CN108039130B - LED display screen module bearing structure with climbing frame - Google Patents

Abstract

The invention provides an LED display screen module bearing structure with a climbing frame, wherein a climbing structure is formed on the back of a box body after the box bodies are combined, so that the LED display screen can be conveniently installed and maintained in a small space, and meanwhile, the installation cost is saved. The bearing structure comprises a plurality of square box bodies which are continuously connected, each box body comprises a back plate, a rectangular bulge is outwards arranged in the X-axis direction of the back plate, a horizontal boss is formed in the horizontal direction, and a handle is arranged above the horizontal boss; the handles and the horizontal bosses are alternately arranged to form a climbing mechanism.

Description

LED display screen module bearing structure with climbing frame

Technical Field

The invention relates to the field of LED display screens, in particular to an LED display screen module bearing structure with a climbing frame.

Background

LED displays are often placed at a high level, particularly large displays, which themselves are high, and require special climbing frames or ladders for installation and maintenance, but use of ladders or climbing frames is difficult and additional expense is incurred if the space around the display is small.

Disclosure of Invention

The invention provides an LED display screen module bearing structure with a climbing frame, wherein a climbing structure is formed on the back of a box body after the box bodies are combined, so that the LED display screen can be conveniently installed and maintained in a small space, and meanwhile, the installation cost is saved.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the LED display screen module bearing structure with the climbing frame comprises a plurality of square box bodies which are continuously connected, each box body comprises a back plate, a rectangular bulge is outwards arranged in the X-axis direction of the back plate, a horizontal boss is formed in the horizontal direction, and a handle is arranged above the horizontal boss; the handles and the horizontal bosses are alternately arranged to form a climbing mechanism.

Further, a rectangular protrusion is also arranged in the Y-axis direction of the backboard, a vertical boss is formed in the vertical direction, and the handle is embedded in the rectangular protrusion in the Y-axis direction.

Further, the horizontal boss is positioned on the symmetry axis in the X direction; the vertical boss is located on the symmetry axis in the Y direction.

Further, the two ends of the horizontal boss are provided with inwards concave buckles.

Further, a net wire interface and a power wire interface are arranged on the side wall of the vertical boss.

Furthermore, the backboard is provided with a plate taking hole, the plate taking hole is provided with a protective cover, the protective cover is provided with a clamping assembly, and the protective cover is detachably arranged on the plate taking hole through the clamping assembly.

Further, the clamping assembly comprises a positioning groove and an elastic clamping tongue, and the positioning groove and the elastic clamping tongue are respectively arranged on two opposite side edges of the protective cover; the elastic clamping tongue comprises an elastic switching part and a clamping part which are integrally formed, the elastic switching part is U-shaped, one end of the U-shape is fixedly connected with the side edge of the protective cover, and the other end of the U-shape is fixedly connected with one end of the clamping part; one end of the clamping part, which is far away from the elastic switching part, is a free end, and a clamping protrusion higher than the outer wall of the free end is arranged at the joint of the clamping part and the elastic switching part; and a clamping groove is formed in the position of the plate taking hole, which is matched with the clamping protrusion.

Further, a groove is arranged between the clamping protrusion and the free end of the clamping part, and a convex strip which can penetrate into the groove is arranged at the position corresponding to the groove.

Further, the protection cover is provided with a wire clamp, the wire clamp comprises a wire clamp fixing piece and a clamping piece, the wire clamp fixing piece is fixed on the protection cover, one end of the clamping piece is rotationally connected with one end of the wire clamp fixing piece, and the other end of the clamping piece is connected with the other end of the wire clamp fixing piece through a buckle.

Further, the back plate comprises a back plate and splicing sheets positioned on the back surface of the back plate, and splicing holes penetrating through the back plate are formed in four corners of the back plate; the splicing sheet is equally divided into four positioning units by an X symmetrical axis and a Y symmetrical axis which are mutually perpendicular, two adjacent positioning units are symmetrically distributed along the X symmetrical axis or the Y symmetrical axis, and each positioning unit is provided with a mounting hole matched with the splicing hole; the splicing holes are matched with the mounting holes to mutually connect one corner of the backboard with the positioning units, positioning columns are arranged on the back of the backboard of the box body, and positioning holes matched with the positioning columns are further formed in the positioning units.

