CN217978128U - A mounting structure for splicing screen - Google Patents

Abstract

The utility model discloses a mounting structure for splicing screen, which relates to the technical field of splicing screen mounting and comprises a mounting plate, wherein a plurality of receiving heads are fixedly mounted on the outer side of the mounting plate, a plurality of receiving grooves which are rectangular array subdivisions are formed in the front side of the mounting plate, and a receiving component for fixing the splicing screen is fixedly mounted in the receiving grooves; the receiving assembly comprises a first mounting plate fixed inside the receiving groove and a second mounting plate used for fixing the spliced screen, and two supporting force assemblies are hinged between the first mounting plate and the second mounting plate; the utility model discloses utilize the cooperation of annular wave groove and sliding head can adjust the extension length that extends the post, drive the sub-screen that corresponds with it simultaneously and move forward, make staggering of its and other sub-screens, make things convenient for the maintenance of sub-screen, reduced the work load of tearing open and trading the sub-screen.

Description

A mounting structure for splicing screen

Technical Field

The utility model relates to a concatenation screen installation technical field, in particular to a mounting structure for concatenation screen.

Background

In the modern society, display screens are widely used, and the larger the screen area is in order to clearly view in the wide environment such as outdoors or squares, but not only the technical difficulty is increased, but also great difficulty is brought to installation and transportation, so that the display screens of small units are spliced into a large screen at present; .

However, because the gaps between the sub-screens are small, when the sub-screens are damaged and need to be maintained, the workload of replacing the sub-screens is relatively large.

Therefore, it is necessary to invent a mounting structure for a tiled screen to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mounting structure for concatenation screen to solve and provide among the above-mentioned background art because the clearance between a plurality of sub-screens is less, if the sub-screen damage when needing to maintain, tear open the relatively great problem of work load of trading the sub-screen.

In order to achieve the above object, the utility model provides a following technical scheme: a mounting structure for a spliced screen comprises a mounting plate, wherein a plurality of bearing heads are fixedly mounted on the outer side of the mounting plate, a plurality of bearing grooves distributed in a rectangular array are formed in the front side of the mounting plate, and bearing components for fixing the spliced screen are fixedly mounted inside the bearing grooves;

accept the subassembly including fixing at the first installation plate of accepting recess inside and the second installation plate that is used for fixed concatenation screen, it has two to hold in the palm the power subassembly to articulate between first installation plate and the second installation plate, the central point slidable mounting who holds in the palm the power subassembly has adjusting part, adjusting part's both ends respectively with first installation plate and second installation plate fixed connection, second installation plate when the atress is installed, adjusting part will cup joint the position of concatenation screen.

Optionally, the first mounting plate includes a first receiving plate fixed inside the receiving groove, and first guide rails are fixedly mounted at both ends of the front side of the first receiving plate.

Optionally, the second installation plate includes that the second accepts the board, the second accepts the equal fixed mounting in rear side both ends of board and has the second guide rail, the second accepts the equal fixed mounting in front side four corners of board and has the screens head that is used for fixed concatenation screen.

Optionally, the force supporting assembly includes two hinged plates which are crossed with each other, T-shaped heads are fixedly mounted at both ends of the hinged plates, and the T-shaped heads at both ends are slidably mounted on the first guide rail and the second guide rail respectively.

Optionally, the adjusting part is including fixing the first direction support section of thick bamboo of accepting on the board, the inside slidable mounting of direction support section of thick bamboo has the extension post of accepting board fixed connection with the second, the rear end fixed mounting who extends the post has the pressure spring, the one end that extends the post is kept away from to the pressure spring is connected with the first board rotation of accepting.

Optionally, an annular wave groove is formed in the outer side of the extension column, and a sliding head matched with the annular wave groove is fixedly mounted inside the guide support cylinder.

