CN115097910A - Video image enhancement processing device - Google Patents

Abstract

A video image enhancement processing device belongs to the technical field of video image processing, and aims to solve the problems that in the prior art, a mainboard element can be installed through screws or welding and the like, the disassembling method is complicated and time-consuming, the maintenance and debugging efficiency of a video image processor is low, the use of a large number of screws can cause punching influence on a case shell, and the inner diameter of a screw hole is gradually increased under repeated operation to influence subsequent secondary recycling; according to the invention, the video image processor is pulled out from the inner side of the side-opening notch, so that the main board element is exposed, and can be directly taken out by a worker without disassembling the whole case, and the video image processor can be assembled and disassembled only by rotating the first round handle rotating block and pulling the hooking groove; the L-shaped air bag is gradually pressed and deformed and is filled in the accommodating groove, the extrusion cover cap is gradually extruded out along the access groove, and the main board element is further stabilized on the inner side of the U-shaped lining frame.

Description

Video image enhancement processing device

Technical Field

The invention relates to the technical field of video image processing, in particular to a video image enhancement processing device.

Background

The video image is a continuous sequence of static images, which is more visual and vivid description of objective things, the video image processing system is a system for processing the video image based on an image processing algorithm, the video image processing system is inseparable with the development of modern science and technology, along with the development of computer technology, the CPU computing capacity is continuously improved, the storage space is greatly improved, and the development of the video image processing system is greatly promoted by the diversification of a hardware support method.

The crowd who has high requirement to the video image, can regularly maintain and debug video image processor, among the prior art, video image processor and other operation component aggregate erection are in the inside of quick-witted box, however when dismantling mainboard component, can directly disassemble whole chassis exterior, repeatedly disassemble and can influence the equipment of other operation components with the effort of installation, on the one hand, mainboard component can be installed through methods such as screw or welding, this method of disassembling is loaded down with trivial details, it is consuming time longer, video image processor's maintenance and debugging efficiency are lower, on the other hand, use a large amount of screws can cause the influence of punching to chassis exterior, under the repeated operation, the internal diameter of screw grow gradually, influence follow-up secondary recycle.

In order to solve the problems, the prior device is improved, and a video image enhancement processing device is provided.

Disclosure of Invention

The invention aims to provide a video image enhancement processing device, which solves the problem that people with high requirements on video images in the background art can regularly maintain and debug a video image processor, the video image processor is combined with other operation elements and installed in the interior of the machine box body, however, when the main board element is disassembled, can directly disassemble whole chassis exterior, the effort of disassembling repeatedly and installing can influence the equipment of other operational element, on the one hand, mainboard component can be installed through methods such as screw or welding, this method of disassembling is loaded down with trivial details, it is consuming time longer, video image processor's maintenance and debugging efficiency are lower, on the other hand, use a large amount of screws can lead to the fact the influence of punching to chassis exterior, under the repeated operation, the internal diameter grow gradually of screw influences follow-up secondary recycle's problem.

In order to achieve the purpose, the invention provides the following technical scheme: a video image enhancement processing device comprises a case and a side opening notch formed in the side surface of the case, wherein a video image processor is installed on the inner side of the side opening notch, positioning corner blocks are installed at four corners of the side opening notch, a first round handle rotating block is arranged in the center of each positioning corner block, the video image processor comprises a U-shaped lining frame and a main board element arranged on the inner side of the U-shaped lining frame, splicing pile plates are installed on two sides of the main board element, combination locking rings are installed on two sides of each splicing pile plate, positioning sliding grooves are formed in two sides of each combination locking ring and formed in the surfaces of two sides of each splicing pile plate, hooking grooves are formed in the center of the vertical surface of the outer side of the U-shaped lining frame, locking slots are formed between the two sets of positioning sliding grooves, the locking slots correspond to the combination locking rings, positioning sliding braces are installed on the side surfaces of the positioning corner blocks, and are connected with the positioning sliding braces;

the combined lock ring comprises a fixed ring arranged on the inner side surface of the side opening groove and sliding insert rings arranged on the inner side of the fixed ring, the fixed ring is provided with four groups, the fixed ring is arranged on the inner side of the positioning corner block, one end of each sliding insert ring is connected with the locking slot, the outer surface of the fixed ring is provided with a rotating slot hole, the outer surface of each sliding insert ring is provided with a traction assembly, each sliding insert ring is connected with the rotating slot hole through the traction assembly, each fixed ring comprises a ring body connected with the inner wall surface of the side opening groove and an open groove formed in the surface of the ring body, an arc handle block is arranged in the center of the inner side of the open groove, an annular path groove is formed between the open groove and the arc handle block, the outer side surface of the arc handle block is provided with an arc connecting strip, and the two ends of the arc handle block are connected with the outer surface of the ring body through the arc connecting strip;