Further, the splicing holes comprise front splicing holes and rear splicing holes which are adjacently arranged, and the positioning unit is provided with front mounting holes matched with the front splicing holes and rear mounting holes matched with the rear splicing holes; the front splicing hole is a smooth through hole, and an internal thread is arranged in the front mounting hole; the rear splicing hole is internally provided with an internal thread, the rear mounting hole is a smooth through hole, and a nut accommodating cavity is arranged in the hole.

Further, a support frame mounting hole is formed in the X symmetry axis of the splicing piece.

From the above description of the invention, it is clear that the invention has the following advantages over the prior art:

1. according to the invention, after the LED display screen bearing structure is spliced, the horizontal boss in the X-axis direction becomes a pedal of the climbing mechanism, the pedal is matched with the handle above the horizontal boss to realize the structure of the climbing frame, through the structure, an installer can climb the LED display screen to install or maintain the LED display screen through the climbing frame, and external equipment such as a ladder or an aerial ladder is not needed, so that the LED display screen bearing structure is more convenient, and particularly, the LED display screen bearing structure is more convenient to install and detach in a narrow space and has more outstanding advantages.

2. According to the invention, the handle is arranged on the vertical boss and embedded in the vertical boss, so that the whole backboard looks smoother and more attractive; the buckles are arranged on the two sides of the horizontal boss, so that climbing requirements can be further met, and meanwhile, the carrying of a single box body is convenient.

3. The side wall of the vertical boss is provided with the network cable interface and the power line interface, so that each interface is arranged on the outer wall of the backboard in an attractive manner, and meanwhile, the front of the backboard can be plugged and unplugged through the plate taking hole, so that the installation is convenient.

4. According to the invention, a front splicing mode or a rear splicing mode can be selected according to the actual installation place of the LED display screen through the front and rear double-hole modes, the splicing mode is flexible, meanwhile, the four boxes are spliced into a whole from the rear through the splicing sheet, the original connecting mode of buckling through the buckle and the buckling position is abandoned, the simpler splicing mode is adopted, the gaps between the spliced boxes are smaller, and the alignment between the boxes is more accurate.

5. According to the invention, through the matching of the positioning column and the positioning hole, the back plate and the positioning sheet can be more accurately matched and connected, and deformation or displacement phenomenon in the screw locking process is prevented.

6. Compared with the structure that a positioning column is additionally arranged on the side surface of the box body in the past, the back positioning structure is used, on one hand, the side edge of the same box body is not divided into the side edge with the positioning column or the side edge with the positioning hole, and the side edge is not divided up, down, left and right, so that the step of selecting the mounting direction of the box body for alignment in the mounting process is omitted, and the mounting process is simplified; on the other hand, no positioning holes or positioning columns are reserved between two adjacent box bodies, so that any part is not reserved between the two box bodies and the two box bodies are more tightly attached together, and the gap between the two box bodies is further reduced; and in the process of maintaining and replacing the box body, the LED display screen is not required to be integrally disassembled and assembled when the box body is replaced due to the combination of the side positioning columns and the positioning holes, and only the box body which needs to be replaced is required to be independently disassembled and assembled.

7. According to the invention, the bolts sequentially pass through the fixing holes and the support frame mounting holes, so that the fixing frame and the splicing sheet clamp the upright posts on the support frame, and the display screen can be vertically mounted.

8. The protective cover is used, so that the integrity and the attractiveness of the box body are ensured, the components in the box body are protected, and the damage of the external environment to the internal devices of the LED display screen is prevented.

9. The structure of the elastic clamping tongue can compress the elastic clamping tongue no matter the outer wall of the U-shaped structure is extruded or the free end of the clamping part is extruded, so that the protective cover can be opened no matter from the front or the back of the backboard.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

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

FIG. 2 is a schematic diagram of the front view of the back plate of the present invention;

FIG. 3 is a schematic view of the construction of the splice of the present invention;

FIG. 4 is a schematic cross-sectional view of a clip assembly of the present invention;

FIG. 5 is a schematic view of the structure of the protective cover of the present invention.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear and obvious, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1 to 5, a bearing structure of an LED display screen module with a climbing frame includes a plurality of square continuous connected boxes 1, each box 1 includes a back plate 10, a rectangular protrusion is outwardly arranged in an X-axis direction of the back plate 10 and a horizontal boss 11 is formed in a horizontal direction, and a handle 12 is arranged above the horizontal boss 11; the handles 12 and the horizontal bosses 11 are alternately arranged to form a climbing mechanism.