Optionally, annular wave groove includes preceding depressed part and back depressed part, preceding depressed part and back depressed part are through sliding position intercommunication, and the both ends opening part at preceding depressed part all is provided with the summit, and the both sides of preceding depressed part front side inner wall are provided with first hypotenuse, and the summit corresponds with the central point of first hypotenuse, and the front side inner wall at back depressed part is provided with the second hypotenuse, and the middle part and the back depressed part of second hypotenuse are corresponding.

Optionally, the outside slidable mounting of a direction support section of thick bamboo has the sliding sleeve, the equal fixed mounting in outside top and the bottom of sliding sleeve has the reference column, the one end and the articulated slab rotation that the sliding sleeve was kept away from to the reference column are connected.

The utility model discloses a technological effect and advantage:

1. the utility model discloses utilize the cooperation of annular wave groove and sliding head can adjust the extension length that extends the post, drive the sub-screen that corresponds with it simultaneously and move forward, make staggering of its and other sub-screens, make things convenient for the maintenance of sub-screen, reduced the work load of tearing open and trading the sub-screen.

2. The utility model discloses the setting that utilizes the pressure spring can drive the extension post and move along to under the cooperation in annular wave groove, make the sub-screen press down the messenger at the atress and can change according to the corresponding position in slip head and annular wave groove, thereby drive the position change of sub-screen.

3. The utility model utilizes the arrangement of the hinged plate, the second bearing plate is ensured to be stable while the movement of the second bearing plate is not influenced, and the phenomenon that the second bearing plate descends under the influence of gravity is avoided; the position of the hinged plate can be positioned by utilizing the arrangement of the sliding sleeve and the positioning column, and the two hinged plates are prevented from causing the integral movement in the guide rail.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of the receiving assembly of the present invention;

FIG. 3 is a schematic view of the interior of the receiving assembly of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3 according to the present invention;

fig. 5 is a schematic view of the annular wave groove structure of the present invention.

In the figure: 1. mounting a plate; 2. a receiving groove; 3. a bearing head; 4. a first bearing plate; 5. a first guide rail; 6. a second bearing plate; 7. a second guide rail; 8. a position clamping head; 9. a hinge plate; 10. a T-shaped head; 11. a guide support cylinder; 12. extending the column; 13. a pressure spring; 14. an annular wave groove; 15. a sliding head; 16. a sliding sleeve; 17. and a positioning column.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a mounting structure for a spliced screen as shown in figures 1-5, which comprises a mounting plate 1, wherein a plurality of receiving heads 3 are fixedly mounted at the outer side of the mounting plate 1, a plurality of receiving grooves 2 which are rectangular array subsections are arranged at the front side of the mounting plate 1, and a receiving component for fixing the spliced screen is fixedly mounted in the receiving grooves 2;

the bearing component comprises a first mounting plate fixed inside the bearing groove 2 and a second mounting plate used for fixing the spliced screen, two supporting force components are hinged between the first mounting plate and the second mounting plate, a central part of each supporting force component is slidably mounted with an adjusting component, two ends of each adjusting component are fixedly connected with the first mounting plate and the second mounting plate respectively, and the adjusting components can be sleeved on the position of the spliced screen when the second mounting plate is installed under stress.

In the embodiment, the normal installation and fixation of the installation plate 1 can be ensured by the arrangement of the bearing head 3; the position of accepting the subassembly can be fixed a position to the setting that utilizes accepting recess 2, avoids accepting the subassembly when the installation deviation appears to guarantee that the sub-screen can not bump.

In some embodiments of the present invention, the first mounting plate comprises a first receiving plate 4 fixed inside the receiving groove 2, and both ends of the front side of the first receiving plate 4 are fixedly mounted with first guide rails 5;

the second installation plate includes that the second accepts board 6, and the second accepts the equal fixed mounting in rear side both ends of board 6 and has second guide rail 7, and the second accepts the equal fixed mounting in front side four corners of board 6 and has the screens head 8 that is used for fixed concatenation screen.

