CN111554326B - Positioning-reducing manufacturing equipment for computer hard disk - Google Patents

Abstract

The invention relates to the technical field of disk installation and positioning in hard disks, and discloses a positioning reduction manufacturing device for a computer hard disk, which comprises a shell, wherein two side walls in the shell are movably connected with screw rods, the surface of each screw rod is movably connected with a guide wheel, the inside of the shell is movably connected with a rotating shaft, the surface of each rotating shaft is movably connected with an ejector rod, the surface of each ejector rod is movably connected with a deflection rod, the inside of each deflection rod is provided with a chute, two sides of each chute are movably connected with piston blocks, one end of each spring rod, far away from the ejector rod, is movably connected with a movable plate, the inside of each movable plate is provided with a feed chute, and two sides of each feed chute are movably connected with a torsion spring. The deflection rod moves downwards under the influence of the gravity of the hard disk shell, the deflection rod moves to push the ejector rod to move upwards, the rear ejector rod drives the rotating shaft to move upwards and enable the magnetic disk to be in contact with the hard disk shell, and the magnetic disk is placed in the hard disk shell, so that the effect of reducing the positioning times and installing the magnetic disk is achieved.

Description

Positioning-reducing manufacturing equipment for computer hard disk

Technical Field

The invention relates to the technical field of installation and positioning of a disk in a hard disk, in particular to positioning-reducing manufacturing equipment for a computer hard disk.

Background

The computer hard disk is the most main storage equipment of the computer; the hard disk consists of one or more aluminum or glass disks; the discs are covered with ferromagnetic materials, and the hard disk comprises magnetic heads, magnetic tracks, magnetic disks, cylindrical surfaces and the like; a plurality of magnetic disks exist in one hard disk, and the magnetic disks are positions for storing data in the hard disk.

In the prior art, a production line production process is adopted for manufacturing hard disks, manufactured magnetic disks are transferred and placed on the surface of a hard disk shell by a mechanical arm, then blocking objects between the magnetic disks are placed between the magnetic disks by the mechanical arm, and the mechanical arm is positioned by technologies such as infrared rays and the like, but the transmission ratio inside the machine can be changed after long-term repeated operation of the machine, so that the positioning error is amplified, the magnetic disks are dislocated, and the use is influenced, so that the computer hard disk is produced by reducing positioning manufacturing equipment.

Disclosure of Invention

In order to achieve the purposes of reducing the positioning times, carrying out disk installation, cleaning the disk installation and blocking objects, the invention provides the following technical scheme: the utility model provides a computer hard disk is with reducing location manufacture equipment, which comprises a housin, the equal swing joint of inside both sides wall of casing has the screw rod, the surperficial swing joint of screw rod has the leading wheel, the inside swing joint of casing has the pivot, the surperficial swing joint of pivot has the ejector pin, the surperficial swing joint of ejector pin has the deflection pole, the spout has been seted up to the inside of deflection pole, the equal swing joint in both sides of spout has the piston piece, the surperficial swing joint of spout has the spring beam, the one end swing joint that the ejector pin was kept away from to the spring beam has the movable plate, the chute feeder has been seted up to the inside of movable plate, the equal swing joint in both sides of chute feeder has torsion spring.

The invention has the beneficial effects that:

1. the deflection rod moves downwards under the influence of the gravity of the hard disk shell, the deflection rod moves to push the ejector rod to move upwards, the rear ejector rod drives the rotating shaft to move upwards and enable the magnetic disk to be in contact with the hard disk shell, and the magnetic disk is placed in the hard disk shell, so that the effect of reducing the positioning times and installing the magnetic disk is achieved.

2. The piston block slides by extending the spring rod to generate suction force on the surface of the air bag, so that the air in the air bag is sucked out, and then the air flows out of the air feed pipe and is blown on the surfaces of the magnetic disk and the hard disk shell, thereby achieving the effect of cleaning the magnetic disk and keeping the surface smooth.

3. The elastic force is released through the spring rod, the torsion spring is pushed to be twisted to drive the moving plate to move from a vertical upward angle to an angle towards the hard disk shell, and the blocking and holding object in the rear feeding groove slides out and falls between adjacent magnetic disks, so that the effect of installing the blocking and holding object without repositioning is achieved.

Preferably, the surface of the torsion spring is movably connected with a connecting rod, one end of the connecting rod, which is far away from the torsion spring, is movably connected with the spring rod, the connecting rod can push the torsion spring to be twisted when being moved, and the torsion spring can drive the moving plate to move when being twisted.

