CN111405792A - L ED box and spliced display screen - Google Patents

Abstract

The application relates to an L ED box and a spliced display screen L ED box, including display module assembly and box frame, display module assembly is fixed in on the box frame, the box frame includes backplate and curb plate, be provided with the concatenation hole on the curb plate, be formed with the installation passageway between the concatenation hole on two relative curb plates, the installation passageway is used for acceping mounting tool, concatenation hole on two relative curb plates sets up in pairs, a pair of concatenation hole passes through the installation passageway intercommunication, still include the splice, the splice corresponds one setting in a pair of concatenation hole, and assemble in concatenation hole department, mounting tool gets into from another concatenation hole in a pair of concatenation hole, and butt in the splice, move with the relative box frame of drive splice, thereby make splice and another L ED box fixed, L ED box concatenation forms the spliced display screen, L ED box can realize the concatenation between the box under the state of not dismantling the module, can realize the transportation and the installation of box level.

Description

L ED box and spliced display screen

Technical Field

The application relates to L ED display screen field especially relates to a L ED box and concatenation display screen.

Background

The large L ED display screen is usually formed by splicing a plurality of boxes, a high-voltage power supply, a signal receiving card and other components are arranged in a single box, and the boxes are connected with each other through power lines and signal lines.

In summary, the conventional L ED display screen structure has a long installation time and a high installation cost in the front installation.

Disclosure of Invention

Therefore, it is necessary to provide a L ED box and a spliced display screen to solve the problems of long installation time and high installation cost in the front installation of the conventional L ED display screen structure.

The first aspect of the application provides an L ED box, which comprises a display module and a box frame, wherein the display module is fixed on the box frame,

the box body frame comprises a back plate and a plurality of side plates, the side plates are fixed on the back plate, splicing holes are formed in the side plates, an installation channel is formed between the splicing holes in two opposite side plates and used for accommodating installation tools, the splicing holes in the two opposite side plates are arranged in pairs, and the splicing holes are communicated through the installation channel;

the box body frame further comprises a splicing piece, wherein the splicing piece is arranged corresponding to one of the splicing holes and assembled at the splicing hole, and an installation tool enters from the other splicing hole of the splicing holes and abuts against the splicing piece so as to drive the splicing piece to move relative to the box body frame, so that the splicing piece is fixed with the other L ED box body.

In one embodiment, the pair of splicing holes are positioned on the same straight line, and a straight line-shaped mounting channel is formed between the pair of splicing holes.

In one embodiment, when two L ED boxes are spliced, the splicing piece can be assembled and fixed on a splicing hole of another L ED box, wherein the splicing piece is not arranged.

In one embodiment, the splicing holes are threaded holes, the splicing pieces are provided with threads and are in threaded assembly with the splicing holes, and the splicing pieces enter the splicing holes of the other L ED box body without the splicing pieces and are in threaded connection with the splicing holes.

In one embodiment, the splicing piece comprises a fixing portion, a connecting portion and a driving portion, wherein the fixing portion is at least partially accommodated in the splicing hole and fixedly connected to the box body frame, one end of the connecting portion is fixedly connected to the fixing portion, the other end of the connecting portion is fixedly connected to the driving portion, and the driving portion is matched with an installation tool to drive the splicing piece to move relative to the box body frame by the aid of the installation tool.

In one embodiment, the fixing part is provided with external threads and is fixed with the box body frame in a threaded mode.

In one embodiment, the box body further comprises an elastic piece, the elastic piece is sleeved on the connecting portion, one end of the elastic piece abuts against the box body frame, and the other end of the elastic piece abuts against the driving portion.

In one embodiment, the box frame is further provided with a first mounting hole, the first mounting hole is communicated with the splicing hole without the splicing piece and forms a stepped hole structure together with the splicing hole, and a mounting tool sequentially penetrates through the first mounting hole and the splicing hole to enter the mounting channel and is at least partially accommodated in the first mounting hole.

In one embodiment, the box frame is further provided with a second mounting hole, the second mounting hole has a preset distance from the first mounting hole, and a mounting tool is fixed on the box frame through the first mounting hole and/or the second mounting hole.