the sliding insert ring comprises movable splicing rings arranged on the inner side of the ring body and splicing mounting strips arranged on the inner side of the movable splicing rings, the movable splicing rings are provided with two groups, the splicing mounting strips are mounted between the two groups of movable splicing rings, auxiliary connecting strips are arranged on two sides of each splicing mounting strip, two ends of each auxiliary connecting strip are connected with the two groups of movable splicing rings, each traction assembly comprises a joint handle block arranged on the inner side surface of each splicing mounting strip and a first traction column head mounted on the surface of the joint handle block, a second traction column head is arranged on the outer side surface of each splicing mounting strip, a rotating rod piece is mounted between the two groups of movable splicing rings, and one end of each rotating rod piece is connected with the first traction column head;

the rotating rod piece comprises an arc-shaped traction small plate and a traction groove formed in the surface of the arc-shaped traction small plate, the traction groove is connected with the first traction column cap, the arc-shaped traction small plate is matched with the inner size of the movable splicing ring, a U-shaped handle bar is arranged on the surface of the inner side of the arc-shaped traction small plate, a rod body is arranged on the side surface of one end of the U-shaped handle bar, the rod body is connected with the rotating groove hole, and one end of the rod body penetrates through the positioning corner block to be connected with the center of the first round handle rotating block.

Further, the inner wall face of the lower end of the U-shaped lining frame is provided with a sliding butt clamping strip, the inner wall face of the upper end of the U-shaped lining frame is provided with a through groove, a containing groove is formed in the spliced pile plate close to the through groove, and the containing groove is communicated with the through groove.

Furthermore, a clamping control column is installed on one side of the access groove, an extrusion cover cap is arranged in the access groove, and a clamping groove is formed in the surface of the extrusion cover cap.

Furthermore, one end of the main board element is connected with the inner side of the sliding opposite clamping strip, the other end of the main board element is connected with the clamping groove, the holding groove and the clamping control column are internally provided with an L-shaped air bag, and one end of the L-shaped air bag is attached to the side surface of the extrusion cover cap.

Furthermore, the clamping control column comprises a column sleeve arranged on the inner side of the U-shaped lining frame and a single sliding groove formed in the surface of one side of the column sleeve, a double sliding groove is formed in the surface of the other side of the column sleeve, a splicing handle rod is installed on the facade of the outer side of the column sleeve, and the splicing handle rod corresponds to the double sliding groove.

Furthermore, the surfaces of the two sides of the splicing handle rod are uniformly provided with a laminating lock groove, an extrusion laminating piece is arranged in the column sleeve, and a calibration indicating line is arranged on one side of the single sliding groove and corresponds to the laminating lock groove.

Furthermore, the extrusion laminating piece comprises a pushing laminating block matched with the inner side of the column sleeve and a butt clamping handle block arranged on one side of the pushing laminating block, the upper surface of the pushing laminating block is connected with one end of the L-shaped air bag, the butt clamping handle block is connected with the double-sliding groove, the inner side of the butt clamping handle block is connected with the splicing handle rod, and the other side of the pushing laminating block is provided with a limiting outer disc.

Furthermore, the side surface of the outer limiting disc is provided with a positioning line, the positioning line corresponds to the calibration indicating line, and the outer side of the outer limiting disc is provided with an extrusion rotating piece.

Further, the extrusion changes the piece and includes that second round handle changes the piece and set up the rotation push rod at the inboard central authorities of second round handle commentaries on classics piece, the surface that rotates the push rod is provided with threaded connection face, threaded connection face's surface cover is equipped with and cup joints the taper block, rotation push rod passes through threaded connection face and cup joints the inboard threaded connection of taper block, bulldoze the inside of piece and seted up and hold the cavity, the both sides of cup jointing taper block one end all are provided with the connecting rod that slides, the one end of the connecting rod that slides and the internal face spacing connection who holds the cavity, cup joint the both sides of the taper block other end and install the lapse stock.

Further, the outside of advancing the stock is provided with reset spring, and reset spring's one end is connected with the internal face that holds the cavity, has seted up to advance the fluting to the inboard of double-layered handle piece, and the inside of advancing the fluting is provided with the extrusion locking piece, and the one end of advancing the stock is passed and is connected with the extrusion locking piece to the double-layered handle piece, and the extrusion locking piece is connected with the laminating locked groove.

