CN116189557B

CN116189557B - A consolidate anti-seismic device for splicing liquid crystal display module

Info

Publication number: CN116189557B
Application number: CN202310349723.1A
Authority: CN
Inventors: 宫梓清
Original assignee: Nanjing Yanhuang Electronic Equipment Co ltd
Current assignee: Nanjing Yanhuang Electronic Equipment Co ltd
Priority date: 2023-04-04
Filing date: 2023-04-04
Publication date: 2023-12-19
Anticipated expiration: 2043-04-04
Also published as: CN116189557A

Abstract

The invention discloses a reinforcing anti-seismic device for splicing liquid crystal display modules, which comprises a liquid crystal display main body, wherein a connecting front frame is arranged at a connecting hole on the back of the liquid crystal display main body through bolts, a connecting middle frame is fixedly arranged in the middle of the back of the connecting front frame, an adjusting sliding block is fixedly arranged in the middle of one side of the connecting middle frame, and an installing outer frame is movably arranged on the outer side of the adjusting sliding block.

Description

A consolidate anti-seismic device for splicing liquid crystal display module

Technical Field

The invention relates to the technical field of liquid crystal display splicing, in particular to a reinforcing and anti-seismic device for splicing liquid crystal display modules.

Background

The spliced screen is a complete display unit, can display a combined large picture after being freely combined and installed, is similar to building blocks, and if the spliced screen is classified according to backlight sources, the 2021 year cut-off is divided into: the LED liquid crystal spliced screen, the OLED self-lighting liquid crystal spliced screen and the DLP rear projection spliced screen, wherein an auxiliary spliced structure is needed in the splicing process of the spliced display due to different product types of the spliced screen due to different backlight sources;

but at present, the in-process of splicing the spliced display through the splicing structure is limited by the self structure of the splicing structure, so that the display cannot be tightly attached to the edge part in the splicing process, and the display cannot be effectively fixed after being spliced, thereby reducing the use stability of the splicing structure of the display.

Disclosure of Invention

The invention provides a reinforcing and anti-seismic device for splicing a liquid crystal display module, which can effectively solve the problems that in the process of splicing a spliced display through a splicing structure, the edge part of the display cannot be tightly attached in the process of splicing and the display cannot be effectively fixed after being spliced due to the self-structure limitation of the splicing structure, so that the use stability of the splicing structure of the display is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: a reinforcement anti-seismic device for splicing a liquid crystal display module comprises a liquid crystal display main body, wherein a fine adjustment splicing installation mechanism is arranged on the back surface of the liquid crystal display main body;

the fine adjustment splicing installation mechanism comprises a connecting front frame, a connecting middle frame, an adjusting sliding block, an installation outer frame, an adjusting wide groove, a limiting threaded rod, a clamping circular ring, an adjusting side bolt, a splicing bent rod, a splicing concave rod, a splicing convex rod, a fixing bolt and a splicing back plate;

the liquid crystal display comprises a liquid crystal display main body, a connecting front frame, a connecting middle frame, an adjusting slide block, an adjusting outer frame, adjusting wide grooves, limiting threaded rods, clamping rings and adjusting side bolts, wherein the connecting front frame is installed at a back connecting hole of the liquid crystal display main body through bolts;

the novel connecting structure is characterized in that splicing bent rods are fixedly connected to positions of the top surface and the bottom surface of the installation outer frame, splicing concave rods are fixedly connected to the ends of the splicing bent rods at one end of the installation outer frame, splicing convex rods are fixedly connected to the ends of the splicing bent rods at the other end of the installation outer frame, fixing bolts penetrate through threads at the ends of the splicing convex rods, and splicing backboard is fixedly connected to the middle of the back of the installation outer frame.

Preferably, a movable gap is reserved between the edge part of the adjusting slide block and the inner wall of the mounting outer frame, and the back surface of the adjusting slide block is tightly in sliding fit with the inner wall of the mounting outer frame.

Preferably, the diameter of the limiting threaded rod is smaller than the inner diameter of the adjusting wide groove, the end face of the clamping circular ring is tightly attached to the back face of the mounting outer frame, and the end face of the adjusting side bolt is tightly attached to the four side faces of the adjusting sliding block in a sliding manner.

Preferably, two adjacent spliced concave rods and spliced convex rod ends are correspondingly clamped, and the spliced concave rods and the spliced convex rod ends are fixed through adjusting side bolts.