Above-mentioned L ED box, through framework installation passageway between a pair of concatenation hole, make the mounting tool get into from a concatenation hole, assemble on the splice of another concatenation hole along installation passageway butt, promote the relative box frame of splice and remove, thereby make the splice be fixed in another L ED box, realize the concatenation between the box L ED box can realize the concatenation between the box under the state of not dismantling the module, thereby need not to transport module and frame split, can realize the transportation of box level, the required manpower of dismouting in the transportation has been saved, material resources cost, and simultaneously, need not to reinstall module and box after the transportation, therefore just also need not to carry out the roughness, poor regulation of section, can reduce installation time greatly, reduce installation cost, finally, the mounting means of L ED box, can be suitable for before installation and after-mounting simultaneously, in the front, can all realize box level transportation when after-installing.

The second aspect of the present application provides a tiled display screen, includes at least two L ED boxes, it is fixed to splice each other between the L ED box, the L ED box be any one of the L ED box of the aforesaid.

Because the concatenation display screen includes L ED box, consequently, L ED box possesses beneficial effect, and the concatenation display screen also correspondingly possesses.

Drawings

FIG. 1 is a schematic structural diagram of an L ED case according to an embodiment of the present application;

FIG. 2 is a schematic view of the L ED case on the other side of the case according to an embodiment of the present application;

FIG. 3 is an exploded view of an L ED case according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a housing frame of an L ED housing according to an embodiment of the present application;

FIG. 5 is a schematic view of a splice of an L ED cabinet according to an embodiment of the present application;

FIG. 6 is a schematic illustration of an L ED case and an installation tool according to an embodiment of the present application;

FIG. 7 is another schematic illustration of an L ED case and an installation tool according to an embodiment of the present application;

FIG. 8 is a schematic cross-sectional view of an L ED case according to an embodiment of the present application;

FIG. 9 is a schematic view of a mounting tool according to an embodiment of the present application;

FIG. 10 is a cross-sectional view of an installation tool according to an embodiment of the present application;

FIG. 11 is a schematic view of a fastener of an installation tool according to an embodiment of the present application;

FIG. 12 is a cross-sectional view of a second positioning protrusion of a fixing member of an installation tool according to an embodiment of the present application;

FIG. 13 is a schematic view of an installation process of an L ED case according to an embodiment of the present application.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are given in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-3, which schematically illustrate the structure of an L ED enclosure 10 according to some embodiments of the present application, a L ED enclosure 10 includes a display module 110 and an enclosure frame 120, the display module 110 being fixed to the enclosure frame 120. when the enclosure frame 120 is fixed to a mounting location, the L ED enclosure 10 is mounted and fixed, for example, to a mounting bracket or to a wall panel of a building.

For example, an even number of display modules 110 are generally configured in a standard box body, so that the display modules 110 are arranged in a rectangular or square shape, thereby making the L ED box body 10 regular in shape and convenient for splicing, of course, the display modules 110 may be in an odd number, for example, in some special installation positions or for a specific display effect, the box body needs to be in an irregular shape, and the display modules 110 may need to be in an odd number.

The display module 110 may include a connector 112, a HUB board 130 is disposed in the case frame 120, and the connector 112 and the HUB board 130 are electrically and data connected to realize display control of the display module 110.

Considering that the position of the connector 112 of the display module 110 is different, the display module 110 can also have multiple specifications, and the display modules 110 with the same specification can be installed in a replaceable manner, for example, in the embodiment shown in fig. 3, the L ED case 10 is only provided with one HUB board 130, the HUB board 130 is arranged in the center, and the four display modules 110 are all connected to the HUB board 130. the display modules 110 on both sides of the HUB board 130 have different positions of the connector 112 connected to the HUB board 130, so the display module 110 can have two specifications, the specifications of the display modules 110 on both sides of the HUB board 130 are different, and the specifications of the display modules 110 on both sides of the HUB board 130 are the same.

With reference to fig. 4, the case frame 120 may have a display surface 120a and a back surface 120b opposite to each other, the display module 110 is mounted and fixed on the display surface 120a, and a cavity is disposed on one side of the display surface 120a of the case frame 120, and a plurality of electronic components are disposed in the cavity, so that a single L ED case 10 can realize independent display.

The case frame 120 may include a back plate 121 and a plurality of side plates 122, the plurality of side plates 122 are fixed to the back plate 121, and a cavity is defined by the plurality of side plates 122 and the back plate 121. It is understood that the back plate 121 and the side plate 122 may be fixed by a fixing structure, or may be fixed in an integral manner.