A rectangular protrusion is also arranged in the Y-axis direction of the back plate 10, a vertical boss 13 is formed in the vertical direction, and the handle 12 is embedded in the rectangular protrusion in the Y-axis direction.

The horizontal boss 11 is positioned on the symmetry axis of the X direction; the vertical boss 13 is located on the symmetry axis of the Y direction.

Both ends of the horizontal boss 11 are provided with inwardly concave buckles 14.

The side wall of the vertical boss 13 is provided with a net wire interface 15 and a power wire interface 16.

After the LED display screen bearing structure is spliced, the horizontal boss 11 in the X-axis direction becomes a pedal of the climbing mechanism, the pedal is matched with the handle 12 above the horizontal boss 11 to realize the structure of the climbing frame, and the handle 12 is arranged on the vertical boss 13 and embedded in the vertical boss, so that the whole backboard 10 looks smoother and more attractive; the buckles 14 are arranged on the two sides of the horizontal boss 11, so that climbing requirements can be further met, and meanwhile, the single box body 1 can be conveniently carried. The side wall of the vertical boss 13 is provided with the net wire interface 15 and the power wire interface 16, so that all the interfaces are arranged on the outer wall of the backboard 10 in an attractive manner, and meanwhile, the plugging action of the interfaces can be carried out on the front surface of the backboard 10 through the plate taking holes, so that the installation is convenient.

The backboard 10 is provided with a plate taking hole 100, the plate taking hole 100 is provided with a protective cover 101, the protective cover 101 is provided with a clamping assembly 2, and the protective cover 101 is detachably arranged on the plate taking hole 100 through the clamping assembly 2.

The clamping assembly 2 comprises a positioning groove 20 and an elastic clamping tongue 21, and the positioning groove 20 and the elastic clamping tongue 21 are respectively arranged on two opposite side edges of the protective cover 101; the elastic latch 21 includes an integrally formed elastic adapting portion 210 and a clamping portion 211, the elastic adapting portion 210 is in a U shape, one end of the U shape is fixedly connected with the side edge of the protective cover 101, and the other end is fixedly connected with one end of the clamping portion 211; the end of the clamping part 211 away from the elastic switching part 210 is a free end, and a clamping protrusion 212 higher than the outer wall of the free end is arranged at the joint of the clamping part 211 and the elastic switching part 210; the position of the plate taking hole 100, which is matched with the clamping protrusion 212, is provided with a clamping groove 213.

A groove 214 is arranged between the clamping protrusion 212 and the free end of the clamping portion 211, and a protruding strip 215 capable of penetrating into the groove 214 is arranged at a position corresponding to the clamping groove 213 and the groove 214.

The positioning groove 20 is matched with one side edge of the access plate hole 100 to position the protective cover 101, and the elastic clamping tongue 21 is further pressed into the other side edge of the access plate hole 100 so as to fully cover and fix the protective cover 101 on the access plate hole 100; the clamping portion 211 is clamped at the side edge of the plate taking hole 100, and the clamping groove 213 on the clamping portion 211 is matched with the clamping protrusion 212 on the side edge to enable the clamping portion 211 to be buckled with the side edge of the plate taking hole 100 more tightly, meanwhile, the elastic adapting portion 210 is of a U-shaped structure, so that the elastic clamping tongue 21 can be compressed no matter the outer wall of the U-shaped structure is extruded or the free end of the clamping portion 211 is extruded, and the protective cover 101 can be opened no matter from the front or the back of the back plate 10.

The protection cover 101 is provided with a wire clamp 3, the wire clamp 3 comprises a wire clamp fixing piece 30 and a clamping piece 31, the wire clamp fixing piece 30 is fixed on the protection cover 101, one end of the clamping piece 31 is rotationally connected with one end of the wire clamp fixing piece 30, and the other end of the clamping piece is connected with the other end of the clamping piece through a buckle 32. The clamping piece 31 is rotatably connected with one end of the fixing piece, and the other end of the clamping piece is connected with the fixing piece through a buckle 32. The use of the wire clamp 3 enables the internal circuit arrangement to be more orderly, and is convenient to use and maintain.

