阅读说明：本技术 一种计算机电子器件加工装置 (Computer electronic device processing device ) 是由 辛海涛 张雨 张艳荣 辛璎龙 徐耀群 彭俄祯 于浩 于 2021-07-07 设计创作，主要内容包括：本发明涉及计算机领域,更具体的说是一种计算机电子器件加工装置。本发明可以将计算机电路板的角部进行切除,防止计算机电路板过于尖锐对人造成伤害。一种计算机电子器件加工装置,包括托板和L形挡板,所述托板设置有四个,四个托板的外角处均设置有L形挡板,四个托板能够靠近和分开。还包括平条和凸座II,每个托板的下侧均设置有凸座II,平条左右各设置有一个,平条在前后方向上设置,托板通过其下侧的凸座II在前后方向上滑动连接在对应的平条上。还包括挡头、凸座I和横杆,每个L形挡板上均设置有凸座I,横杆前后各设置有一个,每个横杆在左右方向上设置,位于前部的横杆的左右两端分别滑动连接在位于前端的两个凸座I上。(The invention relates to the field of computers, in particular to a computer electronic device processing device. The invention can cut off the corner of the computer circuit board and prevent the computer circuit board from being too sharp to cause damage to people. The utility model provides a computer electron device processingequipment, includes layer board and L shape baffle, the layer board is provided with four, and the outer corner department of four layer boards all is provided with L shape baffle, and four layer boards can be close to and part. Still include flat and convex seat II, the downside of every layer board all is provided with convex seat II, respectively is provided with one about the flat, and the flat sets up in the front and back direction, and the layer board is through convex seat II of its downside sliding connection in the front and back direction on the flat that corresponds. Still include fender head, boss I and horizontal pole, all be provided with boss I on every L shape baffle, respectively be provided with one around the horizontal pole, every horizontal pole sets up in the left and right sides direction, and both ends difference sliding connection is on two boss I that are located the front end about being located anterior horizontal pole.)

1. A computer electronic device processing apparatus comprising a pallet (103) and an L-shaped fence (104), characterized in that: the supporting plates (103) are four, L-shaped baffles (104) are arranged at the outer corners of the four supporting plates (103), and the four supporting plates (103) can be close to and separated from each other.

2. A computer electronic device processing apparatus according to claim 1, wherein: the supporting plate is characterized by further comprising flat strips (101) and convex seats II (109), wherein the convex seats II (109) are arranged on the lower side of each supporting plate (103), the flat strips (101) are arranged on the left and right sides, the flat strips (101) are arranged in the front and rear direction, and the supporting plates (103) are connected to the corresponding flat strips (101) in the front and rear direction in a sliding mode through the convex seats II (109) on the lower sides of the supporting plates.

3. A computer electronic device processing apparatus according to claim 2, wherein: still include fender head (106), boss I (107) and horizontal pole (108), all be provided with boss I (107) on every L shape baffle (104), respectively be provided with one around horizontal pole (108), every horizontal pole (108) sets up in left right direction, both ends difference sliding connection is on two boss I (107) that are located the front end about horizontal pole (108) that are located the front portion, both ends difference sliding connection is on two boss I (107) that are located the rear end about horizontal pole (108) that are located the rear end.

4. A computer electronic device processing apparatus according to claim 3, wherein: the telescopic rod I (110) is fixedly connected to the front end and the rear end of the left flat strip (101), and the movable ends of the two telescopic rods I (110) are fixedly connected to the two left convex seats II (109) respectively.

5. The computer electronic device processing apparatus according to claim 4, wherein: still include projection (102), chassis (201), horizontal rail (202) and telescopic link II (203), the upper portion of chassis (201) is provided with horizontal rail (202), two telescopic link II (203) of middle part fixedly connected with of horizontal rail (202), equal fixedly connected with projection (102) in the middle part of two flat strips (101), the lower part of two projection (102) is sliding connection respectively at both ends about horizontal rail (202), the expansion end difference fixed connection of two telescopic link II (203) is on two projection (102).

6. A computer electronic device processing apparatus according to claim 5, wherein: the cutting device is characterized by further comprising a block seat (301), a convex seat III (302), a beveling cutter (306) and a vertical rail (308), wherein the vertical rail (308) is detachably mounted on the L-shaped baffle (104), the block seat (301) is provided with the convex seat III (302), the convex seat III (302) is vertically connected to the vertical rail (308) in a sliding mode, the block seat (301) is provided with a plurality of beveling cutters (306), and the cutting positions of the beveling cutters (306) are set to different lengths.