In one or more embodiments, the side plate 122 is provided with a splicing hole 123, and the splicing hole 123 penetrates through the side plate 122 in the thickness direction. A mounting channel 140 is formed between the mating holes 123 of the two opposing side plates 122, the mounting channel 140 being configured to receive the mounting tool 20. The installation channel 140 may be a physically present conduit or a virtually provided area that appears to be freely accessible to the installation tool 20. For example, when there is no electronic component blocked between the two splicing holes 123, the two splicing holes 123 are communicated through the cavity, and at this time, a part of the cavity between the two splicing holes 123 is the mounting channel 140, so that, in practice, the mounting channel 140 is not actually arranged, that is, the mounting channel 140 is virtually arranged, and is a part of the cavity. When it is necessary to set a corresponding fixing structure between the two splicing holes 123 to fix an electronic component or to set an electronic component, at this time, the fixing structure or the electronic component located between the two splicing holes 123 needs to be penetrated through to form the installation channel 140 between the two splicing holes 123, and at this time, the penetrating part of the fixing structure or the electronic component is the installation channel 140 or a part of the installation channel 140. For example, referring to fig. 4 and 7, in the embodiment shown in fig. 4 and 7, the installation channel 140 along the Y direction is virtually arranged, and the installation channel 140 along the X direction is partially a physically arranged pipe and partially virtually arranged.

The coupling holes 123 of the two opposite side plates 122 are provided in pairs, and the pair of coupling holes 123 communicate through the mounting passage 140. In a specific embodiment, the pair of splicing holes 123 are located on the same straight line, and a straight-line installation channel 140 is formed between the pair of splicing holes 123, so that the installation tool 20 can enter from one splicing hole 123, pass along the installation channel 140, and reach the splicing hole 123 at the other end of the installation channel 140. It can be understood that, when the installation channel 140 is enlarged, it may not be required that a pair of splicing holes 123 are on the same straight line, at this time, the installation tool 20 is changed correspondingly, and it can also be realized that the installation tool 20 can enter from one splicing hole 123, and along the installation channel 140, reach the splicing hole 123 at the other end of the installation channel 140, for example, in the limit situation, no electronic component is arranged in the cavity, the cavity is the installation channel 140, and under the situation that the operation convenience is not considered, the pair of splicing holes 123 are arranged in a staggered manner, and only the style of the installation tool 20 needs to be adjusted, and the installation tool 20 can also reach the other splicing hole 123. In consideration of the convenience of operation, placing a pair of the splicing holes 123 in the same line facilitates designing the installation tool 20 while also facilitating a reduction in the space required for operating the installation tool 20.

Referring to fig. 3, the L ED box 10 further includes a splicing member 150, the splicing member 150 is disposed corresponding to one of the splicing holes 123 and assembled at the splicing hole 123, and the installation tool 20 enters from the other splicing hole 123 of the splicing holes 123 and abuts against the splicing member 150 to drive the splicing member 150 to move relative to the box frame 120, so that the splicing member 150 is fixed to the other L ED box 10, and the splicing between the two L ED boxes 10 is completed.

Therefore, through the cooperation of a pair of splicing hole 123 and splicing piece 150, can realize that preceding installation between L ED box 10 is fixed, stretch into mounting tool 20 from splicing hole 123, form the cooperation with splicing piece 150 along installation channel 140, promote splicing piece 150 and remove along the relative box frame 120 of splicing hole 123, finally splicing piece 150 stretches out outside L ED box 10, enter into in the splicing hole 123 of another L ED box 10 and fix, thereby make two L ED boxes 10 fixed, be provided with many pairs when splicing hole 123, splicing piece 150 corresponds when setting up a plurality ofly, can be with the firm fixed of two L ED boxes 10, accomplish the concatenation between two L ED boxes 10.

In one or more embodiments, when two L ED boxes 10 are spliced, the splicing piece 150 can be assembled and fixed to the splicing hole 123 of the other L ED box 10, which is not provided with the splicing piece 150. on one hand, the function reuse of the splicing hole 123 can be realized, the splicing piece 150 is prevented from being provided with a plurality of holes on the box frame 120, on the other hand, the cavity of the assembled box is prevented from being communicated with the outside, and the waterproof performance of the L ED box 10 can be improved.