Preferably, a flexible supporting isolation damping mechanism is arranged at the bottom of the spliced backboard;

the flexible supporting isolation damping mechanism comprises a splicing clamping groove, a clamping upper block, a supporting sliding block, a guiding outer pipe, a guiding side groove, a fixed side pin, a supporting bottom block, a supporting bottom frame, a supporting rubber ring, a supporting elastic liquid bag, an adjusting top frame, an adjusting middle bolt, a driving sliding plate and a telescopic liquid bag;

the inner side of the bottom of the spliced backboard is provided with a spliced clamping groove, the position, corresponding to the bottom of the spliced backboard, inside the spliced clamping groove is clamped with an upper clamping block, both ends of the bottom surface of the upper clamping block are fixedly connected with supporting sliding blocks, the outer side of each supporting sliding block is slidably sleeved with a guiding outer pipe, the middle part of the outer side of each guiding outer pipe is penetrated and provided with a guiding side groove, the position, corresponding to the inner side of each guiding side groove, of one side of each supporting sliding block is provided with a fixed side pin through threads, and the bottom ends of the two guiding outer pipes are fixedly connected with a supporting bottom block;

the supporting bottom block is fixedly connected with a supporting bottom frame, a supporting rubber ring is adhered to the edge of the bottom surface of the supporting bottom frame, an elastic supporting liquid bag is filled at the bottom of the inner side of the supporting bottom frame, an adjusting top frame is fixedly connected to the top surface of the supporting bottom frame corresponding to the position of one side of the supporting bottom block, an adjusting middle bolt is installed at the middle of the top end of the inner side of the adjusting top frame through threads, a driving sliding plate is rotatably installed at the bottom end of the adjusting middle bolt corresponding to the position of the inner side of the adjusting top frame, and a telescopic liquid bag is adhered to the bottom surface of the driving sliding plate corresponding to the position of the inner side of the adjusting top frame.

Preferably, the outer side of the supporting slide block is tightly and slidably attached to the inner wall of the guide outer tube, and the end face of the fixed side pin is tightly attached to the side face of the guide outer tube.

Preferably, the edge of the driving slide plate is tightly attached to the inner wall of the adjusting top frame, the telescopic liquid bag is communicated with the supporting elastic liquid bag through a thin pipe, and insulating oil is filled in the telescopic liquid bag and the supporting elastic liquid bag.

Preferably, an edge flexible limiting clamping cooling mechanism is arranged on the outer side of the crystal display main body;

the side flexible limiting clamping cooling mechanism comprises a limiting frame, a limiting front edge, a limiting inner edge, a limiting telescopic bag, a sealing small valve, an infusion tubule, a liquid supply pump, a liquid storage end box, a connecting side pipe, a heat conducting side bag, a regulating valve, a cooling pump, a cooling end box, a heat dissipation fin and a circulating side pipe;

the liquid crystal display comprises a liquid crystal display main body, wherein the outer side of the liquid crystal display main body is coated with a limiting frame, the inner side of the limiting frame is provided with a limiting front edge corresponding to the front position of the liquid crystal display main body, the inner side of the limiting frame is provided with a limiting inner edge corresponding to the side position of the liquid crystal display main body, a limiting telescopic bag is bonded at the position of the inner side of the limiting frame corresponding to the outer side of the liquid crystal display main body, the top end and the middle of the bottom end of the back of the limiting telescopic bag are connected with sealing small valves through pipelines, one end middle of each sealing small valve is fixedly connected with an infusion tubule, the tail end of each infusion tubule is fixedly connected with a liquid supply pump, the liquid supply pump is powered by an external power supply, the positions of the tail ends of the liquid supply pumps corresponding to the side positions of a spliced bent rod are fixedly connected with liquid storage end boxes, and two liquid storage end boxes positioned at the top and the bottom are mutually communicated through a connecting side pipe;

the side position department that the limit frame inboard corresponds spacing flexible bag is provided with the heat conduction limit bag, heat conduction limit bag back top and bottom middle part are all through pipeline fixedly connected with governing valve, the governing valve tip is through pipeline fixedly connected with cooling pump, cooling pump tip corresponds corresponding concatenation bent lever side position department fixedly connected with cooling end box, the even fixedly connected with fin of cooling end box inclined plane equidistance, two communicate each other through circulation side pipe between the cooling end box.

Preferably, gaps are reserved between the side face of the limiting front edge and the inner face of the limiting inner edge and the liquid crystal display main body, and the limiting telescopic bag can stretch from outside to inside.

Preferably, the outer side of the heat-conducting side bag is tightly attached to the spacing telescopic bag and the liquid crystal display main body.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the fine adjustment splicing installation mechanism is arranged, the splicing process between the liquid crystal display main bodies is optimized through the mutual matching among the components in the fine adjustment splicing installation mechanism, and the splicing units of the liquid crystal display main bodies are assembled through the mutual matching among the splicing concave rods, the splicing convex rods and the fixing bolts, so that the liquid crystal display main bodies can be fixed to the front side of the splicing structure through the connecting front frame, the mutual splicing among the liquid crystal display main bodies is realized, and the splicing convenience among the liquid crystal display main bodies is effectively improved;

meanwhile, the positions of the liquid crystal display main bodies can be slightly adjusted by adjusting the mutual matching between the wide grooves and the side bolts, so that the edges of the liquid crystal display main bodies can be aligned by manual active adjustment, the liquid crystal display main bodies can be attached more tightly, the splicing process of the display is effectively improved, and the display effect of the display after the splicing is improved.