7. A computer electronic device processing apparatus according to claim 6, wherein: the novel vertical rail structure is characterized by further comprising a threaded column (105), wherein the threaded column (105) is arranged on the L-shaped baffle (104), the lower portion of the vertical rail (308) is inserted into the threaded column (105), a nut I is connected to the threaded column (105) through threads, and the nut I is pressed on the vertical rail (308).

8. A computer electronic device processing apparatus according to claim 7, wherein: still include telescopic link III (307), fixedly connected with telescopic link III (307) on vertical rail (308), the expansion end fixed connection of telescopic link III (307) is on boss III (302).

9. A computer electronic device processing apparatus according to claim 8, wherein: still including a top strip (303), a plurality of oblique cutter (306) are vertical sliding connection all on block seat (301), and the upper portion of a plurality of oblique cutter (306) all is provided with a top strip (303).

10. A computer electronic device processing apparatus according to claim 9, wherein: the cutting tool is characterized by further comprising a screw frame (304), inserting screws (305), a lower inserting hole (309) and an upper inserting hole (310), the screw frame (304) is arranged on the block seat (301), the screw frame (304) is connected with the inserting screws (305) in a threaded mode, the plurality of inclined cutters (306) are provided with the upper inserting hole (310) and the lower inserting hole (309), the upper inserting hole (310) is located above the lower inserting hole (309), and the inserting screws (305) can be inserted into the upper inserting hole (310) or the lower inserting hole (309).

Technical Field

The invention relates to the field of computers, in particular to a computer electronic device processing device.

Background

The computer technology is very extensive, and can be roughly divided into several aspects of computer system technology, computer machine component technology, computer component technology and computer assembly technology. The computer technology comprises the following steps: the basic principle of the operation method, the design of an arithmetic unit, an instruction system, a central processing unit, the pipeline principle and the application thereof in the design of the central processing unit, a storage system, a bus and input and output. Computer electronics are needed in computers, where circuit boards are the most common. The corner of the computer circuit board is cut off, so that the computer circuit board can be conveniently installed, and the computer circuit board is prevented from being too sharp to cause damage to people.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the processing device of the computer electronic device, which has the beneficial effects that the corner of the computer circuit board can be cut off, and the computer circuit board is prevented from being too sharp to cause damage to people.

The utility model provides a computer electron device processingequipment, includes layer board and L shape baffle, the layer board is provided with four, and the outer corner department of four layer boards all is provided with L shape baffle, and four layer boards can be close to and part.

Still include flat and convex seat II, the downside of every layer board all is provided with convex seat II, respectively is provided with one about the flat, and the flat sets up in the front and back direction, and the layer board is through convex seat II of its downside sliding connection in the front and back direction on the flat that corresponds.

Still include fender head, boss I and horizontal pole, all be provided with boss I on every L shape baffle, respectively be provided with one around the horizontal pole, every horizontal pole sets up in the left and right sides direction, and both ends difference sliding connection is on two boss I that are located the front end about being located anterior horizontal pole, and both ends difference sliding connection is on two boss I that are located the rear end about being located the horizontal pole of rear end.

Still include telescopic link I, both ends are all fixedly connected with telescopic link I around being located left plain noodles, and two telescopic link I's expansion end difference fixed connection is on being located left two boss II.

Still include projection, chassis, horizontal rail and telescopic link II, the upper portion of chassis is provided with horizontal rail, two telescopic link II of middle part fixedly connected with of horizontal rail, the middle part of two flat strips all fixedly connected with projections, two portions about the horizontal rail of lower part difference sliding connection of two projections, two telescopic link II's movable part sets up respectively on two projections.

The utility model provides a computer electronic device processingequipment still includes a seat, boss III, oblique cutter and erects the rail, erects rail detachable and installs on L shape baffle, is provided with boss III on the seat, and the vertical sliding connection of boss III is provided with a plurality of oblique cutters on erecting the rail on the seat, and the cutting position of a plurality of oblique cutters sets up to different length.

The computer electronic device processing device further comprises a threaded column, wherein the L-shaped baffle is provided with the threaded column, the lower part of the vertical rail is inserted into the threaded column, the threaded column is connected with a nut I through threads, and the nut I is pressed on the vertical rail.

The utility model provides a computer electron device processingequipment still includes telescopic link III, is provided with telescopic link III on the vertical rail, and telescopic link III's movable part sets up on boss III.

The utility model provides a computer electron device processingequipment still includes a top strip, and a plurality of oblique cutters are all vertical sliding connection on a block seat, and the upper portion of a plurality of oblique cutters all is provided with a top strip.