In a specific embodiment, the splicing hole 123 is a threaded hole, the splicing member 150 is provided with threads, and the threads are assembled on the splicing hole 123, the mounting tool 20 pushes the splicing member 150 to rotate, so that the splicing member 150 enters the splicing hole 123 of another L ED box 10 without the splicing member 150, and is in threaded connection with the splicing hole 123, so that the two L ED boxes 10 are spliced and fixed.

With continued reference to fig. 5 and 8, the splicing element 150 may include a fixing portion 152, a connecting portion 154 and a driving portion 156, the fixing portion 152 is at least partially received in the splicing hole 123 and is fixedly connected to the box frame 120, one end of the connecting portion 154 is fixedly connected to the fixing portion 152, the other end is fixedly connected to the driving portion 156, and the driving portion 156 cooperates with the installation tool 20 to drive the splicing element 150 to move relative to the box frame 120 by using the installation tool 20. For example, the fixing portion 152 is provided with external threads and is screw-fixed to the case frame 120. For example, in a specific embodiment, the driving portion 156 is provided with a blind hole 156a, the blind hole 156a has at least one corner, the installation tool 20 is inserted into the blind hole 156a, so that the rotation of the installation tool 20 can drive the rotation of the splicing element 150, and the splicing element 150 moves along the splicing hole 123 and protrudes out of the box frame 120 when rotating.

Referring to fig. 3 and 8, in one or more embodiments, an elastic member 160 may be further included, the elastic member 160 is sleeved on the connecting portion 154, one end of the elastic member 160 abuts against the box frame 120, the other end of the elastic member abuts against the driving portion 156, when the two L ED boxes 10 are spliced and fixed, the elastic member 160 is in a compressed state, and during splicing, the elastic member 160 has a tendency of preventing the splicing member 150 from moving, the splicing member 150 is in a cavity and is not visible to the outside during splicing, by providing the elastic member 160, feedback of the splicing member 150 to the installation tool 20 may be enhanced, so that an installer may perform installation adjustment according to the feedback, and meanwhile, by providing the elastic member 160, the splicing member 150 may be kept in a vertical state all the time, so that the axis of the splicing member 150 and the axis of the splicing hole 123 are on the same straight line, and the posture of the splicing member 150 during moving.

Referring to fig. 4 and 8, the box frame 120 may be provided with a ring-shaped sleeve 124 corresponding to the splicing member 150, the ring-shaped sleeve 124 is disposed around the splicing hole 123, and the elastic member 160 is at least partially accommodated in the ring-shaped sleeve 124. The arrangement of the annular sleeve 124 can prevent the elastic member 160 from slipping, and on the other hand, can provide guiding and path correcting effects for the movement of the splicing member 150, so that when the mounting tool 20 drives the splicing member 150 to move, the splicing member 150 is prevented from being inclined, and thus the gap between the two boxes after splicing and fixing is too large.

The outer diameter of the annular sleeve 124 may be smaller than or equal to the maximum outer diameter of the driving portion 156, so that after the splice 150 moves a certain distance, the driving portion 156 abuts against the annular sleeve 124, and the splice 150 is prevented from moving excessively to detach the two L ED boxes 10.

Referring to fig. 4 and 8, in one or more embodiments, a first mounting hole 125 is further disposed on the box frame 120, the first mounting hole 125 is disposed corresponding to the splicing hole 123 without the splicing member 150, and is communicated with the splicing hole 123 without the splicing member 150 to form a stepped hole structure with the splicing hole 123, and the installation tool 20 sequentially passes through the first mounting hole 125 and the splicing hole 123 to enter the installation channel 140, and is at least partially accommodated in the first mounting hole 125. By providing the first mounting hole 125, the mounting tool 20 can be positioned through the first mounting hole 125 and fixed to the box frame 120.

The box frame 120 may further include a second mounting hole 126, and the second mounting hole 126 is spaced from the first mounting hole 125 by a predetermined distance, so that a protrusion may be disposed on the installation tool 20 to cooperate with the second mounting hole 126, so that the installation tool 20 may be fixed to the box frame 120 to have a force application point when the installation tool 20 is used to splice boxes, thereby facilitating the operation of the installation tool 20. For example, in the embodiment shown in fig. 4, two second mounting holes 126 are provided, the centers of the two second mounting holes 126 and the first mounting hole 125 are substantially aligned, and the installation tool 20 is fixed to the box frame 120 through the first mounting hole 125 and/or the second mounting hole 126, so that an installer can operate the installation tool 20 to splice boxes. Of course, the first and second mounting holes 125, 126 may not be aligned, but may be configured to form a triangle or other geometric shape, which also serves to prevent the mounting tool 20 from swinging relative to the case frame 120.