In the embodiment, the normal fixation of the sub-screen is realized by the arrangement of the first bearing plate 4 and the second bearing plate 6, so that the mounting plate 1 can normally drive the sub-screen to be mounted at a specified position; the arrangement of the first guide rail 5 and the second guide rail 7 can ensure the normal installation of the adjusting assembly, and simultaneously, the adjusting assembly plays a guiding role in adjusting the adjusting assembly; the sub-screens can be connected and fixed by the arrangement of the clamping heads 8.

In some embodiments of the present invention, the force supporting assembly includes two hinged plates 9 crossing each other, T-shaped heads 10 are fixedly mounted at both ends of the hinged plates 9, and the T-shaped heads 10 at both ends are slidably mounted on the first guide rail 5 and the second guide rail 7 respectively.

In the embodiment, the hinge plate 9 can be connected with the guide rail by the arrangement of the T-shaped head 10, so that the hinge plate 9 can move along the predetermined track of the guide rail; the arrangement of the hinge plate 9 ensures the stability of the second bearing plate 6 while not influencing the movement of the second bearing plate 6, and avoids the phenomenon that the second bearing plate 6 descends under the influence of gravity.

In some embodiments of the present invention, the adjusting assembly includes a guiding supporting cylinder 11 fixed on the first bearing plate 4, an extending column 12 fixedly connected with the second bearing plate 6 is slidably mounted inside the guiding supporting cylinder 11, a pressure spring 13 is fixedly mounted at the rear end of the extending column 12, and one end of the pressure spring 13 far away from the extending column 12 is fixedly connected with the first bearing plate 4;

an annular wave groove 14 is formed in the outer side of the extension column 12, and a sliding head 15 matched with the annular wave groove 14 is fixedly installed inside the guide support cylinder 11;

annular wave groove 14 includes preceding concave position and back concave position, preceding concave position and back concave position communicate through the position that slides, and the both ends opening part at preceding concave position all is provided with the summit, and the both sides of preceding concave position front side inner wall are provided with first hypotenuse, and the summit corresponds with the central point of first hypotenuse, and the front side inner wall at back concave position is provided with the second hypotenuse, and the middle part and the back concave position at second hypotenuse are corresponding.

In this embodiment, the matching of the annular wave groove 14 and the sliding head 15 can adjust the extension length of the extension column 12, and simultaneously drive the corresponding sub-screen to move forward, so that the sub-screen is staggered with other sub-screens, the maintenance of the sub-screens is facilitated, and the workload of replacing the sub-screens is reduced;

the arrangement of the pressure spring 13 can drive the extension column 12 to move forwards, and under the coordination of the annular wave groove 14, the sub-screen can be changed according to the corresponding position of the sliding head 15 and the annular wave groove 14 when being pressed under stress, so that the position of the sub-screen is changed;

the first bearing plate 4 and the second bearing plate 6 can be connected by the arrangement of the guide support cylinder 11 and the extension column 12; meanwhile, the extension column 12, the first receiving plate 4 and the second receiving plate 6 are provided with wire guiding holes, so that the electric wires can normally pass through the first receiving plate 4 and the second receiving plate 6.

In some embodiments of the present invention, the sliding sleeve 16 is slidably mounted on the outer side of the guiding supporting tube 11, the positioning column 17 is fixedly mounted on the top and the bottom of the outer side of the sliding sleeve 16, and the end of the positioning column 17 away from the sliding sleeve 16 is rotatably connected with the hinge plate 9.

In the embodiment, the position of the hinge plates 9 can be positioned by the arrangement of the sliding sleeve 16 and the positioning column 17, and the two hinge plates 9 are prevented from moving integrally in the guide rail.