The utility model provides a computer electron device processingequipment still includes the screw frame, inserts the screw, jack and last jack down, is provided with the screw frame on the block seat, and threaded connection has the bolt on the screw frame, all is provided with jack and jack down on a plurality of oblique cutters, goes up the jack and is located the top of jack down, and the bolt can be inserted in last jack or jack down.

The computer electronic device processing device has the beneficial effects that:

the invention can cut off the corner of the computer circuit board and prevent the computer circuit board from being too sharp to cause damage to people.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural diagram of a computer electronic device processing device;

FIG. 2 is a schematic structural diagram II of the computer electronic device processing device;

FIG. 3 is a first schematic structural view of a flat bar;

FIG. 4 is a second schematic structural view of a flat bar;

FIG. 5 is a schematic view of the structure of the chassis;

FIG. 6 is a first schematic structural view of a block base;

FIG. 7 is a second schematic structural view of the block base;

FIG. 8 is a schematic structural view of a blank rod;

FIG. 9 is a first schematic structural view of the grinding disc;

fig. 10 is a structural schematic diagram two of the grinding disc.

In the figure: a flat bar 101; a convex column 102; a pallet 103; an L-shaped baffle 104; a threaded post 105; a stopper 106; a boss I107; a cross-bar 108; a boss II 109; a telescopic rod I110;

a chassis 201; a cross rail 202; the telescopic rod II 203;

a block base 301; a boss III 302; a top bar 303; a screw frame 304; a plug screw 305; a skew cutter 306; a telescopic rod III 307; a vertical rail 308; a lower insertion hole 309; an upper insertion hole 310;

a blank bar 401; a rubber sleeve 402; an L-shaped frame 403; a threaded shaft 404; a panning bar 405; a parallel bar 406; a slider 407; a motor 408; a flat sheet 409;

a grinding disc 501; a storage tank 502; a round bar 503; a circular seat 504; a cylinder 505; a stopper 506; a gate 507; and a rib 508.

Detailed Description

Referring to fig. 1-4, the problem addressed is that of facilitating machining of the four corners of a computer circuit board at the four L-shaped baffles 104, and,

because the computer electronic device processing device comprises the supporting plate 103 and the L-shaped baffle plates 104, the supporting plate 103 is provided with four L-shaped baffle plates 104, the L-shaped baffle plates 104 are fixed on the four supporting plates 103, the four L-shaped baffle plates 104 are driven to be close to and separated from each other through the close to and separation of the four supporting plates 103, and then the four L-shaped baffle plates 104 fix the computer circuit board, so that the four corners of the computer circuit board can be processed at the four L-shaped baffle plates 104.

In some embodiments, referring to fig. 1-4, the problem addressed in the figures is to bring two pallets 103 to the left or to the right closer together or further apart, and,

because computer electron device processingequipment still includes flat strip 101 and boss II109, boss II109 has been fixed to the downside of layer board 103, flat strip 101 respectively is provided with one about in the front and back direction, boss II109 of layer board 103 downside is sliding connection in the front and back direction on corresponding flat strip 101, and then make two layer boards 103 with the left side or with the right side can slide back and forth on corresponding flat strip 101, and then drive and be close to or keep away from with two layer boards 103 on the left side or with the right side.

In some embodiments, referring to fig. 1-4, the problem addressed in the figures is to accomplish the approaching and separating of four pallets 103 in coordination with the approaching or separating of two pallets 103 to the left or to the right, and,

because the computer electronic device processing device also comprises a stop head 106, convex seats I107 and a cross rod 108, the L-shaped baffle plate 104 is provided with the convex seats I107, the cross rod 108 is arranged in the left-right direction, the front end and the rear end of the cross rod 108 are respectively provided with one, the left end and the right end of the cross rod 108 positioned at the front part are respectively connected on the two convex seats I107 positioned at the front end in a sliding way, the cross rod 108 positioned at the rear part is similarly respectively connected on the two convex seats I107 positioned at the rear end in a sliding way, so that two pallets 103 on the same front side or two pallets 103 on the same rear side can slide left and right on the respective cross bars 108, thereby adjusting the interval between the two pallets 103 on the front side or the two pallets 103 on the rear side, and the front-rear positions of the two pallets 103 on the front side or the two pallets 103 on the rear side are kept consistent, thereby completing the approaching and separating of the four pallets 103 by matching the approaching and separating of the two pallets 103 on the left side or the right side.