Referring to fig. 4 and 8, in one or more embodiments, a positioning column 127 and a positioning hole 128 are disposed on an outer side wall of the box frame 120, and the positioning column 127 and the positioning hole 128 are respectively disposed on two opposite side plates 122 for positioning when the boxes are spliced.

The locating hole 128 can be a circular hole, also can be the rectangular shape hole, and the circular hole is favorable to direct positioning, and the rectangular shape hole can realize the position fine setting in another direction under the condition of the location of realizing a direction. For example, in the embodiment shown in fig. 4, the positioning holes 128 on one of the side plates 122 are circular holes, and the positioning holes 128 on the other side plate 122 are elongated holes.

In a specific embodiment, the positioning column 127 can be cooperatively positioned with the second mounting hole 126, so that the second mounting hole 126 can be functionally reused.

Referring to fig. 2 and 3, in one or more embodiments, L ED housing 10 further includes an input port 171 and an output port 173 for connecting to another L ED housing 10 or a power or data source via the input port 171 or the output port 173. housing frame 120 is provided with a wire inlet 129 corresponding to at least one of the input port 171 and the output port 173 for interfacing the housings via the wire inlet 129.

In the specific embodiment, L ED box 10 is hard wired to implement power connection, network connection and data connection, at this time, wire inlet 129 is not needed, of course, wire inlet 129 may be reserved to facilitate stable connection by manual intervention when input port 171 and output port 173 of different boxes are not stably connected.

L ED case 10 is provided with a plug 180 corresponding to the wire inlet 129, the plug 180 sealing the wire inlet 129. for example, the sidewall of the wire inlet 129 may be provided with threads, and the plug 180 is threadedly mounted on the wire inlet 129.

L ED box 10 of each embodiment of this application, through framework installation passageway 140 between a pair of concatenation hole 123, make mounting tool 20 get into from a concatenation hole 123, assemble on the splice 150 of another concatenation hole 123 along installation passageway 140 butt, promote splice 150 and remove relative box frame 120, thereby make splice 150 be fixed in another L ED box 10, realize the concatenation between the box L ED box 10 can realize the concatenation between the box under the state of not dismantling the module, thereby need not to transport module and frame split, can realize the transportation of box level, the required manpower of dismouting in the transportation has been saved, material resources cost, simultaneously, need not to reinstall module and box after the transportation, therefore just also need not to carry out the roughness, the regulation of segment difference, can reduce installation time greatly, reduce the installation cost, finally, L ED box 10's mounting means, can be suitable for both before installation and after installation, can all realize box level transportation when preceding, after installation.

The application also provides a concatenation display screen, including at least two L ED boxes, it is fixed that the mutual concatenation between the L ED box, L ED box can be L ED box 10 of any above-mentioned embodiment.

Because the spliced display screen comprises the L ED box 10, the L ED box 10 has the beneficial effects that the spliced display screen also has correspondingly.

Referring to fig. 9 and 10, the present application further provides an installation tool 20, configured to cooperate with installation of the L ED box 10 of the above embodiment, the installation tool 20 includes a fixing member 210, a force application member 220, a transmission assembly 230, and a driving rod 240, where the fixing member 210 is configured to be fixed to the box frame 120, the force application member 220 is configured to be operated by an installer and fixed to the fixing member 210, one end of the force application member 220 is connected to the transmission assembly 230 in a transmission manner to transmit an external force applied by the installer to the transmission assembly 230, one end of the transmission assembly 230 is connected to the force application member 220, the other end of the transmission assembly 230 is connected to the driving rod 240 to transmit a force on the force application member 220 to the driving rod 240, one end of the driving rod 240 is connected to the transmission assembly 230 in a transmission manner, and the other.

