CN116532944A - Memory bank buckling machine for computer assembly - Google Patents

Abstract

The present invention relates to computer assembling devices, and more particularly, to a memory bank fastening device for computer assembling. The invention provides a memory bank buckling machine for computer assembly, which comprises a cabinet body, a workbench, guide rails, a mounting frame, sliding plates, a connecting component and a pressing mechanism, wherein the top of the cabinet body is connected with the workbench, the top of the workbench is uniformly and alternately connected with three guide rails, one guide rail is arranged in the middle, the sliding plates are connected between the guide rails on the other two sides of the middle in a sliding manner, the top of the workbench is connected with the mounting frame, the mounting frame is provided with the connecting component, the connecting component is provided with the pressing mechanism, and the pressing mechanism is used for pressing a memory bank to a main board. When the invention is operated, the memory strips and the main board can be sequentially placed, the cylinder is controlled to be pressed down, and the memory strips are clamped into the main board, so that the assembly of the memory strips is completed, the operation process is simpler, and the labor degree of workers can be reduced.

Description

Memory bank buckling machine for computer assembly

Technical Field

The present invention relates to computer assembling devices, and more particularly, to a memory bank fastening device for computer assembling.

Background

With the development of server technology, the requirements of various industries on servers are increasing, and the configuration and installation procedures of the servers are complex. In the process of assembling the server, the memory bank needs to be buckled on the main board.

At present, when the memory bar is buckled, the memory bar is usually held by a hand, and then the memory bar is aligned to the corresponding slot position on the main board, so that the golden finger position of the memory bar faces downwards, and then the memory bar is inserted into the slot, so that the memory bar is installed, the operation flow is complicated, the whole process is operated by a hand, the long-term reciprocating operation is tired, and the efficiency in assembly is easy to reduce.

Disclosure of Invention

In view of the above, the present invention provides a memory bank fastening machine for computer assembly.

The technical scheme of the invention is as follows: the utility model provides a memory strip buckling machinery that computer equipment was used, including the cabinet body and workstation, cabinet body top is connected with the workstation, still including guide rail, mounting bracket, sliding plate, coupling assembling and pushing down the mechanism, the even interval in workstation top is connected with three guide rail, one of them guide rail sets up in the middle, all slidingtype between the guide rail of the other both sides in the middle is connected with the sliding plate, the workstation top is connected with the mounting bracket, be equipped with coupling assembling on the mounting bracket, be equipped with pushing down the mechanism on the coupling assembling, pushing down the mechanism is used for pushing down memory strip to mainboard department.

Further, coupling assembling is including connecting block and slider, is connected with two connecting blocks on the mounting bracket, all slidingtype be connected with the slider on two connecting blocks.

Further, pushing down the mechanism including the cylinder, pushing down briquetting, grip block and first elastic component, the cylinder is installed to the slider front side, is connected with down briquetting on the telescopic link of cylinder, and lower briquetting both sides all sliding type are connected with the grip block, are connected with first elastic component between grip block and the lower briquetting, and the grip block lower part is provided with the inclined plane, and the side that the briquetting lower part is close to two grip blocks also is provided with the inclined plane down.

Further, the guide plate is connected with the guide plate in a sliding mode, the two second elastic pieces are connected between the guide plate and the connecting plate, and two sides of the lower pressing block are connected with the limiting plates in a sliding mode.

Further, two guide grooves are formed in the guide plate, the lower portions of the guide grooves are obliquely arranged, a protruding shaft is arranged on the limiting plate, and the protruding shaft is in sliding fit with the guide grooves.

Further, still including the clamping assembly, the clamping assembly is including guide block, grip block, pull rod and third elastic component, is connected with the guide block on the sliding plate, and the last slidingtype of guide block is connected with the grip block, and the grip block is connected with the pull rod with the guide block slidingtype on the grip block, is connected with at least one third elastic component between grip block and the guide block.