Compared with the prior art, the invention has the beneficial effects that:

1. when a video image processor needs to be maintained and debugged, the first round handle rotating block is rotated to drive the rotating rod piece to rotate by taking the rotating slotted hole as an axis, the arc-shaped traction small plate drives the sliding insert ring to rotate along the inner side of the fixed ring by utilizing the connection effect of the traction open groove and the first traction column head, meanwhile, the second traction column head moves along the annular path groove, the straight groove of the annular path groove is utilized to drive the sliding insert ring to translate along the inner side of the fixed ring, one end of the sliding insert ring is separated from the inner part of the locking slot, the integral movement of the video image processor loses the clamping resistance of the sliding insert ring on the sliding insert ring, a worker pulls out the video image processor from the inner side of the side open groove by hooking the pull groove and utilizing the limiting effect of the positioning sliding brace on the positioning sliding pull groove, make the mainboard component show to the staff is direct to take out it, need not to dismantle quick-witted case wholly, only need collude the kerve through rotating first round handle turning block and pulling, alright realize that video image processor's dress is separated, replace the traditional mode that quick-witted case wholly taken out the mainboard component of direct dismantlement, other components of protection machine incasement portion do not receive the influence of disassembling, and need not to use the screw, reduce the influence of punching to quick-witted case, promote follow-up device's reutilization ratio.

2. The invention provides a video image enhancement processing device, after the maintenance and debugging of a main board element are finished, the bottom end of the main board element is clamped into the inner side of a sliding pair holding strip, the top end of the main board element is aligned to an extrusion cover cap, a limiting outer circular disc is upwards pushed, an extrusion laminating piece is pushed to a specified position according to the corresponding relation between a positioning line and a calibration indicating line, a second round handle rotating block is rotated, a rotating push rod is in a rotating state, a sleeve conical block is meshed with a threaded connecting surface and is limited by a sliding connecting rod, the sleeve conical block is moved along the rotating push rod, one end of a pushing long rod slides along the narrow end of the sleeve conical block by utilizing the conical surface of the sleeve conical block, the distance between two groups of pushing long rods is mutually close by utilizing the elasticity of a reset spring, and then a locking block is extruded to move along a pushing groove, and make the extrusion locking piece be connected with the laminating locked groove, and then fix extrusion laminating spare in the inboard assigned position of column casing, along with bulldozing the laminating piece along the inboard removal of column casing, the upper surface of pressing the laminating piece extrudees L shape air bag, L shape air bag receives the compressive deformation gradually, and fill in the inside at the holding tank, and then extrude extrusion shroud gradually along letting in the groove, make centre gripping draw-in groove and mainboard component's top lid close and be connected, and then stabilize mainboard component in the inboard of U-shaped liner frame, thereby accomplish the installation of mainboard component, the mounting means is convenient, equally need not to use the screw or replace the welding installation method, the surface of protection mainboard component receives wearing and tearing, and follow-up disassembling is equally convenient.

3. The invention provides a video image enhancement processing device, a certain gap and distance exist between a main board element and an outer board surface of a U-shaped lining frame, when a case is subjected to external acting force, the transmission of force can be weakened, the protection performance of the device is enhanced, the gap is convenient for dissipating heat generated by the device in the working process, the operation performance of the device is improved, when the main board element needs to be disassembled subsequently, a second round handle rotating block is rotated reversely, so that a sleeved conical block moves back, two sides of the sleeved conical block extrude push long rods by utilizing the conical surface of the sleeved conical block again, the distance between two groups of push long rods is mutually enlarged, an extrusion locking block is accommodated into a push slot, the locking between an extrusion laminating piece and a column sleeve is loosened, further, an L-shaped air bag is not extruded by a pushing laminating block any more, the L-shaped air bag immediately restores to the original position, an extrusion cover cap does not cover the main board element any more, and then accomplish the disassembling of mainboard component, the practicality of device is stronger, does benefit to the crowd that has high requirement for the video image for a long time and uses.

Drawings

FIG. 1 is a schematic diagram of an overall structure of a video image enhancement processing apparatus according to the present invention;

FIG. 2 is a schematic diagram of an overall structure of a video image processor of the video image enhancement processing apparatus according to the present invention;

FIG. 3 is a schematic diagram of the internal structure of a video image processor of the video image enhancement device according to the present invention;

FIG. 4 is a schematic diagram of a combined lock-ring structure of a video image enhancement processing apparatus according to the present invention;

FIG. 5 is a schematic diagram of a fixed ring structure of the video image enhancement apparatus according to the present invention;

FIG. 6 is a schematic diagram of a slip insert ring structure of the video image enhancement processing apparatus according to the present invention;

FIG. 7 is a schematic view of the structure of the traction assembly of the video image enhancement device of the present invention;

FIG. 8 is a schematic view of a rotating rod structure of the video image enhancement apparatus according to the present invention;

FIG. 9 is a schematic diagram of the internal planar structure of a U-shaped lining frame of the video image enhancement processing device according to the present invention;

FIG. 10 is a schematic view of a clamping control column of the video image enhancement processing apparatus according to the present invention;

FIG. 11 is a schematic view of an overall structure of an extrusion-bonded member of the video image enhancement processing apparatus according to the present invention;

fig. 12 is a schematic view of an internal plane structure of an extrusion-bonded member of the video image enhancement processing apparatus according to the present invention.