The fixing member 210 is a hollow structure, and is provided with a containing cavity 210a, and the transmission assembly 230 is contained in the containing cavity 210a, so that the transmission assembly 230 can be protected. The force application member 220 and the driving rod 240 at least partially extend into the accommodating cavity 210a to realize transmission with the transmission assembly 230. For example, referring to fig. 11, the fixing member 210 may be provided with a first through hole 210b and a second through hole 210c, the accommodating cavity 210a is communicated with the outside through the first through hole 210b and the second through hole 210c, the force applying member 220 passes through the first through hole 210b and is connected to the transmission assembly 230, so that the force applying member 220 is limited in the first through hole 210b, and the driving rod 240 passes through the second through hole 210c and is connected to the transmission assembly 230, so that the driving rod 240 is limited in the second through hole 210 c.

Referring to fig. 11, the outer sidewall of the fixing member 210 may be provided with a first positioning protrusion 212, the first positioning protrusion 212 is provided with a third through hole 212a, the third through hole 212a is communicated with the second through hole 210c, and the driving rod 240 is at least partially received in the third through hole 212 a. Thus, the fixing member 210 may be fixed to the case frame 120 by the first positioning protrusion 212. For example, the first positioning protrusion 212 is engaged with the first mounting hole 125, and the first positioning protrusion 212 is at least partially inserted into the first mounting hole 125, so that the second through hole 210c and the third through hole 212a communicate with the splicing hole 123.

The outer sidewall of the fixing member 210 may be further provided with at least one second positioning protrusion 214 to fix the fixing member 210 to the case frame 120. The second positioning protrusion 214 is spaced apart from the first positioning protrusion 212. For example, the second positioning protrusion 214 may correspond to the second mounting hole 126, and the second positioning protrusion 214 is inserted into the second mounting hole 126, so that the fixing member 210 may be fixed to the box frame 120 by the first positioning protrusion 212 and the second positioning protrusion 214, and the fixing member 210 may not swing when being assembled to the box frame 120 due to at least two force-applying points, thereby avoiding an inconvenience of operation caused by the swing of the mounting tool 20 itself when the installer operates the mounting tool 20.

In the illustrated embodiment, two second positioning protrusions 214 are provided, and the two second positioning protrusions 214 are aligned with the center of one first positioning protrusion 212. It is understood that the second positioning protrusion 214 may be provided in one, three, four or more. The arrangement of the first positioning protrusions 212 and the second positioning protrusions 214 is not limited to being arranged in a straight line, and may be constructed in a triangular shape or other regular or irregular geometric shapes.

The first positioning protrusion 212 and the second positioning protrusion 214 have a predetermined height so as to manually adjust the depth of the first positioning protrusion 212 inserted into the first mounting hole 125 and the depth of the second positioning protrusion 214 inserted into the second mounting hole 126 during the splicing process, thereby adapting the installation tool 20 to the movement of the splicing element 150. In the process, the depth of the first positioning protrusion 212 inserted into the first mounting hole 125 or the depth of the second positioning protrusion 214 inserted into the second mounting hole 126 can be adapted to the moving distance of the splicing element 150.

The second positioning projection 214 may have a telescopic structure to achieve height adjustment. For example, referring to fig. 12, in some embodiments, the second positioning protrusion 214 includes a first section 2142 and a second section 2144, the first section 2142 is fixedly connected to the second section 2144 and at least partially embedded in the second section 2144, and the first section 2142 can move relative to the second section 2144 after being stressed and is received in the second section 2144. Therefore, when the first section 2142 partially extends out of the second section 2144 and is fixed with the second section 2144, the second positioning protrusion 214 has a first height, and when the first section 2142 is completely accommodated in the second section 2144 after being stressed, the second positioning protrusion 214 has a second height, so that the second positioning protrusion 214 has two levels of heights, and the mounting tool 20 can be always kept in positioning and clamping with the box frame 120 in the splicing process and can be adapted to the moving process of the splicing member 150. For example, the first section 2142 is provided with a plurality of beads 2141, the second section 2144 is provided with a through hole 214a corresponding to the beads 2141, the beads 2141 are accommodated in the through hole 214a, so that the first section 2142 and the second section 2144 are fixed, when the first section 2142 is stressed, the beads 2141 retract into the first section 2142, and the first section 2142 can move relative to the second section 2144, thereby achieving telescopic adjustment.

In one or more embodiments, the first positioning protrusion 212 is also identical in structure to the second positioning protrusion 214, and also has a telescopic structure to achieve height adjustment.