Further, still including locating component, locating component is including clamping axle and fourth elastic component, all slidingtype on the slide plate of both sides is connected with the clamping axle, is connected with the fourth elastic component between clamping axle and the slide plate, has all seted up two draw-in grooves on the guide rail of both sides, and the clamping axle is used for carrying out the location to the slide plate.

Further, the device also comprises a rack and a gear, wherein one sides of the sliding plates at two sides, which are close to each other, are connected with the rack, the top of the middle guide rail is rotatably connected with the gear, and two sides of the rack are respectively meshed with two sides of the gear.

Further, the feeding mechanism comprises a blanking frame, guide rods, pushing plates, electric pushing rods, a feeding frame, a pushing frame and a fifth elastic piece, wherein the blanking frame is connected to two sides of the cabinet body in a sliding mode, two limiting openings are formed in the left side and the right side of the cabinet body, the blanking frame can be limited through the limiting openings, the guide rods are connected to two sides of the bottom of the blanking frame, the pushing plates are connected between the two guide rods in a sliding mode, the electric pushing rods are arranged on two sides of the bottom of the cabinet body, telescopic rods of the two electric pushing rods are connected with the two pushing plates respectively, the fifth elastic piece is connected between the pushing plates and the guide rods, through grooves for adding memory strips are formed in the lower portions of one sides of the feeding frames on the two sides, the feeding frames are connected with the workbench in a sliding mode, the two feeding frames are located below the two sides of the blanking frame, the pushing frames are connected to the top of the pushing plates in a sliding mode, and the feeding frames are connected with the feeding frames.

The beneficial effects are as follows: 1. when the invention is operated, the memory strips and the main board can be sequentially placed, the cylinder is controlled to be pressed down, and the memory strips are clamped into the main board, so that the assembly of the memory strips is completed, the operation process is simpler, and the labor degree of workers can be reduced.

2. When the memory bar is clamped in, the limiting plates can be centered and close through the guide grooves on the guide plates, if the position where the memory bar is placed is offset, the limiting plates can squeeze two sides of the memory bar when being centered and close, so that the memory bar is placed in the middle, and the operation is more convenient.

3. According to the invention, the memory strips can be added through the blanking frame and the feeding frame, and after the memory strips are added, the added memory strips can be pushed between the pressing block and the clamping block through the operation of the electric push rod, so that the effect of adding the memory strips is realized.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of parts such as a guide rail, a mounting frame, a sliding plate and the like.

Fig. 3 is a schematic view of a first structure of the connection assembly and the pressing mechanism of the present invention.

Fig. 4 is a schematic view of a second construction of the connection assembly and the pressing mechanism of the present invention.

Fig. 5 is a schematic view of the structure of the hold-down mechanism and centering assembly of the present invention.

Fig. 6 is a cross-sectional view of the hold-down mechanism of the present invention.

Fig. 7 is a schematic structural view of the clamping assembly of the present invention.

Fig. 8 is a schematic structural view of the positioning assembly of the present invention.

Fig. 9 is a schematic structural view of components such as a rack, a gear sliding plate, a sliding plate and the like.

Fig. 10 is an enlarged view of section a of fig. 9 in accordance with the present invention.

Fig. 11 is a schematic view of a first structure of the feeding mechanism of the present invention.

Fig. 12 is a schematic view of a second structure of the feeding mechanism of the present invention.

Fig. 13 is a schematic structural view of the feeding frame, the pushing frame and the pressing block according to the present invention.

Part names and serial numbers in the figure: 1_cabinet, 2_table, 3_guide rail, 4_mounting bracket, 5_slide plate, 61_connection block, 62_slider, 631_cylinder, 632_hold down block, 633_clamp block, 634_first elastic member, 71_connection plate, 72_guide plate, 73_second elastic member, 74_limit plate, 81_guide block, 82_clamp plate, 83_pull rod, 84_third elastic member, 91_clamp shaft, 92_fourth elastic member, 101_rack, 102_gear, 111_blanking frame, 112_guide rod, 113_push plate, 114_electric push rod, 115_feeding frame, 116_pushing frame, 117_fifth elastic member, 100_main plate.