2. The flexible supporting isolation damping mechanism is arranged, the supporting adjustment process of the display is optimized through the mutual matching between the components in the flexible supporting isolation damping mechanism, and the height of the display is quickly and conveniently adjusted through the mutual matching between the supporting sliding block and the guiding outer tube, so that the display can be freely adjusted according to the requirement, and the use experience of the display is improved;

through adjusting the mutual cooperation between well bolt, drive slide and the flexible liquid bag, can pack supporting the elasticity liquid bag to make and support the elasticity liquid bag and can possess sufficient intensity and support supporting the underframe bottom, and keep apart supporting the underframe and placing the bench top surface through supporting the rubber ring and supporting the elasticity liquid bag, make and place the vibration that the bench upwards transmits and weaken through supporting the rubber ring and supporting the elasticity liquid bag, and then effectually prevented that the display from receiving external vibration influence and taking place to rock, effectually improved the stability in the display use.

3. The side flexible limiting clamping cooling mechanism is arranged, the clamping heat dissipation process of the liquid crystal display main body after installation is optimized through the mutual matching between the components in the side flexible limiting clamping cooling mechanism, and the spliced liquid crystal display main body is subjected to auxiliary limiting through the mutual matching between the limiting frame and the limiting telescopic bag, so that the liquid crystal display main body is effectively prevented from continuously shifting to influence normal viewing of the liquid crystal display main body in the using process, and meanwhile, the liquid crystal display main body is reset through the elasticity of the limiting telescopic bag after slight shifting through the telescopic characteristic of the limiting telescopic bag, so that the using stability of the spliced liquid crystal display main body is effectively improved;

meanwhile, through the mutual cooperation between the heat conduction side bags and the cooling end box, auxiliary heat dissipation is carried out for the liquid crystal display main body through circulation of heat conduction oil, so that the heat dissipation efficiency of the display is effectively improved, the phenomenon of serious heat generation of the display after long-time use is avoided, the use safety of the display is further improved, and the use function of the display splicing and reinforcing anti-seismic device is expanded.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

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

FIG. 2 is a schematic view of the structure of the back of the main body of the LCD according to the present invention;

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

FIG. 4 is a schematic view of the fine tuning splice mounting mechanism of the present invention;

FIG. 5 is a schematic view of the structure of the installation of the adjusting slide of the present invention;

FIG. 6 is a schematic view of the structure of the flexible support isolation damper of the present invention;

FIG. 7 is a schematic view of the structure of the edge flexible limit clamping cooling mechanism of the present invention;

FIG. 8 is a schematic view of the structure of the cooling end box installation of the present invention;

reference numerals in the drawings: 1. a liquid crystal display main body;

2. fine tuning the splicing installation mechanism; 201. connecting the front frame; 202. connecting the middle frame; 203. an adjusting slide block; 204. installing an outer frame; 205. adjusting the wide groove; 206. limiting the threaded rod; 207. clamping the circular ring; 208. adjusting the side bolts; 209. splicing bent rods; 210. splicing concave rods; 211. splicing the convex rods; 212. a fixing bolt; 213. splicing the backboard;

3. a flexible supporting isolation damping mechanism; 301. a splicing clamping groove; 302. the upper block is clamped; 303. a support slider; 304. a guide outer tube; 305. a guide side groove; 306. fixing the side pin; 307. a support bottom block; 308. a supporting bottom frame; 309. supporting a rubber ring; 310. supporting an elastic fluid cell; 311. adjusting the top frame; 312. adjusting the middle bolt; 313. driving a slide plate; 314. a flexible fluid bladder;

4. the side part is flexible, limited and clamped with a cooling mechanism; 401. limiting frames; 402. limiting the front edge; 403. a limit inner edge; 404. limiting the telescopic bag; 405. sealing the small valve; 406. a transfusion tubule; 407. a liquid supply pump; 408. a liquid storage end box; 409. connecting the side pipes; 410. a thermally conductive edge bladder; 411. a regulating valve; 412. a cooling pump; 413. cooling the end box; 414. a heat dissipation fin; 415. and circulating the side pipe.

Description of the embodiments

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-8, the invention provides a technical scheme, namely a reinforced anti-seismic device for splicing a liquid crystal display module, which comprises a liquid crystal display main body 1, wherein a fine-tuning splicing installation mechanism 2 is arranged on the back surface of the liquid crystal display main body 1;

the fine adjustment splicing installation mechanism 2 comprises a connecting front frame 201, a connecting middle frame 202, an adjusting sliding block 203, an installation outer frame 204, an adjusting wide groove 205, a limiting threaded rod 206, a clamping circular ring 207, an adjusting side bolt 208, a splicing bent rod 209, a splicing concave rod 210, a splicing convex rod 211, a fixing bolt 212 and a splicing backboard 213;