Preferably, the surface of the rotating shaft is movably connected with a magnetic disk, and the diameter of the magnetic disk is smaller than the width of the shell, so that the magnetic disk is conveniently pushed out to be in contact with the hard disk shell.

Preferably, an air bag is fixedly connected to a surface of the deflection rod, and an air supply pipe is fixedly connected to a surface of the air bag, so that a suction force is generated when the piston block moves, and the air flow in the air bag can be sucked out by the suction force and flows out of the air supply pipe.

Preferably, the air supply pipe is designed to be inclined, the inclined angle is upward, and the direction of the inclined angle is overlapped with the direction in which the hard disk shell is placed, so that the air flow in the air supply pipe is convenient to directly blow on the surface of the hard disk shell.

Preferably, the surface of the guide wheel is movably connected with a disk shell, the diameter of the disk shell is larger than that of a disk, and the reason that the hard disk shell is large is that the hard disk shell can be borne by the guide wheel when the hard disk shell is placed on the guide wheel conveniently.

Preferably, the ejector rod and the deflection rod are designed in an inclined mode, the inclined included angle is thirty degrees, and the ejector rod is lower than the deflection rod in height in the initial state, so that the extrusion ejector rod can be pushed to move upwards when the deflection rod is extruded.

Preferably, the ejector rod can drive the rotating shaft to move when moving, and the rotating shaft is designed in a sectional mode, so that the ejector rod can be attached to a moving track conveniently.

Drawings

FIG. 1 is a top cross-sectional view of the housing construction of the present invention;

FIG. 2 is a schematic view of a guide wheel structure according to the present invention;

FIG. 3 is a schematic view of the ejector pin structure of the present invention;

FIG. 4 is a schematic diagram of a moving plate structure according to the present invention;

fig. 5 is a partially enlarged view of a portion a in fig. 4.

In the figure: 1-shell, 2-screw, 3-guide wheel, 4-rotating shaft, 5-ejector rod, 6-deflection rod, 7-chute, 8-piston block, 9-spring rod, 10-moving plate, 11-feeding groove, 12-torsion spring, 13-connecting rod, 14-magnetic disk, 15-air bag and 16-air supply pipe.

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.

Referring to fig. 1-5, a computer hard disk is with reducing location manufacture equipment, including the body 1, the inside both sides wall of the body 1 connects with the threaded spindle 2 movably, the surface activity of the threaded spindle 2 connects with the guide wheel 3, the surface activity of the guide wheel 3 connects with the disk shell, the diameter of the disk shell is greater than the diameter of the disk 14, the reason that the hard disk shell is bigger is that it can be born by the guide wheel 3 when putting it on the guide wheel 3; the inner part of the shell 1 is movably connected with a rotating shaft 4, the surface of the rotating shaft 4 is movably connected with a magnetic disk 14, and the diameter of the magnetic disk 14 is smaller than the width of the shell 1, so that the magnetic disk 14 is conveniently pushed out to be in contact with a hard disk shell.

The surface of the rotating shaft 4 is movably connected with a push rod 5, the rotating shaft 4 is driven to move when the push rod 5 moves, and the rotating shaft 4 is designed in a sectional mode, so that the moving track of the push rod 5 can be attached conveniently; the surface of the ejector rod 5 is movably connected with a deflection rod 6, the ejector rod 5 and the deflection rod 6 are designed in an inclined mode, the inclined included angle is thirty degrees, and the ejector rod 5 is lower than the deflection rod 6 in height in the initial state, so that when the deflection rod 6 is extruded, the extrusion ejector rod 5 is pushed to move upwards; an air bag 15 is fixedly connected to the surface of the deflection rod 6, and an air supply pipe 16 is fixedly connected to the surface of the air bag 15, so that when the piston block 8 moves, a suction force is generated, and the air flow in the air bag 15 can be sucked out by the suction force and flows out of the air supply pipe 16.

