

The hanging mechanism 520 comprises a U-shaped base 521 sleeved on the U-shaped sleeve hook and a hook main body 522 arranged on one side of the U-shaped base, the width of the U-shaped base 521 in the X-axis direction is larger than the U-shaped sleeve hook, the size of the U-shaped base is not more than 2cm, an adjusting space in the X-axis direction is formed, and the hook main body 522 is connected with the back side of the display 300.

The vertical adjusting mechanism 530 is an up-down adjusting screw which penetrates through the U-shaped base 521 and the U-shaped sleeve hook, and one end of the up-down adjusting screw is supported on the first supporting rail 110 and the second supporting rail 120, the up-down adjusting screw is in threaded fit with the U-shaped sleeve hook, and the U-shaped base 521 is provided with a sliding groove 524 which is distributed along the X-axis direction and is used for penetrating through the up-down adjusting screw. The horizontal adjusting mechanism 540 is a front and rear adjusting screw which penetrates through the U-shaped base 521 and one end of which is supported on the U-shaped sleeve hook, and the front and rear adjusting screw is in threaded fit with the U-shaped base 521. The hook further comprises two slide rails 550 symmetrically distributed on two sides of the front and back adjusting screw 540, the slide rails 550 penetrate through the U-shaped base 521 and are fixed through a fastening nut 551, and a step transition portion 523 is arranged between the hook main body 522 and the U-shaped base 521 and used for accommodating the fastening nut 551. The step transition portion 523 forms an escape space for installing the fastening nut 551, so that the hook main body 522 does not interfere with each other after suspending the display 300, further forming a back space.

The structure shows that the four adjusting mechanisms are very simple in structure, adjustment can be achieved simply by rotating the upper and lower adjusting screws and the front and rear adjusting screws, the adjustment precision depends on the thread space between the upper and lower adjusting screws and the front and rear adjusting screws, and compared with a large-area splicing structure, the precision can meet the requirement of fine adjustment and has high adjustment precision. From the stress angle, the U-shaped base 521 is a cantilever type stress structure, and two slide rails 550 are arranged on two sides of the front and rear adjusting screws 540 for playing roles of auxiliary support and directional adjustment, so that the stability of the structure is further improved, a small component (adjusting mechanism) is guaranteed to support a heavy object (display) and cannot deform in the adjusting process, and the splicing quality of the display is guaranteed.

The adjustment method of how the adjustment is performed based on the above-described adjustment of the scaffold structure is further described below in conjunction with fig. 2.

First, the first support rail 110 and the second support rail 120 are installed on the splicing bracket, and the first adjustment mechanism 210, the second adjustment mechanism 220, the third fourth adjustment mechanism 230, and the fourth adjustment mechanism 240 are installed on the back side of the display 300. The display 300 is then suspended to the first support rail 110 and the second support rail 120 by the first adjustment mechanism 210, the second adjustment mechanism 220, the third fourth adjustment mechanism 230, and the fourth adjustment mechanism 240. One advantage of this embodiment is that the display 300 can be initially installed at a corresponding position, and then fine-tuned by the adjusting mechanism to be compatible with other peripheral installed displays, so that the installation efficiency is greatly improved.

Adjusting the display 300 to match with other displays on the periphery, specifically by rotating the other end of the upper and lower adjusting screws to move the U-shaped hooks in threaded engagement with the upper and lower adjusting screws along the Y-axis relative to the first or second rail supported at one end of the upper and lower adjusting screws; the other end of the front and rear adjusting screw is rotated to cause the U-shaped base in threaded fit with the front and rear adjusting screw to move along the X-axis relative to the U-shaped sleeve hook supported at one end of the front and rear adjusting screw. One or more of the following methods may be used in conjunction with the four adjusting mechanisms disposed in a rectangular shape on the display 300 according to actual needs.

And the vertical adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism are adjusted in the same direction, so that the display is translated in the Y-axis direction. The vertical relative positions of the monitor 300 with respect to the first support rail 110 and the second support rail 120 can be adjusted by synchronously rotating the vertical adjustment screws of the four adjustment mechanisms in the same direction.

And the horizontal adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism are adjusted in the same direction, so that the display is translated in the X-axis direction. The front and rear adjusting screws of the four adjusting mechanisms are synchronously rotated in the same direction, so that the front and rear relative positions of the monitor 300 with respect to the first support rail 110 and the second support rail 120 can be adjusted.