the front connecting frame 201 is installed at the back connecting hole of the liquid crystal display main body 1 through bolts, the middle part of the back of the front connecting frame 201 is fixedly provided with the middle connecting frame 202, one side middle part of the middle connecting frame 202 is fixedly provided with the adjusting slide block 203, the outer side of the adjusting slide block 203 is movably provided with the mounting outer frame 204, four corners of the back of the mounting outer frame 204 corresponding to the back of the adjusting slide block 203 are respectively provided with an adjusting wide groove 205, the four corners of the back of the adjusting slide block 203 are fixedly connected with limiting threaded rods 206 corresponding to the inner positions of the adjusting wide grooves 205, movable gaps are reserved between the edge parts of the adjusting slide block 203 and the inner walls of the mounting outer frame 204, the back of the adjusting slide block 203 is tightly and slidably attached to the inner walls of the mounting outer frame 204, one end of the outer side of the limiting threaded rods 206 is sleeved with a clamping circular ring 207 through threads, the middle part of the mounting outer frame 204 is provided with adjusting side bolts 208 through threads in a penetrating mode, the diameter of the limiting threaded rods 206 is smaller than the inner diameter of the adjusting wide grooves 205, the end faces of the clamping circular ring 207 are tightly attached to the back of the mounting outer frame 204, and the four side faces of the adjusting side bolts 208 are tightly and slidably attached to the adjusting slide sides of the adjusting slide 204;

the two ends of the top surface and the bottom surface of the mounting outer frame 204 are fixedly connected with splicing bent rods 209, the end parts of the splicing bent rods 209 positioned at one end of the mounting outer frame 204 are fixedly connected with splicing concave rods 210, the end parts of the splicing bent rods 209 positioned at the other end of the mounting outer frame 204 are fixedly connected with splicing convex rods 211, the end parts of the splicing convex rods 211 are penetrated with fixing bolts 212 through threads, the middle part of the back surface of the mounting outer frame 204 is fixedly connected with splicing backboard 213, two adjacent splicing concave rods 210 and the end parts of the splicing convex rods 211 are clamped correspondingly, the end parts of the splicing concave rods 210 and the splicing convex rods 211 are fixed through adjusting side bolts 208, the splicing process between the liquid crystal display main bodies 1 is optimized through the mutual matching among the components in the fine-tuning splicing mounting mechanism 2, and the splicing units of the liquid crystal display main bodies 1 are assembled through the mutual matching among the splicing concave rods 210, the splicing convex rods 211 and the fixing bolts 212, so that the liquid crystal display main bodies 1 can be fixed to the front surface of a splicing structure through connecting front frames 201, the mutual splicing among the liquid crystal display main bodies 1 is realized, and the convenience of splicing among the liquid crystal display main bodies 1 is effectively improved;

meanwhile, the positions of the liquid crystal display main body 1 can be slightly adjusted by adjusting the mutual matching between the wide groove 205 and the side bolt 208, so that the edges of the liquid crystal display main body 1 can be aligned by manual active adjustment, the liquid crystal display main body 1 is more tightly attached, the splicing process of the display is effectively improved, and the display effect of the display after splicing is improved;

the bottom of the spliced backboard 213 is provided with a flexible supporting isolation damping mechanism 3;

the flexible supporting isolation damping mechanism 3 comprises a splicing clamping groove 301, a clamping upper block 302, a supporting sliding block 303, a guiding outer pipe 304, a guiding side groove 305, a fixing side pin 306, a supporting bottom block 307, a supporting bottom frame 308, a supporting rubber ring 309, a supporting elastic liquid bag 310, an adjusting top frame 311, an adjusting middle bolt 312, a driving sliding plate 313 and a telescopic liquid bag 314;

a splicing clamping groove 301 is formed in the inner side of the bottom of the splicing backboard 213, a clamping upper block 302 is clamped at the position, corresponding to the bottom of the splicing backboard 213, of the splicing clamping groove 301, both ends of the bottom surface of the clamping upper block 302 are fixedly connected with a supporting sliding block 303, a guiding outer tube 304 is sleeved on the outer side of the supporting sliding block 303 in a sliding manner, a guiding side groove 305 is formed in the middle of the outer side of the guiding outer tube 304 in a penetrating manner, a fixing side pin 306 is arranged at the position, corresponding to the guiding side groove 305, of one side of the supporting sliding block 303 through threads, a supporting bottom block 307 is fixedly connected to the bottom ends of the two guiding outer tubes 304, the outer side of the supporting sliding block 303 is tightly in sliding fit with the inner wall of the guiding outer tube 304, and the end face of the fixing side pin 306 is tightly fit with the side face of the guiding outer tube 304;