Detailed Description

The following describes in detail the preferred embodiments of the present invention with reference to the accompanying drawings.

Example 1

The utility model provides a memory strip buckling equipment that computer equipment used, as shown in fig. 1-6, including the cabinet body 1, workstation 2, guide rail 3, mounting bracket 4, sliding plate 5, coupling assembling and pushing down the mechanism, cabinet body 1 top is connected with workstation 2, the even interval in workstation 2 top is connected with three guide rail 3, three guide rail 3 divide left and right sides to set up, all sliding connection has sliding plate 5 between the guide rail 3 of centre and the left side and between the guide rail 3 of centre and the right side, workstation 2 top rear side is connected with mounting bracket 4, be equipped with coupling assembling on the mounting bracket 4, be equipped with pushing down the mechanism on the coupling assembling, pushing down the mechanism and being used for pushing down the memory strip to mainboard 100 department.

As shown in fig. 3-5, the connecting assembly comprises a connecting block 61 and a sliding block 62, the front side of the mounting frame 4 is connected with two connecting blocks 61, the front sides of the two connecting blocks 61 are both connected with the sliding block 62 in a sliding manner, damping is arranged between the sliding block 62 and the connecting block 61, and the sliding block 62 can slide left and right along the connecting block 61.

As shown in fig. 3-6, the pressing mechanism includes an air cylinder 631, a pressing block 632, a clamping block 633 and a first elastic member 634, the air cylinder 631 is installed at the front side of the slider 62, the pressing block 632 is connected to the telescopic rod of the air cylinder 631, the clamping block 633 is slidably connected to the front and rear sides of the pressing block 632, the first elastic member 634 is connected between the clamping block 633 and the pressing block 632, the first elastic member 634 is a clamping spring, an inclined surface is provided at the lower part of the clamping block 633, and inclined surfaces are also provided at the sides of the lower part of the pressing block 632, which are close to the two clamping blocks 633.

When needs carry out the spiral-lock to the memory stick, can use this device, before using, put into the front and back both sides of same lower briquetting 632 bottom respectively with two memory sticks earlier, when placing in the bottom front side, the memory stick can extrude the grip block 633 of front side and move forward, first elastic component 634 is stretched, after placing, first elastic component 634 can apply pressure for front side grip block 633, in order to carry out the centre gripping to the memory stick, when placing at the rear side, then carry out the centre gripping to the memory stick through grip block 633 and the first elastic component 634 of rear side, then place mainboard 100 again at the sliding plate 5 top, after placing, promote sliding plate 5 and move backward, drive mainboard 100 and move backward, make the position of inserting the memory stick on the mainboard 100 move to two memory sticks below, then start cylinder 631 extension drive down briquetting 632 move down and drive memory stick move down, preceding memory stick moves down and can insert 100 departments, can insert memory stick 633 after the centre gripping, can insert memory stick 100 in the position, then insert the buckle piece 633 and can be moved down, install the slider and can be moved down in the slider and the slider is moved up to the slider is pressed down, can be adjusted to the position is moved up to the slider, can be adjusted in the slider is moved up to the slider is moved, the slider is realized, can be moved down, the position is moved up to the slider is moved down according to the slider is moved.

Example 2

On the basis of embodiment 1, as shown in fig. 4-6, the device further comprises a centering component, the centering component comprises a connecting plate 71, a guide plate 72, a second elastic piece 73 and a limiting plate 74, the lower part of the front side of the mounting frame 4 is slidably connected with two connecting plates 71, damping is arranged between the connecting plates 71 and the mounting frame 4, the two connecting plates 71 are respectively positioned below the two connecting plates 61, the front sides of the two connecting plates 71 are slidably connected with the guide plate 72, two second elastic pieces 73 are connected between the guide plate 72 and the connecting plates 71, the second elastic pieces 73 are tension springs, the left side and the right side of the lower pressing block 632 are slidably connected with the limiting plate 74, two guide grooves are formed in the front side of the guide plate 72, the lower parts of the guide grooves are obliquely arranged, and convex shafts are arranged on the limiting plate 74 and are positioned in the guide grooves and can slide in the guide grooves.