In the figure: 1. a chassis; 2. side notch opening; 3. a video image processor; 4. positioning the corner block; 5. a first round handle rotating block; 31. a U-shaped lining frame; 311. sliding the clamping strips; 312. the groove is communicated; 313. accommodating grooves; 314. clamping the control column; 3141. a column sleeve; 3142. a single sliding groove; 3143. double sliding grooves; 3144. splicing the handle rods; 3145. fitting the lock groove; 3146. calibrating an indicator line; 3147. extruding the fitting; 31471. pushing and pressing the sticking block; 314711, a containment chamber; 31472. clamping the handle block; 314721, pushing and slotting; 31473. a limiting outer disc; 31474. positioning a line; 31475. extruding the rotating piece; 314751, a second round handle rotating block; 314752, rotating the push rod; 314753, a threaded connection surface; 314754, sleeving a conical block; 314755, a sliding connecting rod; 314756, push rod; 314757, a return spring; 314758, extruding the locking block; 315. extruding the cover cap; 316. clamping a clamping groove; 317. an L-shaped airbag; 32. a main board element; 33. splicing pile plates; 34. a combination lock ring; 341. a fixing ring; 3411. a ring body; 3412. opening the opening and grooving; 3413. an arc-shaped handle block; 3414. a loop path slot; 3415. an arc-shaped connecting strip; 342. a slip insert ring; 3421. a movable splicing ring; 3422. connecting the mounting bars; 3423. an auxiliary connecting strip; 343. rotating the slotted hole; 344. a tow assembly; 3441. fitting a handle block; 3442. a first traction column head; 3443. a second traction column head; 3444. rotating the rod piece; 34441. an arc-shaped traction small plate; 34442. drawing and slotting; 34443. a U-shaped handle bar; 34444. a rod body; 35. positioning a sliding groove; 36. hooking and pulling a groove; 37. locking the slot; 38. and positioning the sliding strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the technical problem that the video image processor and other operation elements are assembled and installed inside the case body, but when the main board element is disassembled, the whole case shell can be directly disassembled, and the assembly of other operation elements can be affected by the acting force of repeated disassembly and installation, as shown in fig. 1-8, the following preferred technical solutions are provided:

a video image enhancement processing device comprises a case 1 and a side opening notch 2 arranged on the side surface of the case 1, wherein a video image processor 3 is arranged on the inner side of the side opening notch 2, positioning corner blocks 4 are arranged at four corners of the side opening notch 2, a first round handle rotating block 5 is arranged at the center of each positioning corner block 4, the video image processor 3 comprises a U-shaped lining frame 31 and a main board element 32 arranged on the inner side of the U-shaped lining frame 31, splicing pile plates 33 are arranged at two sides of the main board element 32, combined locking rings 34 are arranged at two sides of each splicing pile plate 33, positioning sliding grooves 35 are arranged at two sides of each combined locking ring 34, the positioning sliding grooves 35 are arranged on the surfaces of two sides of each splicing pile plate 33, a hooking groove 36 is arranged at the center of the vertical surface of the outer side of the U-shaped lining frame 31, locking grooves 37 are arranged between the two sets of the positioning sliding grooves 35, the locking grooves 37 correspond to the combined locking rings 34, positioning sliding strips 38 are arranged on the side surface of the positioning corner blocks 4, the positioning slide bar 38 is connected to the positioning slide groove 35.

The combination locking ring 34 includes a fixing ring 341 mounted on the inner side surface of the side opening slot 2 and a slip insert ring 342 provided inside the fixing ring 341, the fixing ring 341 is provided in four groups, the fixed ring 341 is installed inside the positioning angle block 4, one end of the sliding insert ring 342 is connected with the locking slot 37, the outer surface of the fixed ring 341 is provided with a rotating slot 343, the outer surface of the sliding insert ring 342 is provided with a traction assembly 344, the sliding insert ring 342 is connected with the rotating slot 343 through the traction assembly 344, the fixed ring 341 comprises a ring body 3411 connected with the inner wall surface of the side opening slot 2 and an opening slot 3412 arranged on the surface of the ring body 3411, the center of the inner side of the opening slot 3412 is provided with an arc handle block 3413, an annular path slot 3414 is arranged between the opening slot 3412 and the arc handle block 3413, the outer side surface of the arc handle block 3413 is provided with an arc connecting strip 3415, and the two ends of the arc connecting strip 3413 are connected with the outer surface of the ring body 3411.