the bottom end of the supporting bottom block 307 is fixedly connected with a supporting bottom frame 308, the edge of the bottom surface of the supporting bottom frame 308 is adhered with a supporting rubber ring 309, the bottom of the inner side of the supporting bottom frame 308 is filled with a supporting elastic liquid bag 310, the position of the top surface of the supporting bottom frame 308 corresponding to one side of the supporting bottom block 307 is fixedly connected with an adjusting top frame 311, the middle part of the top end of the inner side of the adjusting top frame 311 is provided with an adjusting middle bolt 312 through threads, the bottom end of the adjusting middle bolt 312 is correspondingly provided with a driving sliding plate 313 in a rotating mode, the position of the bottom surface of the driving sliding plate 313 corresponding to the inner position of the adjusting top frame 311 is adhered with a telescopic liquid bag 314, the edge of the driving sliding plate 313 is tightly adhered with the inner wall of the adjusting top frame 311, the telescopic liquid bag 314 is communicated with the supporting elastic liquid bag 310 through a thin pipe, insulating oil is filled in the telescopic liquid bag 314 and the supporting elastic liquid bag 310, the supporting adjusting process of the display is optimized through the mutual matching between all components in the flexible supporting isolation damping mechanism 3, the supporting adjusting process of the display is fast and convenient to adjust the height of the display through the mutual matching between the supporting sliding block 303 and the guiding outer pipe 304, so that the display can be freely adjusted as required, and the display can be used to improve the experience;

the supporting elastic liquid bag 310 can be filled by adjusting the mutual coordination among the middle bolt 312, the driving sliding plate 313 and the telescopic liquid bag 314, so that the supporting elastic liquid bag 310 can have enough strength to support the bottom of the supporting bottom frame 308, the supporting bottom frame 308 and the top surface of the placing table are isolated by the supporting rubber ring 309 and the supporting elastic liquid bag 310, vibration transmitted upwards by the placing table can be weakened by the supporting rubber ring 309 and the supporting elastic liquid bag 310, and further the display is effectively prevented from shaking due to the influence of external vibration, and the stability of the display in the use process is effectively improved;

the outer side of the liquid crystal display main body 1 is provided with an edge flexible limiting clamping cooling mechanism 4;

the side flexible limit clamping cooling mechanism 4 comprises a limit frame 401, a limit front edge 402, a limit inner edge 403, a limit telescopic bag 404, a seal small valve 405, a transfusion tubule 406, a liquid supply pump 407, a liquid storage end box 408, a connecting side pipe 409, a heat conducting side bag 410, a regulating valve 411, a cooling pump 412, a cooling end box 413, a heat radiating fin 414 and a circulating side pipe 415;

the liquid crystal display comprises a liquid crystal display main body 1, a limiting frame 401 is coated on the outer side of the liquid crystal display main body 1, a limiting front edge 402 is arranged at the position, corresponding to the front side of the liquid crystal display main body 1, of the inner side of the limiting frame 401, a limiting inner edge 403 is arranged at the position, corresponding to the side position of the liquid crystal display main body 1, of the inner side of the limiting frame 401, a limiting telescopic bag 404 is adhered to the position, corresponding to the outer side of the liquid crystal display main body 1, the top end and the bottom end of the back surface of the limiting telescopic bag 404 are connected with a sealing small valve 405 through pipelines, the middle part of one end of the sealing small valve 405 is fixedly connected with an infusion tubule 406, the tail end of the infusion tubule 406 is fixedly connected with a liquid supply pump 407, the liquid supply pump 407 is powered by an external power supply, liquid storage end boxes 408 are fixedly connected with the positions, corresponding to the side positions of the corresponding spliced bent rods 209, two liquid storage end boxes 408 positioned at the top and the bottom are communicated with each other through a connecting side pipe 409, gaps are reserved between the side surfaces of the limiting front edge 402 and the inner edge 403 and the inner surface of the liquid crystal display main body 1, and the limiting telescopic bag 404 can stretch from outside to inside;

the inner side of the limit frame 401 is provided with a heat-conducting side bag 410 corresponding to one side position of the limit telescopic bag 404, the top end and the bottom end middle part of the back surface of the heat-conducting side bag 410 are fixedly connected with a regulating valve 411 through a pipeline, the end part of the regulating valve 411 is fixedly connected with a cooling pump 412 through a pipeline, the end part of the cooling pump 412 is fixedly connected with a cooling end box 413 corresponding to the side position of the corresponding splicing bent rod 209, the inclined planes of the cooling end boxes 413 are uniformly and fixedly connected with a heat dissipation fin 414 at equal intervals, the two cooling end boxes 413 are communicated with each other through a circulating side pipe 415, the outer side of the heat-conducting side bag 410 is tightly attached to the limit telescopic bag 404 and the liquid crystal display main body 1, the clamping heat dissipation process of the liquid crystal display main body 1 after installation is optimized through the mutual matching between the limit frame 401 and the limit telescopic bag 404, the normal viewing of the spliced liquid crystal display main body 1 is effectively prevented from being influenced by continuous offset in the use process, and the elastic reset of the limit telescopic bag 404 is improved through the telescopic characteristic of the limit telescopic bag 404, and the liquid crystal display main body 1 is effectively spliced and stable;

meanwhile, through the mutual matching between the heat conduction side bags 410 and the cooling end boxes 413, auxiliary heat dissipation is carried out for the liquid crystal display main body 1 through circulation of heat conduction oil, so that the heat dissipation efficiency of the display is effectively improved, the phenomenon of serious heat generation of the display after long-time use is avoided, the use safety of the display is further improved, and the use function of the display splicing and reinforcing anti-seismic device is expanded.