Referring to fig. 9 and 10, the force application member 220 at least includes a rotating shaft 222, the rotating shaft 222 is rotatably connected to the transmission assembly 230, and the installer rotates the rotating shaft 222 to drive the transmission assembly 230 to rotate, so as to drive the driving rod 240 to rotate. The driving rod 240 drives the splice 150 to move relative to the box frame 120 when rotating.

The force applying member 220 may further include a cross bar 224, and the cross bar 224 is fixedly connected to the rotating shaft 222 and has a predetermined included angle with the rotating shaft 222. For example, in the illustrated embodiment, the crossbar 224 is perpendicular to the shaft 222, such that the force applying member 220 is generally "T" shaped. Thus, the installer can easily grip the force applying member 220, enhancing usability of the installation tool 20.

The transmission assembly 230 is used for realizing the force transmission between the force application member 220 and the driving rod 240. In one or more embodiments, the transmission assembly 230 can change the acting direction of the force during the force transmission process, i.e. the rotation axis 222 of the force application member 220 and the driving rod 240 may not be aligned but arranged at a predetermined angle. For example, in the embodiment shown in fig. 10, the force application member 220 is perpendicular to the driving rod 240, and the transmission assembly 230 converts the vertical force into the horizontal force, so that the horizontal force is finally applied to the splicing member 150 to drive the splicing member 150 to move.

Referring to fig. 10, in a specific embodiment, the transmission assembly 230 is a bevel gear set, and includes a first bevel gear 232 and a second bevel gear 234, the first bevel gear 232 and the second bevel gear 234 are engaged with each other, the force application member 220 is fixedly connected to the first bevel gear 232, and the driving rod 240 is fixedly connected to the second bevel gear 234, so that the force on the force application member 220 can be transmitted to the driving rod 240 through the bevel gear set, when the installer rotates the force application member 220, the driving rod 240 can be driven to rotate, and when the driving rod 240 rotates, the splicing member 150 is pushed to move relative to the box frame 120.

The drive rod 240 has a predetermined length to accommodate the length or width of the L ED housing 10.

For example, in the embodiment shown in fig. 9, one end of the driving rod 240, which is far away from the driving assembly 230, is provided with a detent protrusion 242, the detent protrusion 242 is at least partially inserted into the splice 150 during splicing of the box, the detent protrusion 242 has at least one corner, so that when the detent protrusion 242 is inserted into the splice 150, the driving rod 240 rotates the splice 150 through the rotation of the detent protrusion 242, thereby moving the splice 150, the detent protrusion 242 has a shape corresponding to the blind hole 156a of the driving portion 156 of the splice 150, and when the box is spliced by the installation tool 20, the detent protrusion 242 is inserted into the blind hole 156a, and because both the blind hole 156a and the detent protrusion 242 have at least one corner, the splice 150 can be rotated when the driving rod 240 rotates, so that the splice 150 protrudes L out of the box 10.

In one or more embodiments, the drive rod 240 may be a telescoping rod to accommodate different case lengths/widths. For example, the driving rod 240 may be a two-segment telescopic rod, which can adjust any length within a certain length range, and the specific length adjustment principle may be the same as the length adjustment principle of an alpenstock and a clothes airing rod in the prior art.

The mounting tool 20 can be inserted from the splicing hole 123 in one side plate 122 of the box frame 120, the force application member 220 is rotated to drive the driving rod 240 to rotate through the transmission assembly 230, and the driving rod 240 rotates to push the splicing member 150 to extend out of the splicing hole 123, so that the L ED box 10 is spliced and fixed, therefore, the front mounting requirement of the L ED box 10 can be met, and the display module 110 and the box frame 120 do not need to be separated in the mounting process, so that the L ED box 10 can be transported at a box level in the transportation process.

Referring to fig. 6, 7 and 13, when the L ED box 10 is mounted by using the mounting tool 20, a first L ED box 10 is first mounted and fixed on a bracket, then another L ED box 10 is placed at a position where the previous L ED box 10 is substantially in the same plane, and the L ED box 10 to be fixed is moved to insert positioning posts 127 of two L ED boxes 10 into positioning holes 128, at this time, the two L ED boxes 10 are positioned before being spliced, and the two L ED boxes 10 have splicing holes 123 arranged oppositely, so that the splicer 150 can enter the splicing holes 123 of the other L ED box 10 when being stressed.