The sliding insert ring 342 includes two movable splicing rings 3421 disposed inside the ring body 3411 and two engaging mounting bars 3422 disposed inside the movable splicing rings 3421, the two movable splicing rings 3421 are provided with two sets, the engaging mounting bars 3422 are disposed between the two movable splicing rings 3421, two sides of the engaging mounting bars 3422 are provided with auxiliary connecting bars 3423, two ends of the auxiliary connecting bars 3423 are connected with the two sets of movable splicing rings 3421, the pulling assembly 344 includes a joint handle block 3441 disposed on the inner side surface of the engaging mounting bar 3422 and a first pulling column head 3442 disposed on the surface of the joint handle block 3441, the outer side surface of the engaging mounting bar 3422 is provided with a second pulling column head 3443, a rotating rod 3444 is disposed between the two sets of movable splicing rings 3421, and one end of the rotating rod 3444 is connected with the first pulling column head 3442.

The rotating rod 3444 includes a small arc-shaped pulling plate 34441 and a pulling slot 34442 provided on the surface of the small arc-shaped pulling plate 34441, the pulling slot 34442 is connected to the first pulling column head 3442, the small arc-shaped pulling plate 34441 is matched with the inner size of the movable splicing ring 3421, a U-shaped handle 34443 is installed on the inner side surface of the small arc-shaped pulling plate 34441, a rod 34444 is provided on the side surface of one end of the U-shaped handle 34443, the rod 34444 is connected to the rotating slot 343, and one end of the rod 34444 passes through the positioning corner block 4 and is connected to the center of the first round handle rotating block 5.

Specifically, when the video image processor needs to be maintained and debugged, the first round handle rotating block 5 is rotated to make the rotating rod 3444 rotate around the rotating slot 343, the arc-shaped traction small plate 34441 drives the sliding insert ring 342 to rotate along the inner side of the fixed ring 341 by using the connection effect of the traction slot 34442 and the first traction column head 3442, meanwhile, the second traction column head 3443 moves along the annular path groove 3414, the straight groove of the annular path groove 3414 is used to drive the sliding insert ring 342 to translate along the inner side of the fixed ring 341, so that one end of the sliding insert ring 342 is separated from the inside of the locking slot 37, the clamping resistance of the sliding insert ring 342 to the video image processor 3 is lost by the overall movement of the video image processor 3, and the worker pulls out the video image processor 3 from the inner side of the side opening 2 by using the positioning sliding bar 38 to limit the positioning sliding slot 341 through the hooking slot 36, make mainboard component 32 show to the staff is direct to take out it, need not to dismantle quick-witted case 1 is whole, only need collude the kerve 36 through rotating first round handle turning block 5 and pulling, alright realize that video image processor 3's dress is separated, replace the traditional mode that directly dismantles quick-witted case 1 whole take out mainboard component 32, other inside components of protection machine case 1 do not receive the influence of disassembling, and need not to use the screw, reduce the influence of punching to quick-witted case 1, promote follow-up device's reutilization ratio.

In order to solve the technical problems that on one hand, a mainboard element can be installed through screws or welding and the like, the disassembling method is complicated, the time consumption is long, and the maintenance and debugging efficiency of a video image processor is low, and on the other hand, the use of a large number of screws can cause punching influence on a case shell, and the inner diameter of a screw hole is gradually increased under repeated operation to influence subsequent secondary recycling, as shown in fig. 9-12, the following preferable technical scheme is provided:

the inner wall surface of the lower end of the U-shaped lining frame 31 is provided with a sliding pair clamping strip 311, the inner wall surface of the upper end of the U-shaped lining frame 31 is provided with a through groove 312, the inner part of a spliced pile plate 33 close to the through groove 312 is provided with an accommodating groove 313, the accommodating groove 313 is communicated with the through groove 312, one side of the through groove 312 is provided with a clamping control column 314, the inner part of the through groove 312 is provided with an extrusion cover cap 315, the surface of the extrusion cover cap 315 is provided with a clamping groove 316, one end of a main plate element 32 is connected with the inner side of the sliding pair clamping strip 311, the other end of the main plate element 32 is connected with the clamping groove 316, the accommodating groove 313 and the clamping control column 314 are internally provided with an L-shaped air bag 317, one end of the L-shaped air bag 317 is attached to the side surface of the extrusion cover 315, the clamping control column 314 comprises a column sleeve 3141 arranged on the inner side of the U-shaped lining frame 31 and a single sliding groove 3142 arranged on one side surface of the column sleeve 3141, the column sleeve 3143 is provided with a double sliding groove 3143, a splicing handle rod 3144 is installed on the outer side vertical surface of the column sleeve 3141, the splicing handle rod 3144 corresponds to the double sliding groove 3143, the surfaces of the two sides of the splicing handle rod 3144 are uniformly provided with an attaching locking groove 3145, an extrusion attaching piece 3147 is arranged inside the column sleeve 3141, one side of the single sliding groove 3142 is provided with a calibration indicating line 3146, and the calibration indicating line 3146 corresponds to the attaching locking groove 3145.

Specifically, after the main board element 32 is maintained and debugged, the bottom end of the main board element 32 is engaged with the inner side of the sliding pair holding strip 311, the top end of the main board element 32 is aligned with the pressing cover 315, the outer limiting disc 31473 is pushed upwards, the pressing attachment 3147 is pushed to the designated position according to the corresponding relationship between the positioning line 31474 and the calibration indication line 3146, the second round-handle rotating block 314751 is rotated to make the rotating push rod 314752 in a rotating state, the engaging connection between the engaging cone 314754 and the threaded connection 314753 is utilized, the sliding connection rod 314755 limits the engaging cone 314754, the engaging cone 314754 is moved along the rotating push rod 314752, one end of the pushing long rod 314756 is pushed to slide along the narrow end of the engaging cone 314754 by the tapered surface of the engaging cone 314754, the elastic force of the return spring 314757 is utilized to make the distance between the two sets of pushing long rods 314756 close to each other, and further the pressing lock 314758 is moved along the pushing groove 314721, the pressing lock block 314758 is connected with the fitting lock groove 3145, the pressing fitting member 3147 is fixed at a designated position on the inner side of the column sleeve 3141, the upper surface of the pressing block 31471 presses the L-shaped airbag 317 along the movement of the pressing block 31471 along the inner side of the column sleeve 3141, the L-shaped airbag 317 is gradually pressed and deformed and fills the inside of the accommodating groove 313, the pressing cover 315 is gradually extruded along the through groove 312, the clamping groove 316 is connected with the top end of the main board element 32 in a covering manner, and the main board element 32 is stabilized on the inner side of the U-shaped lining frame 31, so that the installation of the main board element 32 is completed.

In order to better solve the technical problem of convenience in repeated disassembly and assembly of the main board element 32, as shown in fig. 6-11, the following preferred technical solutions are provided:

the pressing attachment 3147 includes a pressing attachment 31471 matched with the inner side of the column cover 3141 and a pair of handle blocks 31472 installed on one side of the pressing attachment 31471, the upper surface of the pressing attachment 31471 is connected with one end of the L-shaped air bag 317, the pair of handle blocks 31472 is connected with the double sliding groove 3143, the inner side of the pair of handle blocks 31472 is connected with the splicing handle 3144, the other side of the pressing attachment 31471 is installed with a limit outer disc 31473, the side surface of the limit outer disc 31473 is provided with a positioning line 31474, the positioning line 31474 corresponds to the calibration indication line 3146, the outer side of the limit outer disc 31473 is installed with a pressing rotating piece 31475, the pressing rotating piece 31475 includes a second handle rotating block 314751 and a rotating push rod 314752 arranged at the center of the inner side of the second handle rotating block 314751, the surface of the rotating push rod 314752 is provided with a threaded connection surface 314753, the outer surface of the threaded connection surface 314753 is sleeved with a socket cone 314754, the rotating push rod 314752 is in threaded connection with the inner side of the socket cone 314754 through a thread 314753, holding chamber 314711 has been seted up to the inside that bulldozes sticking block 31471, the both sides of cup jointing awl piece 314754 one end all are provided with the connecting rod 314755 that slides, the one end of connecting rod 314755 and the internal wall face spacing connection of holding chamber 314711, cup joint the both sides of awl piece 314754 other end and install and pass stock 314756, the outside of passing stock 314756 is provided with reset spring 314757, reset spring 314757's one end is connected with the internal wall face that holds chamber 314711, pass fluting 314721 has been seted up to the inboard of double-layered handle piece 31472, the inside of passing fluting 314721 is provided with extrusion locking piece 314758, the one end of passing stock 314756 is passed and is connected with extrusion locking piece 314758 to double-layered handle piece 31472, extrusion locking piece 314758 is connected with laminating locking groove 3145.