The air feed pipe 16 is designed to be inclined, and the inclination angle is upward and the direction is coincident with the direction in which the hard disk shell is placed, so that the air flow in the air feed pipe 16 is convenient to directly blow on the surface of the hard disk shell; a chute 7 is formed in the deflection rod 6, piston blocks 8 are movably connected to two sides of the chute 7, and a spring rod 9 is movably connected to the surface of the chute 7; the deflection rod 6 is pushed to move downwards by the hard disk shell, the ejector rod 5 is pushed while the deflection rod 6 moves, so that the spring rod 9 is influenced by extrusion force to release the force which is compressed before the spring rod 9 is released, the spring rod 9 extends to push the piston block 8 to slide on the surface of the chute 7, the piston block 8 slides to generate suction force on the surface of the air bag 15, further, the air in the air bag 15 is sucked out, and the rear air flows out of the air feed pipe 16 and is blown on the surfaces of the magnetic disk 14 and the hard disk shell, so that the effect of cleaning the magnetic disk 14 to keep the surface smooth is achieved.

One end of the spring rod 9, which is far away from the ejector rod 5, is movably connected with a moving plate 10, a feeding groove 11 is formed in the moving plate 10, and two sides of the feeding groove 11 are both movably connected with torsion springs 12; the surface of the torsion spring 12 is movably connected with a connecting rod 13, one end of the connecting rod 13, which is far away from the torsion spring 12, is movably connected with the spring rod 9, the connecting rod 13 pushes the torsion spring 12 to be twisted when being moved, and the torsion spring 12 drives the moving plate 10 to move when being twisted.

When the hard disk drive is used, a hard disk shell to be installed is placed on the surface of the guide wheel 3, the magnetic disk 14 is placed on the surface of the rotating shaft 4 in a state shown in the figure I, the rear driving part is started to enable the guide wheel 3 to rotate, the guide wheel 3 drives the hard disk shell to move to the surface of the deflection rod 6, the rear deflection rod 6 moves downwards under the influence of the gravity of the hard disk shell, the deflection rod 6 moves to push the ejector rod 5 to move upwards, the rear ejector rod 5 drives the rotating shaft 4 to move upwards to enable the magnetic disk 14 to be in contact with the hard disk shell, and the magnetic disk 14 is placed inside the hard disk shell.

The deflection rod 6 is pushed by the hard disk shell to deflect downwards to enable the spring rod 9 to release elasticity, the spring rod 9 pushes the connecting rod 13 to be in contact with the torsion spring 12 while extending, the torsion spring 12 is pushed to twist to drive the moving plate 10 to move from a vertical upward angle to an angle towards the hard disk shell, the retaining object in the rear feeding groove 11 slides out and falls between the adjacent magnetic disks 14, and the placement of the retaining object is completed.

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 scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (7)

1. A kind of computer hard disk reduces the manufacturing installation of the location, including the body (1), characterized by: the utility model discloses a lead screw, including casing (1), the equal swing joint in inside both sides wall of casing (1) has screw rod (2), the surperficial swing joint of screw rod (2) has leading wheel (3), the inside swing joint of casing (1) has pivot (4), the surperficial swing joint of pivot (4) has ejector pin (5), the surperficial swing joint of ejector pin (5) has deflection pole (6), spout (7) have been seted up to the inside of deflection pole (6), the equal swing joint in both sides of spout (7) has piston block (8), the surperficial swing joint of spout (7) has spring beam (9), the one end swing joint that ejector pin (5) were kept away from in spring beam (9) has movable plate (10), chute feeder (11) have been seted up to the inside of movable plate (10), the equal swing joint in both sides of chute feeder (11) has torsion spring (12).

2. The manufacturing equipment of claim 1, wherein the manufacturing equipment comprises: the surface of the torsion spring (12) is movably connected with a connecting rod (13), and one end, far away from the torsion spring (12), of the connecting rod (13) is movably connected with the spring rod (9).

3. The manufacturing equipment of claim 1, wherein the manufacturing equipment comprises: the surface of the rotating shaft (4) is movably connected with a magnetic disk (14), and the diameter of the magnetic disk (14) is smaller than the width of the shell (1).

4. The manufacturing equipment of claim 1, wherein the manufacturing equipment comprises: an air bag (15) is fixedly connected to the surface of the deflection rod (6), and an air supply pipe (16) is fixedly connected to the surface of the air bag (15).

5. The manufacturing equipment of claim 4, wherein the manufacturing equipment comprises: the air feed pipe (16) is designed to be inclined, and the inclined angle is upward.

6. The manufacturing equipment of claim 1, wherein the manufacturing equipment comprises: the surface of the guide wheel (3) is movably connected with a disk shell, and the diameter of the disk shell is larger than that of the disk (14).

7. The manufacturing equipment of claim 1, wherein the manufacturing equipment comprises: the ejector rod (5) can drive the rotating shaft (4) to move when moving, and the rotating shaft (4) is designed in a sectional mode.

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