The positions of the first, second, third and fourth adjustment mechanisms along the first and second tracks are adjusted in the same direction to translate the display along the Z-axis. The left and right relative positions of the monitor 300 with respect to the first support rail 110 and the second support rail 120 can be adjusted by moving the positions of the U-shaped hooks on the direction support rails in the same direction.

And the horizontal adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the horizontal adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism are reversely adjusted, so that the display rotates around the Y axis. The front and rear adjusting screws of the first and third adjusting mechanisms are synchronously rotated in the same direction, the front and rear adjusting screws of the second and fourth adjusting mechanisms are simultaneously rotated in the same direction, and the front and rear adjusting screws of the first and third adjusting mechanisms are opposite to the front and rear adjusting screws of the second and fourth adjusting mechanisms in adjusting direction, so that the display 300 can rotate clockwise or anticlockwise around the Y axis by taking the Y axis as a normal direction.

And reversely adjusting the vertical adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the vertical adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism to enable the display to rotate around the X axis. The vertical adjusting screws of the first adjusting mechanism and the third adjusting mechanism are synchronously rotated in the same direction, the vertical adjusting screws of the second adjusting mechanism and the fourth adjusting mechanism are simultaneously rotated in the same direction, the vertical adjusting screws of the first adjusting mechanism and the third adjusting mechanism are opposite to the vertical adjusting screws of the second adjusting mechanism and the fourth adjusting mechanism in adjusting direction, and the display 300 can rotate clockwise or anticlockwise around the Y axis by taking the X axis as a normal direction.

And the horizontal adjusting mechanisms of the first adjusting mechanism and the second adjusting mechanism and the horizontal adjusting mechanisms of the third adjusting mechanism and the fourth adjusting mechanism are reversely adjusted, so that the display rotates around the Z axis. The front and rear adjusting screws of the first and second adjusting mechanisms are synchronously rotated in the same direction, the front and rear adjusting screws of the third and fourth adjusting mechanisms are simultaneously rotated in the same direction, and the front and rear adjusting screws of the first and second adjusting mechanisms are opposite to the front and rear adjusting screws of the third and fourth adjusting mechanisms in adjusting direction, so that the display 300 can rotate clockwise or anticlockwise around the Z axis by taking the Z axis as a normal direction.

The above-mentioned adjustment of the translational degrees of freedom in the XYZ three directions is a basic function that most existing display splicing supports can achieve, but as described in the background, the front and back adjustment screws of the conventional LCD display unit hook are separated. When the display unit needs to be adjusted forwards, the rear adjusting screw needs to be unscrewed, and then the front adjusting screw needs to be adjusted, or vice versa. And the conventional LCD display unit hook is either too costly or not strong enough. The rotational degrees of freedom of the three XYZ normal directions are not realized or only partially realized by most of the existing display splicing supports. As described above, the structure of the present embodiment is not only simple, the manufacturing cost is low, but also the adjustment is convenient, flexible and efficient, and compared with the prior art, the present embodiment can realize the adjustment of six degrees of freedom in all directions, and has outstanding substantive features and progress.

Claims (10)

1. A low-cost and conveniently-adjusted display splicing adjusting support comprises a linear first supporting rail, a linear second supporting rail, a linear first adjusting mechanism, a linear second adjusting mechanism, a linear third adjusting mechanism, a linear fourth adjusting mechanism, a linear second supporting rail, a linear third adjusting mechanism, a linear second adjusting mechanism, a linear fourth adjusting mechanism, a linear third adjusting mechanism, a linear fourth adjusting mechanism and a linear fourth adjusting mechanism, wherein the linear first supporting rail is arranged on the first supporting rail;

the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism respectively comprise a supporting mechanism supported on the first track or the second track, a hanging mechanism connected with the display, a vertical adjusting mechanism used for adjusting the relative position of the supporting mechanism and the hanging mechanism on the Y axis, and a horizontal adjusting mechanism used for adjusting the relative position of the supporting mechanism and the hanging mechanism on the X axis;

the vertical adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism are adjusted in the same direction to form a Y-axis translation adjusting mechanism of the display together;

the horizontal adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism are adjusted in the same direction to form an X-axis translation adjusting mechanism of the display together;

the horizontal adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the horizontal adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism are adjusted reversely to form a Y-axis rotation adjusting mechanism of the display together;

the vertical adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the vertical adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism are adjusted in a reverse direction to form an X-axis rotation adjusting mechanism of the display together.