When the lower pressing block 632 moves downwards, the limiting plates 74 move along the guide grooves on the guide plates 72, when the two limiting plates 74 on the same lower pressing block 632 move, the two limiting plates are close to each other through the inclination on the guide grooves, so that the memory bank is extruded, the memory bank is centered, the memory bank is located right above the position of the memory bank to be installed on the main board 100, when the limiting plates 74 move to the tail ends of the guide grooves, the limiting plates 74 move continuously, the guide plates 72 move downwards, the second elastic pieces 73 are stretched, the effect of centering the memory bank can be achieved, and when the limiting plates 74 are driven to reset, the guide plates 72 reset under the action of the second elastic pieces 73.

As shown in fig. 7, the clamping assembly further comprises a guide block 81, a clamping plate 82, a pull rod 83 and a third elastic piece 84, wherein the guide block 81 is connected to the front side of the sliding plate 5, the clamping plate 82 is connected to the guide block 81 in a sliding manner, the pull rod 83 is connected to the middle of the front side of the clamping plate 82 in a sliding manner, and the pull rod 83 is connected to the guide block 81 in a sliding manner, and two third elastic pieces 84 are connected between the clamping plate 82 and the guide block 81.

When the main board 100 is placed, the pull rod 83 can be pulled to drive the clamping plate 82 to move forwards, the third elastic piece 84 is compressed, the main board 100 is placed on the rear side of the clamping plate 82, then the pull rod 83 can be loosened, and the clamping plate 82 resets to clamp the main board 100 under the action of the third elastic piece 84.

As shown in fig. 8, the positioning assembly further comprises a clamping shaft 91 and a fourth elastic member 92, wherein the clamping shaft 91 is connected to one side, away from each other, of the sliding plates 5 on both sides in a sliding manner, the fourth elastic member 92 is connected between the clamping shaft 91 and the sliding plates 5, the fourth elastic member 92 is a return spring, two clamping grooves are formed in the guide rails on the left side and the right side, and the clamping shaft 91 can be clamped into the clamping grooves for positioning the sliding plates 5.

When the sliding plate 5 moves, the clamping shaft 91 is clamped with the clamping groove, when the clamping shaft 91 is clamped with the front clamping groove, the sliding plate 5 is in an initial state for placing the main board 100, when the clamping shaft 91 is clamped with the rear clamping groove, the main board 100 on the sliding plate 5 is positioned below the lower pressing block 632 for adding the memory bank, when the sliding plate 5 is in a moving state, the clamping shaft 91 is extruded by the guide rail 3, and the fourth elastic piece 92 is in a compressed state.

As shown in fig. 9 and 10, the sliding plate further comprises a rack 101 and a gear 102, wherein the rack 101 is connected to one side, close to each other, of the sliding plates 5 at two sides, the gear 102 is rotatably connected to the top of the guide rail 3 in the middle, and two sides of the rack 101 are respectively meshed with two sides of the gear 102.

When the main board 100 on the left sliding plate 5 moves forwards after the assembly is finished, the right sliding plate 5 can be driven to move backwards through the rack 101 and the gear 102 to feed the main board 100 on the right sliding plate into the assembly, and the operation is repeated in such a way, so that the two sliding plates 5 do not need to be operated manually in sequence, and the operation is more convenient.