Specifically, a certain gap and distance exist between the main board element 32 and the outer board surface of the U-shaped lining frame 31, when the case 1 is subjected to an external force, the force transmission can be weakened, the protection performance of the device can be enhanced, the gap is convenient for dissipating heat generated by the device in the working process, the operation performance of the device can be improved, when the main board element 32 needs to be disassembled subsequently, the second round handle rotating block 314751 is rotated reversely, so that the sleeving conical block 314754 moves back, the two sides of the sleeving conical block 314754 extrude and push the long rods 314756 by utilizing the conical surface of the sleeving conical block 314754 again, the distance between the two groups of push long rods 314756 is enlarged, the extrusion locking block 314758 is accommodated in the pushing groove 314721, the locking between the extrusion adhering piece 3147 and the column sleeve 3141 is released, the L-shaped airbag 317 is not extruded by the extrusion adhering piece 31471, the L-shaped airbag 317 is recovered immediately, the extrusion cover 315 does not cover the main board element 32, and then accomplish the disassembling of mainboard component 32, the practicality of device is stronger, does benefit to the crowd that has high requirement for the video image for a long time and uses.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a video image enhancement processing apparatus, includes quick-witted case (1) and sets up and open notch (2) at the side of quick-witted case (1) side surface, and video image processor (3), its characterized in that are installed to the inboard of opening notch (2) to the side: positioning angle blocks (4) are arranged at four corners of the side-opening notch (2), a first round handle rotating block (5) is arranged at the center of each positioning angle block (4), a video image processor (3) comprises a U-shaped lining frame (31) and a main board element (32) arranged on the inner side of the U-shaped lining frame (31), splicing pile boards (33) are arranged on two sides of the main board element (32), combined locking rings (34) are arranged on two sides of each splicing pile board (33), positioning sliding grooves (35) are arranged on two sides of each combined locking ring (34), hooking grooves (36) are formed in the center of the vertical face of the outer side of the U-shaped lining frame (31), locking slots (37) are formed between the two groups of positioning sliding grooves (35), the locking slots (37) correspond to the combined locking rings (34), positioning sliding strips (38) are arranged on the side surfaces of the positioning angle blocks (4), the positioning slide pull strip (38) is connected with the positioning slide pull groove (35);

the combined lock ring (34) comprises fixed rings (341) arranged on the inner side surface of the side opening groove (2) and sliding insert rings (342) arranged on the inner side of the fixed rings (341), four groups of the fixed rings (341) are arranged, the fixed rings (341) are arranged on the inner side of the positioning corner block (4), one end of each sliding insert ring (342) is connected with a locking slot (37), a rotating slot hole (343) is formed in the outer surface of each fixed ring (341), a traction assembly (344) is arranged on the outer surface of each sliding insert ring (342), each sliding insert ring (342) is connected with the corresponding rotating slot hole (343) through the traction assembly (344), each fixed ring (341) comprises a ring body (3411) connected with the inner wall surface of the side opening groove (2) and an opening groove (3412) formed in the surface of the ring body 3411), an arc-shaped handle block (3413) is arranged in the center of the inner side of the opening groove (3412), and an annular path groove (3414) is arranged between the opening groove (3412) and the arc-shaped handle block (3413), the outer side surface of the arc-shaped handle block (3413) is provided with an arc-shaped connecting strip (3415), and the arc-shaped handle block (3413) is connected with the outer surface of the ring body (3411) through two ends of the arc-shaped connecting strip (3415);

the sliding insert ring (342) comprises a movable splicing ring (3421) arranged at the inner side of the ring body (3411) and a connecting and installing strip (3422) arranged at the inner side of the movable splicing ring (3421), the traction assembly (344) comprises a joint handle block (3441) arranged on the inner side surface of the joint mounting bar (3422) and a first traction column head (3442) arranged on the surface of the joint handle block (3441), the outer side surface of the joint mounting bar (3422) is provided with a second traction column head (3443), a rotating rod piece (3444) is arranged between the two groups of movable joint rings (3421), and one end of the rotating rod piece (3444) is connected with the first traction column head (3442);

the rotary rod piece (3444) comprises an arc-shaped traction small plate (34441) and a traction groove (34442) formed in the surface of the arc-shaped traction small plate (34441), the traction groove (34442) is connected with a first traction column head (3442), the arc-shaped traction small plate (34441) is matched with the inner size of the movable splicing ring (3421), a U-shaped handle bar (34443) is installed on the inner side surface of the arc-shaped traction small plate (34441), a rod body (34444) is arranged on the side surface of one end of the U-shaped handle bar (34443), the rod body (34444) is connected with the rotary groove hole (343), and one end of the rod body (34444) penetrates through the positioning corner block (4) to be connected with the center of the first round handle rotary block (5).