In certain embodiments, referring to fig. 1-4, the problem addressed in the figures is bringing two pallets 103 located on the front side closer together or farther apart toward two pallets 103 located on the rear side, and,

because computer electron device processingequipment still includes telescopic link I110, the equal fixedly connected with telescopic link I110 in both ends around left flat strip 101, two telescopic link I110 drive respectively when flexible and be located left two boss II109 and slide around being located left flat strip 101, and then drive two layer boards 103 that are located the front side and carry out towards being close to or keeping away from being located two layer boards 103 of rear side.

In certain embodiments, referring to fig. 1-5, the problem addressed in the figures is to bring the two pallets 103 on the left closer together or farther apart toward the two pallets 103 on the right, and,

because computer electronic device processingequipment still includes projection 102, chassis 201, horizontal rail 202 and telescopic link II203, horizontal rail 202 sets up the upper portion at chassis 201, the equal fixed connection of two telescopic link II203 is at the middle part of horizontal rail 202, two projections 102 fixed connection respectively are at the middle part of two flat strips 101, the lower part of two projections 102 is both ends about horizontal rail 202 of sliding connection respectively, can drive two projections 102 when two telescopic link II203 are flexible and slide from side to side on horizontal rail 202 respectively, and then drive two layer boards 103 that are located the left and carry out to be close to or keep away from towards two layer boards 103 that are located the right side.

In certain embodiments, referring to fig. 1-10, the problem addressed in the figures is to cut different size chamfers from the computer circuit board, and,

because computer electron device processingequipment still includes block base 301, boss III302, beveling sword 306 and vertical rail 308, vertical rail 308 is installed on L-shaped baffle 104, and fixedly connected with boss III302 on block base 301, boss III302 sliding connection is on vertical rail 308, is connected with a plurality of beveling sword 306 on block base 301, and the cutting position of a plurality of beveling sword 306 sets up to different length. And then convex seat III302 can drive block seat 301 and a plurality of oblique cutter 306 vertical movement when vertical slip on vertical rail 308, and the oblique cutter 306 of different length can cut different positions on the computer circuit board, and then with cutting off the chamfer of different size on the computer circuit board.

In certain embodiments, referring to fig. 1-10, the problem addressed is facilitating the removal of the vertical rails 308 from the L-shaped baffle 104, and,

because the computer electronic device processing device further comprises the threaded column 105 and the threaded column 105, the threaded column 105 is arranged on the L-shaped baffle 104, the vertical rail 308 is inserted on the threaded column 105, the threaded column 105 is connected with the nut I in a threaded mode, and the nut I is pressed on the vertical rail 308, so that the vertical rail 308 can be conveniently detached from the L-shaped baffle 104.

In some embodiments, referring to fig. 1-10, the problem addressed in the figures is to drive one of the skew cutters 306 to the four corners of the computer circuit board, complete the chamfering of the computer circuit board, and,

because computer electron device processingequipment still includes telescopic link III307, telescopic link III307 fixed connection is on vertical rail 308, the tip fixed connection of telescopic link III307 is on boss III302, and then drives boss III302 and vertically slides on vertical rail 308 when making telescopic link III307 flexible, and then drives block 301 vertical migration, and the chamfer to computer circuit board is accomplished to one of them tangential computer circuit board's of a plurality of oblique cutters 306 four corners department of final drive.

In certain embodiments, referring to fig. 1-10, the problem addressed in the figures is the ease of manual adjustment of the height of the bevel blade 306, and,

because the computer electronic device processing device also comprises the top strip 303, the plurality of oblique cutters 306 can vertically slide on the block seat 301, and the top strip 303 is arranged at the upper part of the oblique cutter 306, so that the height of the oblique cutter 306 can be conveniently adjusted manually.

In some embodiments, referring to fig. 1-10, the problem addressed is that only one bevel blade 306 protrudes at its lower end, where a bevel blade 306 of this size can be used to cut a corner of a computer circuit board, and,

because the computer electronic device processing device also comprises a screw frame 304, inserting screws 305, lower inserting holes 309 and upper inserting holes 310, the screw frame 304 is arranged on the block seat 301, the inserting screws 305 are connected on the screw frame 304 through threads, the plurality of oblique cutters 306 are all provided with the upper inserting holes 310 and the lower inserting holes 309, one inserted screw 305 of the plurality of oblique cutters 306 penetrates through the upper inserting hole 310, the inserting screw 305 penetrates through the lower inserting holes 309 on other oblique cutters 306, only the lower end of one oblique cutter 306 protrudes, and then the oblique cutter 306 with the size can be used for cutting the corner of the computer circuit board.