The bearing structure comprises a back plate 10 and splicing sheets 4 positioned on the back surface of the back plate 10, and splicing holes 5 penetrating through the back plate 10 are formed in four corners of the back plate 10; the splicing sheet 4 is equally divided into four positioning units 40 by an X symmetry axis and a Y symmetry axis which are mutually perpendicular, two adjacent positioning units 40 are symmetrically distributed along the X symmetry axis or the Y symmetry axis, and each positioning unit 40 is provided with a mounting hole 41 matched with the splicing hole 5; the splicing hole 5 is matched with the mounting hole 41 to mutually connect one corner of the back plate 10 with the positioning unit 40, the back surface of the back plate 10 of the box body 1 is provided with a positioning column 6, and the positioning unit 40 is also provided with a positioning hole 42 matched with the positioning column 6.

The splicing hole 5 comprises a front splicing hole 50 and a rear splicing hole 51 which are adjacently arranged, and the positioning unit 40 is provided with a front mounting hole 410 matched with the front splicing hole 50 and a rear mounting hole 411 matched with the rear splicing hole 51; the front splicing hole 50 is a smooth through hole, and the front mounting hole 410 is internally provided with internal threads; the rear splicing hole 51 is internally provided with internal threads, and the rear mounting hole 411 is a smooth through hole and is internally provided with a nut accommodating cavity. The X symmetry axis of the splicing sheet 4 is provided with a support frame mounting hole 42.

An LED display screen is formed by continuously splicing a plurality of box bodies 1 on the same plane, and after the box bodies 1 are sequentially placed on the same plane, four corners of the four adjacent box bodies 1 form a splicing point; one splicing sheet 4 is covered on the splicing point, and four positioning units 40 on the splicing sheet 4 are fixedly connected with one corner of the corresponding box body 1 respectively, so that the splicing of the box body 1 is realized; the splicing piece 4 is fixedly connected with the box body 1 through screws, and the screws can sequentially pass through the front splicing holes 50 and then enter the front mounting holes 410 and are fixed so as to fix the box body 1 and the splicing piece 4, or the screws can sequentially pass through the rear mounting holes 411 and then enter the rear splicing holes 51 and are fixed so as to fix the box body 1 and the splicing piece 4; through these two kinds of fixed modes, can select preceding concatenation mode or back concatenation mode according to the actual installation place of LED display screen, the mode of assembling is nimble, simultaneously, splice four boxes 1 as an organic wholely through splice piece 4 from the rear portion, abandoned original through buckle 32 with detain the connected mode of position lock, adopt this kind of simpler concatenation mode, this simultaneously make the gap between the box 1 after the concatenation less, counterpoint between the box 1 is also more accurate.

The back of the back plate 10 of the box body 1 is provided with a positioning column 6, and the positioning unit 40 is also provided with a positioning hole 42 matched with the positioning column 6. Through the matching of the positioning column 6 and the positioning hole 42, the back plate 10 and the positioning sheet can be connected in a matching way more accurately, and deformation or displacement phenomenon in the screw locking process is prevented; in addition, compared with the structure that the positioning column 6 is additionally arranged on the side face of the box body 1 in the past, the back positioning structure is used, on one hand, the side edge of the same box body 1 is not divided into the side edge with the positioning column 6 or the side edge with the positioning hole 42, and the side edge is not divided up and down and left and right, so that the step of selecting the mounting direction of the box body 1 for alignment in the mounting process is omitted, and the mounting process is simplified; on the other hand, the positioning holes 42 and the positioning columns 6 are not stored between two adjacent box bodies 1, so that any part is not stored between the two box bodies 1, and the two box bodies 1 are more tightly attached together, and the gap between the two box bodies 1 is further reduced; in the process of maintaining and replacing the box body 1, the whole LED display screen is not required to be disassembled and assembled when the box body 1 is replaced due to the combination of the side positioning columns 6 and the positioning holes 42, and only the box body 1 which needs to be replaced is required to be disassembled and assembled independently.