As shown in fig. 11-13, the automatic feeding device further comprises a feeding mechanism, the feeding mechanism comprises a feeding frame 111, guide rods 112, push plates 113, electric push rods 114, a feeding frame 115, a push plate 113 and fifth elastic pieces 117, wherein the feeding frame 111 is connected to the front side and the rear side of the cabinet body 1 in a sliding mode, the feeding frame 111 is divided into two feeding tracks, the two feeding tracks are all in inclined arrangement, one sides of the two feeding tracks are close to each other, two limiting openings are formed in the left side and the right side of the cabinet body 1, the feeding frame 111 can slide in the limiting openings, the limiting openings can limit the feeding frame 111, the guide rods 112 are connected to the left side and the right side of the bottom of the feeding frame 111, the push plates 113 are connected between the two guide rods 112 in a sliding mode, the electric push rods 114 are respectively connected to the front side and the rear side of the bottom of the cabinet body 1, the fifth elastic pieces 117 are connected between the push plates 113 and the guide rods 112, the left side and the right side of the middle of the feeding track are respectively connected with the feeding frame 115, the two feeding frame 115 are arranged on the two sides of the feeding track, one side of the feeding frame 115 is far away from the upper side of the upper frame 115, the two pushing frames are connected to the upper frame 115, the two pushing frames are arranged on the top of the upper frame 115 and are connected to the top of the upper frame 115 in a sliding mode, the top of the upper frame is connected to the top frame 2, and the upper frame 115 is connected to the upper frame 115 in a sliding mode is arranged on the top of the upper frame 2, and the upper frame is connected to the upper frame 115.

At first, the memory strips can be put into the discharging tracks on two sides of the discharging frame 111, the memory strips on two sides respectively enter the feeding frame 115 through the through grooves, when the memory strips are required to be added, the telescopic rod of the electric push rod 114 can be started to extend to drive the push plate 113 to move upwards, the push plate 113 drives the guide rod 112 and the discharging frame 111 to move upwards through the fifth elastic piece 117 when moving upwards, the discharging frame 111 moves upwards to drive the feeding frame 115 to move upwards, the feeding frame 115 is close to the pressing block 632, when the distance between the feeding frame 115 and the bottom of the pressing block 632 is smaller than the height of one memory strip, the discharging frame 111 also abuts against the limiting opening, at this time, the discharging frame 111 is difficult to move upwards, then the push plate 113 moves upwards continuously, the fifth elastic piece 117 is stretched, the push plate 113 moves upwards to drive the pushing frame 116 to move upwards, the memory strips in the feeding frame 115 are pushed upwards until the memory strips in the feeding frame 115 are inserted between the pressing block 632 and the clamping block 633, and thus the electric push rod 114 can retract after the memory strips are automatically added.

The foregoing has outlined rather broadly the more detailed description of the present application, wherein specific examples have been provided to illustrate the principles and embodiments of the present application, the description of the examples being provided solely to assist in the understanding of the method of the present application and the core concepts thereof; meanwhile, as those skilled in the art will have modifications in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims (9)

1. The utility model provides a memory strip buckling machinery for computer assembly, including the cabinet body (1) and workstation (2), cabinet body (1) top is connected with workstation (2), a serial communication port, still including guide rail (3), mounting bracket (4), sliding plate (5), coupling assembling and pushing down the mechanism, workstation (2) top even interval is connected with three guide rail (3), one of them guide rail (3) sets up in the centre, all sliding connection has sliding plate (5) between guide rail (3) of the other both sides in the centre, workstation (2) top is connected with mounting bracket (4), be equipped with coupling assembling on mounting bracket (4), be equipped with pushing down the mechanism on the coupling assembling, pushing down the mechanism and being used for pushing down memory strip to mainboard (100) department.

2. The memory bank fastening machine for computer assembly according to claim 1, wherein the connecting assembly comprises a connecting block (61) and a sliding block (62), two connecting blocks (61) are connected to the mounting frame (4), and sliding blocks (62) are connected to the two connecting blocks (61) in a sliding manner.