The computer electronic device processing device further comprises a grinding disc 501, a storage groove 502, a round rod 503, a round seat 504, a cylinder 505, a baffle 506, a door-shaped piece 507 and a convex rib 508, wherein the grinding disc 501 is annularly provided with the storage grooves 502, the lower end of the round rod 503 is hinged to the center of the upper side of the grinding disc 501 through a ball hinge, the upper end of the round rod 503 is fixedly connected with the round seat 504, the round rod 503 is sleeved with a compression spring I, the compression spring I is located between the grinding disc 501 and the round seat 504, the upper side of the round seat 504 is provided with the cylinder 505, the cylindrical piece 505 is axially provided with the convex rib 508, the upper end of the cylinder 505 is fixedly connected with the baffle 506, the door-shaped piece 507 is vertically connected onto the cylinder 505 and the convex rib 508 in a sliding mode, the cylinder 505 is sleeved with a compression spring II, the compression spring II is located between the round seat 504 and the door-shaped piece 507, and the grinding disc 501 is arranged on the upper sides of the four supporting plates 103.

In some embodiments, referring to fig. 1-10, the problem addressed in the figures is that abrasive disc 501 may still be tilted and pressed against the chamfer of a computer circuit board as it rotates, facilitating accommodation of abrasive environments where the chamfer is not flat, and,

the compression spring II on the cylinder 505 provides downward pressure for the round base 504, so that the round rod 503 and the grinding disc 501 both have downward pressure, the grinding disc 501 can incline towards any direction relative to the lower part of the round rod 503 through a ball hinge, so that the grinding disc 501 can form different inclinations conveniently, the compression spring I on the round rod 503 can enable the grinding disc 501 to restore to the original position, after the chamfer of the computer circuit board is cut, the grinding disc 501 is moved to the chamfer of the computer circuit board, then the door-shaped piece 507 is driven to rotate by taking the axis of the round rod 503 as a shaft, so that the grinding disc 501 is driven to rotate by taking the axis of the round rod 503 as a shaft, the chamfer of the computer circuit board is ground by the grinding disc 501, and the grinding disc 501 can still incline and press towards the chamfer of the computer circuit board when rotating, so that the grinding environment with uneven chamfer is conveniently adapted. When the grinding disc 501 rotates, the storage groove 502 on the grinding disc 501 is convenient for taking away the grinded scraps.

The computer electronic device processing device further comprises an empty rod 401, a rubber sleeve 402, an L-shaped frame 403, a threaded shaft 404, a flat rotating rod 405, a parallel rod 406, a sliding block 407, a motor 408 and a flat sheet 409, wherein the lower end of the empty rod 401 is fixedly connected to the rear portion of the bottom frame 201, the L-shaped frame 403 is vertically and slidably connected to the empty rod 401, the rubber sleeve 402 is arranged on the upper portion of the empty rod 401 and is in contact with the L-shaped frame 403, the threaded shaft 404 is arranged in the middle of the upper side of the flat rotating rod 405 and is inserted into the upper portion of the L-shaped frame 403, a nut II is in threaded connection with the threaded shaft 404 and is pressed on the upper side of the L-shaped frame, the parallel rod 406 is arranged on the lower side of the flat rotating rod 405, the sliding block 407 is in transverse sliding connection with the parallel rod 406, the motor 408 is fixedly connected to the lower side of the sliding block 403, the flat sheet 409 is fixedly connected to an output shaft of the motor 408, and is fixedly connected to the upper portion of the door-shaped member 507.

In some embodiments, referring to fig. 1-10, the problem addressed in the figures is moving abrasive disc 501 to a chamfer on a circuit board, and,

l shape frame 403 can be vertical slip on vacant pole 401, and then adjust the height of flat bull stick 405, parallel bar 406, slider 407, motor 408 and plain film 409, and then the height of adjustment mill 501 makes mill 501 be close to or keep away from the computer circuit board, because two chamfers of diagonal department on the computer circuit board are relative, and then rotate through flat bull stick 405 on L shape frame 403 through threaded shaft 404 and can make the coincidence of the diagonal of parallel bar 406 circuit board, make things convenient for slider 407 to slide on parallel bull stick 406, and then move mill 501 to the chamfer on the circuit board, drive plain film 409 rotates when the output shaft of motor 408 rotates, and then drive mill 501 rotates and polishes. The relative positions of the flat rotating rod 405 and the L-shaped frame 403 can be fixed by screwing the nut II on the threaded shaft 404.