The working principle and the using flow of the invention are as follows: in the practical application process, when splicing the displays, the splicing structures are assembled according to the number of screens, the ends of the splicing concave rods 210 and the splicing convex rods 211 on the side surfaces of two adjacent splicing modules are buckled with each other, the splicing concave rods 210 and the splicing convex rods 211 are fixed through the fixing bolts 212, the mounting outer frame 204 and the components connected with the mounting outer frame are spliced and fixed through the splicing bent rods 209, the front connecting frame 201 and the threaded holes on the back surface of the liquid crystal display main body 1 are mutually fixed, the front connecting frame 201 is fixedly connected to the side surfaces of the adjusting slide blocks 203 through the middle connecting frame 202, and the liquid crystal display main body 1 and the adjusting slide blocks 203 are fixedly connected;

when the position of the liquid crystal display main body 1 needs to be finely adjusted, after the clamping circular ring 207 is slightly adjusted, the limiting threaded rod 206 can move freely in the adjusting wide groove 205, the moving range of the adjusting sliding block 203 is limited and guided through the adjusting wide groove 205 and the limiting threaded rod 206, the liquid crystal display main body 1 is further driven to move through the movement of the adjusting sliding block 203, the adjusting sliding block 203 is driven to slide along the inside of the mounting outer frame 204 through the adjusting side bolts 208 in the corresponding direction, and the position of the liquid crystal display main body 1 is further driven to slightly move in the moving process of the adjusting sliding block 203, so that the edge part of the liquid crystal display main body 1 is attached more tightly, and after the liquid crystal display main body 1 moves to a proper position, the clamping circular ring 207 is screwed again to be fixed, and further the adjustment of the splicing of the liquid crystal display main body 1 is realized;

after the display is spliced, the display is required to be placed on a proper working platform, the clamping upper block 302 is clamped to the bottom of the spliced backboard 213 through the splicing clamping groove 301, then all components of the clamping upper block 302 and the bottom of the clamping upper block are installed to the bottom of the display, when the distance between the clamping upper block 302 and the supporting bottom frame 308 is required to be adjusted, after the fixed side pins 306 are loosened, the supporting bottom frame 308 is pulled along the outer side of the supporting sliding block 303, and in the process of relatively sliding between the supporting sliding block 303 and the guiding outer pipe 304, the fixed side pins 306 are guided through the guiding side grooves 305, so that the phenomenon that the supporting sliding block 303 shifts in the sliding process is prevented;

after the working plane placed on the bottom surface of the supporting bottom frame 308 is used for supporting the bottom surface of the supporting bottom frame 308 through the supporting rubber ring 309, the supporting bottom frame 308 and the cavity inside the supporting rubber ring 309 are filled through the supporting elastic liquid bag 310, the driving sliding plate 313 is driven to slide downwards along the inner wall of the adjusting top frame 311 through the torsion adjusting middle bolt 312, the telescopic liquid bag 314 is extruded in the process of sliding the driving sliding plate 313 downwards, insulating oil inside the telescopic liquid bag 314 is led into the supporting elastic liquid bag 310 in the process of extruding the telescopic liquid bag 314, the inner cavity of the supporting bottom frame 308 is fully filled after the supporting elastic liquid bag 310 is expanded, and therefore the supporting bottom of the supporting bottom frame 308 is jointly supported through the supporting rubber ring 309 and the supporting elastic liquid bag 310, and external vibration is prevented from being directly transmitted to the supporting bottom frame 308 from the placing table upwards;

in the use process of the spliced liquid crystal display main body 1, the relative positions of the liquid crystal display main bodies 1 are required to be fixed, the outer side of the liquid crystal display main body 1 is protected through a limiting frame 401, the position of the liquid crystal display main body 1 is subjected to auxiliary limiting through a limiting front edge 402 and a limiting inner edge 403, the limiting frame 401 is covered on the outer side of the liquid crystal display main body 1, a sealing small valve 405 is opened, a liquid supply pump 407 is started to enable filling liquid in a liquid storage end box 408 to pass through the inside of a liquid delivery tubule 406, the filling liquid is led into a limiting telescopic bag 404 through the liquid delivery tubule 406, the limiting telescopic bag 404 continuously expands along with the flushing of the filling liquid, the outer side of the liquid crystal display main body 1 is coated and extruded after the limiting telescopic bag 404 expands to a limiting position, the liquid crystal display main body 1 is clamped and fixed through flexible limiting of the limiting telescopic bag 404, and the filling liquid between the two liquid storage end boxes 408 is communicated through a connecting side pipe 409;