3. The memory strip buckling machine for computer assembly according to claim 2, wherein the pushing mechanism comprises an air cylinder (631), a lower pressing block (632), a clamping block (633) and a first elastic piece (634), the air cylinder (631) is installed at the front side of the sliding block (62), the lower pressing block (632) is connected to a telescopic rod of the air cylinder (631), the clamping blocks (633) are connected to two sides of the lower pressing block (632) in a sliding mode, the first elastic piece (634) is connected between the clamping blocks (633) and the lower pressing block (632), an inclined surface is arranged at the lower portion of the clamping block (633), and inclined surfaces are also arranged on the side faces, close to the two clamping blocks (633), of the lower pressing block (632).

4. A memory card buckling machine for computer assembly according to claim 3, further comprising a centering assembly, wherein the centering assembly comprises a connecting plate (71), a guide plate (72), a second elastic member (73) and a limiting plate (74), the two connecting plates (71) are slidably connected to the mounting frame (4), the two connecting plates (71) are respectively located below the two connecting plates (61), the guide plate (72) is slidably connected to the two connecting plates (71), the two second elastic members (73) are connected between the guide plate (72) and the connecting plates (71), and the limiting plates (74) are slidably connected to both sides of the pressing block (632).

5. The memory bank fastening machine for computer assembly according to claim 4, wherein the guide plate (72) is provided with two guide grooves, the lower parts of the guide grooves are obliquely arranged, and the limiting plate (74) is provided with a protruding shaft which is in sliding fit with the guide grooves.

6. The memory bank fastening machine for computer assembly according to claim 1, further comprising a clamping assembly, wherein the clamping assembly comprises a guide block (81), a clamping plate (82), a pull rod (83) and a third elastic member (84), the guide block (81) is connected to the sliding plate (5), the clamping plate (82) is connected to the guide block (81) in a sliding manner, the pull rod (83) is connected to the clamping plate (82), the pull rod (83) is connected to the guide block (81) in a sliding manner, and at least one third elastic member (84) is connected between the clamping plate (82) and the guide block (81).

7. The memory strip buckling machine for computer assembly according to claim 1, further comprising a positioning assembly, wherein the positioning assembly comprises a clamping shaft (91) and a fourth elastic piece (92), the clamping shaft (91) is connected to the sliding plates (5) on two sides in a sliding mode, the fourth elastic piece (92) is connected between the clamping shaft (91) and the sliding plates (5), two clamping grooves are formed in the guide rails on two sides, and the clamping shaft (91) is used for positioning the sliding plates (5).

8. The memory bar fastening machine for computer assembly according to claim 1, further comprising a rack (101) and a gear (102), wherein the rack (101) is connected to one side of the two sliding plates (5) which are close to each other, the gear (102) is rotatably connected to the top of the middle guide rail (3), and two sides of the rack (101) are respectively meshed with two sides of the gear (102).

9. The memory bar buckling machinery for computer assembly of claim 3, further comprising a feeding mechanism, wherein the feeding mechanism comprises a blanking frame (111), guide rods (112), push plates (113), electric push rods (114), a feeding frame (115), a pushing frame (116) and a fifth elastic piece (117), wherein two sides of the cabinet body (1) are connected with the blanking frame (111) in a sliding manner, two limiting openings are formed in the left side and the right side of the cabinet body (1), the limiting openings can limit the blanking frame (111), the guide rods (112) are connected to two sides of the bottom of the blanking frame (111), a push plate (113) is connected between the two guide rods (112) in a sliding manner, electric push rods (114) are respectively arranged at two sides of the bottom of the cabinet body (1), a fifth elastic piece (117) is connected between the push plates (113) and the guide rods (112), the two sides of the middle part of the blanking track are respectively connected with the feeding frame (115), one side of the upper frame (115) at two sides is far away from each other, the two sides of the upper frame (115) are connected with the lower frame (116) in a sliding manner, the two sides of the upper frame (115) are connected with the upper frame (116) are respectively, the pushing frame (116) is connected with the feeding frame (115) in a sliding mode.