While the foregoing description illustrates and describes the preferred embodiments of the present invention, as noted above, it is to be understood that the invention is not limited to the forms disclosed herein but is not to be construed as excluding other embodiments, and that various other combinations, modifications and environments are possible and may be made within the scope of the inventive concepts described herein, either by way of the foregoing teachings or by those of skill or knowledge of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (9)

1. LED display screen module bearing structure of area climbing frame, its characterized in that: the bearing structure comprises a plurality of square box bodies which are continuously connected, each box body comprises a back plate, a rectangular bulge is outwards arranged in the X-axis direction of the back surface of the back plate, a horizontal boss is formed in the horizontal direction, and a handle is arranged above the horizontal boss on the back surface of the back plate; the handles and the horizontal bosses are alternately arranged to form a climbing mechanism;

the backboard is provided with a plate taking hole, the plate taking hole is provided with a protective cover, the protective cover is provided with a clamping assembly, and the protective cover is detachably arranged on the plate taking hole through the clamping assembly;

the clamping assembly comprises a positioning groove and an elastic clamping tongue, and the positioning groove and the elastic clamping tongue are respectively arranged on two opposite side edges of the protective cover; the elastic clamping tongue comprises an elastic switching part and a clamping part which are integrally formed, the elastic switching part is U-shaped, one end of the U-shape is fixedly connected with the side edge of the protective cover, and the other end of the U-shape is fixedly connected with one end of the clamping part; one end of the clamping part, which is far away from the elastic switching part, is a free end, and a clamping protrusion higher than the outer wall of the free end is arranged at the joint of the clamping part and the elastic switching part; a clamping groove is formed in the position, matched with the clamping protrusion, of the plate taking hole;

a groove is arranged between the clamping protrusion and the free end of the clamping part, and a convex strip which can penetrate into the groove is arranged at the position corresponding to the groove.

2. The LED display screen module load-bearing structure with a climbing rack as set forth in claim 1, wherein: a rectangular bulge is also arranged in the Y-axis direction of the backboard, a vertical boss is formed in the vertical direction, and the handle is embedded in the rectangular bulge in the Y-axis direction.

3. The LED display screen module load-bearing structure with a climbing rack as set forth in claim 2, wherein: the horizontal boss is positioned on a symmetrical axis in the X-axis direction; the vertical boss is located on the symmetry axis in the Y-axis direction.

4. A LED display module load-bearing structure with a climbing rack as claimed in claim 2 or 3, wherein: both ends of the horizontal boss are provided with inwards concave buckles.

5. The LED display screen module load-bearing structure with a climbing rack of claim 4, wherein: the side wall of the vertical boss is provided with a net wire interface and a power wire interface.

6. The LED display screen module load-bearing structure with a climbing rack as set forth in claim 1, wherein: the protective cover is provided with a wire clamp, the wire clamp comprises a wire clamp fixing piece and a clamping piece, the wire clamp fixing piece is fixed on the protective cover, one end of the clamping piece is rotationally connected with one end of the wire clamp fixing piece, and the other end of the clamping piece is connected with the other end of the wire clamp fixing piece through a buckle.

7. The LED display screen module load-bearing structure with a climbing rack as set forth in claim 1 or 6, wherein: the back plate comprises a back plate and splicing sheets positioned on the back surface of the back plate, wherein splicing holes penetrating through the back plate are formed in four corners of the back plate; the splicing sheet is equally divided into four positioning units by an X symmetrical axis and a Y symmetrical axis which are mutually perpendicular, two adjacent positioning units are symmetrically distributed along the X symmetrical axis or the Y symmetrical axis, and each positioning unit is provided with a mounting hole matched with the splicing hole; the splicing holes are matched with the mounting holes to mutually connect one corner of the backboard with the positioning units, positioning columns are arranged on the back of the backboard of the box body, and positioning holes matched with the positioning columns are further formed in the positioning units.

8. The LED display screen module load-bearing structure with a climbing rack of claim 7, wherein: the positioning unit is provided with a front mounting hole matched with the front splicing hole and a rear mounting hole matched with the rear splicing hole; the front splicing hole is a smooth through hole, and an internal thread is arranged in the front mounting hole; the rear splicing hole is internally provided with an internal thread, the rear mounting hole is a smooth through hole, and a nut accommodating cavity is arranged in the hole.

9. The LED display screen module load-bearing structure with a climbing rack of claim 8, wherein: and a support frame mounting hole is formed in the X symmetry axis of the splicing piece.