2. A video image enhancement processing apparatus according to claim 1, wherein: the inner wall surface of the lower end of the U-shaped lining frame (31) is provided with a sliding opposite clamping strip (311), the inner wall surface of the upper end of the U-shaped lining frame (31) is provided with a through groove (312), the inside of a spliced pile plate (33) close to the through groove (312) is provided with a containing groove (313), and the containing groove (313) is communicated with the through groove (312).

3. A video image enhancement processing apparatus according to claim 2, wherein: a clamping control column (314) is installed on one side of the access groove (312), an extrusion cover cap (315) is arranged inside the access groove (312), and a clamping groove (316) is formed in the surface of the extrusion cover cap (315).

4. A video image enhancement processing apparatus according to claim 3, wherein: one end of the main board element (32) is connected with the inner side of the sliding clamping strip (311), the other end of the main board element (32) is connected with the clamping groove (316), the accommodating groove (313) and the clamping control column (314) are internally provided with an L-shaped airbag (317), and one end of the L-shaped airbag (317) is attached to the side surface of the extrusion cover cap (315).

5. A video image enhancement processing apparatus according to claim 3, wherein: the clamping control column (314) comprises a column sleeve (3141) arranged on the inner side of the U-shaped lining frame (31) and a single sliding groove (3142) formed in the surface of one side of the column sleeve (3141), a double sliding groove (3143) is formed in the surface of the other side of the column sleeve (3141), a splicing handle rod (3144) is installed on the outer side vertical surface of the column sleeve (3141), and the splicing handle rod (3144) corresponds to the double sliding groove (3143).

6. A video image enhancement processing apparatus according to claim 5, wherein: the splicing handle rod (3144) is characterized in that the surfaces of two sides of the splicing handle rod (3144) are uniformly provided with an attaching lock groove (3145), an extrusion attaching piece (3147) is arranged inside the column sleeve (3141), one side of the single sliding groove (3142) is provided with a calibration indicating line (3146), and the calibration indicating line (3146) corresponds to the attaching lock groove (3145).

7. A video image enhancement processing apparatus according to claim 6, wherein: the extrusion laminating piece (3147) comprises a pushing and sticking block (31471) matched with the inner side of the column sleeve (3141) and a pair of clamping handle blocks (31472) installed on one side of the pushing and sticking block (31471), the upper surface of the pushing and sticking block (31471) is connected with one end of the L-shaped air bag (317), the pair of clamping handle blocks (31472) is connected with the double-sliding groove (3143), the inner side of the pair of clamping handle blocks (31472) is connected with the splicing handle rod (3144), and the other side of the pushing and sticking block (31471) is provided with a limiting outer circular disc (31473).

8. A video image enhancement processing apparatus according to claim 7, wherein: the side surface of the outer limiting disc (31473) is provided with a positioning line (31474), the positioning line (31474) corresponds to the calibration indicating line (3146), and the outer side of the outer limiting disc (31473) is provided with a pressing rotating piece (31475).

9. A video image enhancement processing apparatus according to claim 8, wherein: the extrusion changes piece (31475) and includes that second round handle changes piece (314751) changes piece (314752) and sets up rotation push rod (314752) at second round handle changes piece (314751) inboard central authorities, the surface that rotates push rod (314752) is provided with threaded connection face (314753), the surface cover of threaded connection face (314753) is equipped with and cup joints awl piece (314754), rotation push rod (314752) through threaded connection face (314753) with cup joint the inboard threaded connection of awl piece (314754), the inside that bulldozes piece (31471) has been seted up and has been held cavity (314711), the both sides of cup joint awl piece (314754) one end all are provided with sliding connection pole (314755), sliding connection pole (314755) one end and the spacing connection of the internal face that holds cavity (314711), cup joint the both sides of awl piece (314754) other end and install and pass long-pole (314756).

10. A video image enhancement processing apparatus according to claim 9, wherein: the outside of pushing long rod (314756) is provided with reset spring (314757), the one end of reset spring (314757) is connected with the internal wall face of holding chamber (314711), push slot (314721) has been seted up to the inboard of double-layered handle piece (31472), the inside of pushing slot (314721) is provided with extrusion locking piece (314758), the one end of pushing long rod (314756) is passed and is connected with extrusion locking piece (314758) to double-layered handle piece (31472), extrusion locking piece (314758) is connected with laminating locking groove (3145).

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