Subsequently, the driving rod 240 of the installation tool 20 is inserted from the splicing hole 123 of the unfixed L ED cabinet 10, in which the splice 150 is not disposed, and moved along the installation channel 140 until the detent nose 242 engages in the blind hole 156a of the driving portion 156, at which time at least the second detent projection 214 engages partially in the second mounting hole 126, and the first detent projection 212 also engages in the first mounting hole 125, in order to adapt to the splice 150 during the subsequent movement of the splice 150, the attitude of the installation tool 20 can be adjusted manually, so that at the beginning of the splicing phase, the second detent projection 214 engages only partially in the second mounting hole 126, the detent nose 242 engages only partially in the blind hole 156a, the engagement depth of the second detent projection 214 is such that the fixing member 210 does not rotate during the operation of the installation tool 20, the force application member 220 is rotated by the driving rod 240 via the transmission assembly 230, the driving rod 240 is rotated by the engagement of the detent nose 242 with the blind hole 156a, the detent nose 242 engages with the splice 150, thus, the rotating the driving rod 150, the splice 150 rotates the driving rod 150 into the splice 150, and the box 150, and finally, the splice 20, the two splice housing 150 and the splice housing 150, the housing 10 stops rotating, the splice housing 150 and the splice 20, the splice housing 150, the housing 10, the housing 150 enters into the splice 20, and the splice housing 10, the housing 120, and the housing 10, and the housing 150, and the housing 10.

After the unfixed L ED cassette 10 is mated with the L ED cassette 10 secured to the bracket, the unfixed L ED cassette 10 is secured to the bracket, completing the installation of another L ED cassette 10, and the process is repeated to complete the mating of all L ED cassettes 10.

Of course, a plurality of L ED boxes 10 can be spliced and then fixed on the support.

The process is reversed, allowing L ED boxes 10 to be un-spliced.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An L ED box body, which comprises a display module and a box body frame, wherein the display module is fixed on the box body frame,

the box body frame comprises a back plate and a plurality of side plates, the side plates are fixed on the back plate, splicing holes are formed in the side plates, an installation channel is formed between the splicing holes in two opposite side plates and used for accommodating installation tools, the splicing holes in the two opposite side plates are arranged in pairs, and the splicing holes are communicated through the installation channel;

the box body frame further comprises a splicing piece, wherein the splicing piece is arranged corresponding to one of the splicing holes and assembled at the splicing hole, and an installation tool enters from the other splicing hole of the splicing holes and abuts against the splicing piece so as to drive the splicing piece to move relative to the box body frame, so that the splicing piece is fixed with the other L ED box body.

2. The L ED box of claim 1, wherein the pair of splice holes are collinear and form a linear mounting channel therebetween.

3. The L ED box of claim 1, wherein when two L ED boxes are spliced, the splice can be fitted and fixed to a splicing hole of another L ED box where no splice is provided.

4. The L ED box of claim 3, wherein the splicing holes are threaded, and the splice is threaded and threadedly engaged with the splicing holes, and the splice enters and is threadedly engaged with a splicing hole of another L ED box not provided with a splice.

5. The L ED box of claim 1, wherein the splicing element includes a fixing portion, a connecting portion, and a driving portion, the fixing portion is at least partially received in the splicing hole and is fixedly connected to the box frame, one end of the connecting portion is fixedly connected to the fixing portion, the other end of the connecting portion is fixedly connected to the driving portion, and the driving portion is engaged with an installation tool to drive the splicing element to move relative to the box frame by the installation tool.

6. The L ED box of claim 5, wherein the anchor portion is externally threaded and is threadably secured to the box frame.

7. The L ED box of claim 5 or 6, further comprising an elastic member sleeved on the connecting portion, one end of the elastic member abuts against the box frame, and the other end of the elastic member abuts against the driving portion.

8. The L ED box of claim 1, wherein the box frame is further provided with a first mounting hole, the first mounting hole is communicated with the splicing hole without splices and forms a stepped hole structure with the splicing hole, and a mounting tool passes through the first mounting hole and the splicing hole in sequence into the mounting channel and is at least partially accommodated in the first mounting hole.

9. The L ED box of claim 8, wherein the box frame is further provided with a second mounting hole having a predetermined distance from the first mounting hole, and a mounting tool is fixed to the box frame through the first mounting hole and/or the second mounting hole.

10. A spliced display screen, which comprises at least two L ED boxes, wherein the L ED boxes are spliced and fixed with each other, and the L ED box is the L ED box of any one of claims 1-9.

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