and when the liquid crystal display main body 1 generates heat during operation, auxiliary heat dissipation needs to be performed on the liquid crystal display main body 1, heat emitted by the display is absorbed through the heat conduction side bags 410 filled on the outer side of the liquid crystal display main body 1, heat conduction oil is driven to flow to the cooling end box 413 through the cooling pump 412 after the regulating valve 411 is opened, auxiliary heat dissipation is performed on the heat conduction oil through the heat dissipation fins 414 in the process that the heat conduction oil flows through the inside of the cooling end box 413, and meanwhile, the heat conduction oil inside the two cooling end boxes 413 is communicated through the circulating side pipes 415, so that the heat dissipation is performed on the liquid crystal display main body 1 through the heat conduction side bags 410.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a consolidate anti-seismic device for concatenation liquid crystal display module, includes liquid crystal display main part (1), its characterized in that: the back of the liquid crystal display main body (1) is provided with a fine adjustment splicing installation mechanism (2);

the fine adjustment splicing installation mechanism (2) comprises a connecting front frame (201), a connecting middle frame (202), an adjusting sliding block (203), an installation outer frame (204), an adjusting wide groove (205), a limiting threaded rod (206), a clamping circular ring (207), an adjusting side bolt (208), a splicing bent rod (209), a splicing concave rod (210), a splicing convex rod (211), a fixing bolt (212) and a splicing backboard (213);

the liquid crystal display comprises a liquid crystal display main body (1), wherein a connecting front frame (201) is installed at a back connecting hole of the liquid crystal display main body through bolts, a connecting middle frame (202) is fixedly installed at the middle part of the back of the connecting front frame (201), an adjusting sliding block (203) is fixedly installed at the middle part of one side of the connecting middle frame (202), an installing outer frame (204) is movably arranged at the outer side of the adjusting sliding block (203), adjusting wide grooves (205) are formed in four corners of the back of the installing outer frame (204) corresponding to the adjusting sliding block (203), limiting threaded rods (206) are fixedly connected at the inner positions of the adjusting wide grooves (205) corresponding to the four corners of the back of the adjusting sliding block (203), clamping rings (207) are sleeved at the positions of the back of the outer side of the limiting threaded rods (206) corresponding to the installing outer frame (204) through threads, and adjusting side bolts (208) are installed at the middle part of the installing outer frame (204) through threaded insertion;

the two ends of the top surface and the bottom surface of the installation outer frame (204) are fixedly connected with splicing bent rods (209), the end parts of the splicing bent rods (209) positioned at one end of the installation outer frame (204) are fixedly connected with splicing concave rods (210), the end parts of the splicing bent rods (209) positioned at the other end of the installation outer frame (204) are fixedly connected with splicing convex rods (211), the end parts of the splicing convex rods (211) are penetrated with fixing bolts (212) through threads, and the middle part of the back surface of the installation outer frame (204) is fixedly connected with a splicing backboard (213);

the ends of the adjacent two splicing concave rods (210) and the adjacent ends of the splicing convex rods (211) are correspondingly clamped, and the ends of the splicing concave rods (210) and the ends of the splicing convex rods (211) are fixed through adjusting side bolts (208);

the bottom of the spliced backboard (213) is provided with a flexible supporting isolation damping mechanism (3);

the flexible supporting isolation damping mechanism (3) comprises a splicing clamping groove (301), a clamping upper block (302), a supporting sliding block (303), a guiding outer tube (304), a guiding side groove (305), a fixing side pin (306), a supporting bottom block (307), a supporting bottom frame (308), a supporting rubber ring (309), a supporting elastic liquid bag (310), an adjusting top frame (311), an adjusting middle bolt (312), a driving sliding plate (313) and a telescopic liquid bag (314);

the splicing backboard (213) is characterized in that a splicing clamping groove (301) is formed in the inner side of the bottom of the splicing backboard (213), a clamping upper block (302) is clamped at the position, corresponding to the bottom of the splicing backboard (213), of the splicing upper block (302), two ends of the bottom surface of the clamping upper block (302) are fixedly connected with supporting sliding blocks (303), a guiding outer pipe (304) is sleeved on the outer side of the supporting sliding blocks (303) in a sliding manner, a guiding side groove (305) is formed in the middle of the outer side of the guiding outer pipe (304) in a penetrating manner, a fixing side pin (306) is arranged at the position, corresponding to the inner side of the guiding side groove (305), of one side of the supporting sliding blocks (303) through threads, and two supporting bottom blocks (307) are fixedly connected to the bottom ends of the guiding outer pipe (304);