2. The display tiling adjustment support of claim 1, further comprising a Z-axis direction perpendicular to the XY-axis, wherein the first and second adjustment mechanisms are slidably mounted on a first rail, and wherein the third and fourth adjustment mechanisms are slidably mounted on a second rail;

the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism slide along the first track and the second track synchronously to form a Z-axis translation adjusting mechanism of the display together;

the horizontal adjusting mechanisms of the first adjusting mechanism and the second adjusting mechanism and the horizontal adjusting mechanisms of the third adjusting mechanism and the fourth adjusting mechanism are adjusted reversely to form a Z-axis rotation adjusting mechanism of the display together.

3. The display splicing adjusting bracket of claim 1 or 2, wherein the supporting mechanism is a U-shaped sleeve hook sleeved on the first or second rail;

hang the mechanism and establish including the cover U type base on the U type cover hook with set up in the couple main part of U type base one side, the width of U type base X axle direction is greater than U type cover hook, the couple main part with the display dorsal part is connected.

4. The display splicing adjusting bracket of claim 3, wherein the vertical adjusting mechanism is an upper and lower adjusting screw which penetrates through the U-shaped base and the U-shaped sleeve hook and one end of which is supported on the first or second rail, the upper and lower adjusting screw is in threaded fit with the U-shaped sleeve hook, and the U-shaped base is provided with a sliding groove distributed along the X-axis direction for passing through the upper and lower adjusting screw.

5. The display splicing adjustment bracket of claim 4, wherein the horizontal adjustment mechanism is a front and back adjustment screw penetrating through the U-shaped base and supported at one end on the U-shaped sleeve hook, and the front and back adjustment screw is in threaded fit with the U-shaped base.

6. The display splicing adjustment bracket of claim 5, wherein the suspension mechanism is slidably supported on the support mechanism by a slide rail extending in the X-axis direction.

7. The display splicing adjusting bracket of claim 6, comprising two slide rails symmetrically distributed on both sides of the front and rear adjusting screws, wherein the slide rails penetrate through the U-shaped base and are fixed by fastening nuts, and a step transition part is arranged between the hook main body and the U-shaped base and is used for accommodating the fastening nuts.

8. An adjusting method suitable for the splicing adjusting bracket of the display device of any one of claims 1 to 7, comprising the following steps: to

S1, a step of installing a first support rail and a second support rail, and a step of installing a first adjusting mechanism, a second adjusting mechanism, a third adjusting mechanism and a fourth adjusting mechanism on the back side of a display;

s2, mounting the display on the first and second support rails through the first, second, third and fourth adjusting mechanisms;

s3, adjusting the display to be matched with other peripheral displays;

it is characterized in that the step S3 specifically comprises the following steps in parallel:

s31, adjusting the vertical adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism in the same direction to enable the display to move horizontally in the Y-axis direction; or S32, adjusting the horizontal adjusting mechanisms of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism in the same direction to enable the display to translate in the X-axis direction; or S33, reversely adjusting the horizontal adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the horizontal adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism to enable the display to rotate around the Y axis; or S34, reversely adjusting the vertical adjusting mechanisms of the first adjusting mechanism and the third adjusting mechanism and the vertical adjusting mechanisms of the second adjusting mechanism and the fourth adjusting mechanism to enable the display to rotate around the X axis.

9. The adjustment method according to claim 8, wherein the step S3 further comprises, in parallel: s35, adjusting the positions of the first adjusting mechanism, the second adjusting mechanism, the third adjusting mechanism and the fourth adjusting mechanism along the first track and the second track in the same direction to enable the display to translate along the Z axis; or S36, reversely adjusting the horizontal adjusting mechanisms of the first adjusting mechanism and the second adjusting mechanism and the horizontal adjusting mechanisms of the third adjusting mechanism and the fourth adjusting mechanism to enable the display to rotate around the Z axis.

10. The adjustment method according to claim 9,

the adjusting method of the vertical adjusting mechanism comprises the following specific steps: rotating the other end of the upper and lower adjusting screws to enable the U-shaped sleeve hook in threaded fit to move along the Y axis relative to the first or second track supported at one end of the upper and lower adjusting screws;

the adjusting method of the horizontal adjusting mechanism comprises the following specific steps: the other end of the front and rear adjusting screw is rotated to cause the U-shaped base in threaded fit with the front and rear adjusting screw to move along the X-axis relative to the U-shaped sleeve hook supported at one end of the front and rear adjusting screw.