The utility model discloses a working method:

when the sub-screen needs to be replaced, the sub-screen is pressed, so that the sub-screen drives the hinged plate 9 to rotate and the extending column 12 to move, and when the hinged plate 9 rotates, the sub-screen can move along the guide rail under the limitation of the T-shaped head 10 and the positioning column 17;

when the extension column 12 moves, the compression spring 13 is extruded and the annular wave groove 14 is driven to move, so that the compression spring 13 extrudes to store power, meanwhile, due to the movement of the annular wave groove 14, the sliding head 15 can move relative to the annular wave groove 14, the sliding head 15 can move out of the most front sunken part and move to the inside of the sliding part beyond the vertex under the action of the first bevel edge, and the sliding part is guided to move downwards to the rear sunken part under the action of the elastic force of the compression spring 13, at the moment, the extension column 12 can drive the extruded sub-screen to move forwards, and then the sub-screen is maintained or replaced;

after the sub-screen is replaced, the sub-screen is squeezed again, so that the sub-screen drives the extension column 12 to move again, and similarly, the sliding head 15 can move to another sliding part under the action of the second oblique edge after being separated from the rear concave part, and then moves to the front concave part over the vertex under the action of the first oblique edge; so that the extended column 12 brings the sub-screen to the designated position.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (8)

1. The utility model provides a mounting structure for concatenation screen, includes mounting panel (1), the outside fixed mounting of mounting panel (1) has a plurality of heads (3) of accepting, the front side of mounting panel (1) is opened and is equipped with a plurality of recesses (2) of accepting that are the rectangle array subsection, its characterized in that: a bearing assembly used for fixing the spliced screen is fixedly arranged in the bearing groove (2);

accept the subassembly including fixing at the first installation plate of accepting recess (2) inside and the second installation plate that is used for fixed concatenation screen, it has two to hold in the palm the power subassembly to articulate between first installation plate and the second installation plate, the central point slidable mounting who holds in the palm the power subassembly has adjusting part, adjusting part's both ends respectively with first installation plate and second installation plate fixed connection, second installation plate when the atress is installed, adjusting part will cup joint the position of concatenation screen.

2. A mounting structure for a tiled screen according to claim 1, wherein:

the first mounting plate comprises a first bearing plate (4) fixed inside the bearing groove (2), and first guide rails (5) are fixedly mounted at two ends of the front side of the first bearing plate (4).

3. A mounting structure for a tiled screen according to claim 1, wherein:

the second installation plate comprises a second bearing plate (6), wherein second guide rails (7) are fixedly installed at two ends of the rear side of the second bearing plate (6), and clamping heads (8) used for fixing the spliced screen are fixedly installed at four corners of the front side of the second bearing plate (6).

4. A mounting structure for a tiled screen according to claim 1, wherein:

the supporting force assembly comprises two hinged plates (9) which are crossed with each other, T-shaped heads (10) are fixedly mounted at two ends of each hinged plate (9), and the T-shaped heads (10) located at the two ends are respectively slidably mounted on the first guide rail (5) and the second guide rail (7).

5. A mounting structure for a tiled screen according to claim 1, wherein:

the adjusting part is including fixing direction supporting cylinder (11) on first accepting board (4), the inside slidable mounting of direction supporting cylinder (11) has and accepts board (6) fixed connection's extension post (12) with the second, the rear end fixed mounting who extends post (12) has pressure spring (13), the one end that extends post (12) is kept away from in pressure spring (13) rotates with first accepting board (4) to be connected.

6. A mounting structure for a tiled screen according to claim 5, wherein:

annular wave groove (14) have been seted up in the outside of extension post (12), the inside fixed mounting of direction support tube (11) has slider (15) with annular wave groove (14) adaptation.

7. The mounting structure for a tiled screen according to claim 6, wherein:

annular wave groove (14) are including preceding concave position and back concave position, preceding concave position and back concave position are through sliding position intercommunication, and the both ends opening part at preceding concave position all is provided with the summit, and the both sides of preceding concave position front side inner wall are provided with first hypotenuse, and the summit corresponds with the central point of first hypotenuse, and the front side inner wall at back concave position is provided with the second hypotenuse, and the middle part and the back concave position of second hypotenuse are corresponding.

8. A mounting structure for a tiled screen according to claim 5, wherein:

the outer side sliding mounting of a guide supporting cylinder (11) has a sliding sleeve (16), the outside top and the bottom of sliding sleeve (16) all fixed mounting have reference column (17), the one end that sliding sleeve (16) was kept away from in reference column (17) rotates with articulated slab (9) and is connected.

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