the bottom end of the supporting bottom block (307) is fixedly connected with a supporting bottom frame (308), a supporting rubber ring (309) is adhered to the edge of the bottom surface of the supporting bottom frame (308), a supporting elastic liquid bag (310) is filled at the inner side bottom of the supporting bottom frame (308), an adjusting top frame (311) is fixedly connected to the position of one side of the top surface of the supporting bottom frame (308) corresponding to the supporting bottom block (307), an adjusting middle bolt (312) is installed in the middle of the top end of the inner side of the adjusting top frame (311) through threads, a driving sliding plate (313) is rotatably installed at the position of the bottom end of the adjusting middle bolt (312) corresponding to the inner position of the adjusting top frame (311), and a telescopic liquid bag (314) is adhered to the position of the bottom surface of the driving sliding plate (313) corresponding to the inner position of the adjusting top frame (311);

the edge of the driving sliding plate (313) is tightly attached to the inner wall of the adjusting top frame (311), the telescopic liquid bag (314) is communicated with the supporting elastic liquid bag (310) through a thin pipe, and insulating oil is filled in the telescopic liquid bag (314) and the supporting elastic liquid bag (310);

an edge flexible limiting clamping cooling mechanism (4) is arranged on the outer side of the liquid crystal display main body (1);

the side flexible limiting clamping cooling mechanism (4) comprises a limiting frame (401), a limiting front edge (402), a limiting inner edge (403), a limiting telescopic bag (404), a small sealing valve (405), an infusion tubule (406), a liquid supply pump (407), a liquid storage end box (408), a connecting side pipe (409), a heat conducting side bag (410), a regulating valve (411), a cooling pump (412), a cooling end box (413), a heat radiating fin (414) and a circulating side pipe (415);

the liquid crystal display comprises a liquid crystal display main body (1), wherein the outer side of the liquid crystal display main body (1) is coated with a limiting frame (401), the inner side of the limiting frame (401) is provided with a limiting front edge (402) corresponding to the front position of the liquid crystal display main body (1), the inner side of the limiting frame (401) is provided with a limiting inner edge (403) corresponding to the side position of the liquid crystal display main body (1), a limiting telescopic bag (404) is adhered to the outer side position of the inner side of the limiting frame (401) corresponding to the liquid crystal display main body (1), the top end and the middle part of the bottom of the back of the limiting telescopic bag (404) are connected with sealing small valves (405) through pipelines, one end middle part of each sealing small valve (405) is fixedly connected with an infusion tubule (406), the tail end of each infusion tubule (406) is fixedly connected with a liquid supply pump (407), the tail end of each liquid supply pump (407) is powered through an external power supply, the tail end of each liquid supply pump (209) is fixedly connected with a liquid storage end box (408) corresponding to the side position of the corresponding to the splicing bent rod (209), and two end boxes (408) located at the top and bottom are mutually communicated through a liquid storage connecting side pipe (409);

the utility model discloses a heat-conducting side bag is characterized by comprising a limiting frame (401), a heat-conducting side bag (410) is arranged at the position of one side of the limiting frame (401) corresponding to the limiting telescopic bag (404), regulating valves (411) are fixedly connected to the top end and the middle part of the bottom of the back of the heat-conducting side bag (410) through pipelines, cooling pumps (412) are fixedly connected to the ends of the regulating valves (411) through pipelines, cooling end boxes (413) are fixedly connected to the side positions of the cooling pumps (412) corresponding to corresponding splicing bent rods (209), heat dissipation fins (414) are uniformly and fixedly connected to the inclined surfaces of the cooling end boxes (413) at equal intervals, and the two cooling end boxes (413) are mutually communicated through circulating side pipes (415).

2. The reinforced anti-seismic device for splicing liquid crystal display modules according to claim 1, wherein a movable gap is reserved between the edge of the adjusting slide block (203) and the inner wall of the mounting frame (204), and the back of the adjusting slide block (203) is tightly and slidably attached to the inner wall of the mounting frame (204).

3. The reinforced anti-seismic device for splicing liquid crystal display modules according to claim 1, wherein the diameter of the limiting threaded rod (206) is smaller than the inner diameter of the adjusting wide groove (205), the end face of the clamping circular ring (207) is tightly attached to the back face of the mounting outer frame (204), and the end face of the adjusting side bolt (208) is tightly attached to four side faces of the adjusting sliding block (203) in a sliding manner.

4. The reinforced anti-seismic device for splicing liquid crystal display modules according to claim 1, wherein the outer side of the supporting sliding block (303) is tightly and slidingly jointed with the inner wall of the guiding outer tube (304), and the end face of the fixed side pin (306) is tightly jointed with the side face of the guiding outer tube (304).

5. The reinforced anti-seismic device for splicing the liquid crystal display modules according to claim 1, wherein gaps are reserved between the side face of the limiting front edge (402) and the inner face of the limiting inner edge (403) and the liquid crystal display main body (1), and the limiting telescopic bag (404) can stretch from outside to inside.

6. The reinforced anti-seismic device for splicing liquid crystal display modules according to claim 1, wherein the outer side of the heat-conducting side bag (410) is tightly attached to the space-limiting telescopic bag (404) and the liquid crystal display main body (1).