KR200457342Y1 - Multicell fixture of apparatus for testing hard disk drive - Google Patents

Abstract

The present invention relates to a multi-cell fixture of a hard disk inspection apparatus, and includes an accommodating part for accommodating a hard disc, a terminal part provided at the rear of the accommodating part, upper and lower fixing plates, upper and lower sliding plates, and an accommodating part. And a lever unit for pressurizing the hard disk to be accommodated in the housing, a clamping unit for pressing and fixing the upper portion of the hard disk housed in the storage unit, and a detaching unit for contacting the rear end of the hard disk housed in the housing unit for collective removal. It is characterized by. Therefore, the present invention provides an effect that the fixture of the hard disk inspection apparatus is formed in a multi-cell shape, and the clamping part and the removing part operate by operating the lever part to collectively load and unload a plurality of hard disks.

Description

Multicell fixture of apparatus for testing hard disk drive

The present invention relates to a multi-cell fixture of a hard disk inspection apparatus, and more particularly, to a multi-cell fixing apparatus for mounting a hard disk in a hard disk inspection apparatus that reads the contents of the hard disk or performs a surface inspection of the disk. Relates to a cell fixture.

A hard disk is a storage device that is installed in a computer to store and delete data. After the manufacture of a hard disk, the hard disk goes through an inspection step to check whether there is an abnormality of the hard disk. A conventional hard disk inspection apparatus includes a plurality of hard disks. A plurality of hard disk accommodating parts are installed to test at a time, and a plurality of hard discs are accommodated in each accommodating part and inspected.

In the hard disk inspection apparatus, a plurality of fixtures for accommodating a plurality of hard disks are installed in a drawer rack, and the hard disks are mounted on the fixtures for inspection.

In particular, a conventional hard disk inspection apparatus installs a lever at a front end portion to mount a hard disk to a fixture of a rack, and when the operator operates each lever, the hard disk is mounted on the rack by various link configurations linked to the lever. Done.

Therefore, the conventional hard disk inspection apparatus, the operator has to operate each lever at the time of mounting or removal of each hard disk, there was a problem that takes too much time for mounting and removal.

In addition, when the connection between the hard disk and the inspection apparatus is not possible due to a misoperation of the lever, there is a problem in that the inspection of the hard disk is impossible due to remounting or an inspection error.

In addition, since the hard disk is mounted or removed from each fixture by the operation of the lever, there is a problem that the configuration of the fixtures installed in the rack is complicated, making production difficult and excessive production cost.

The present invention has been made to solve the above-mentioned conventional problems, can be loaded and unloaded a plurality of hard disks in a batch, the storage and clamping of the hard disk at the same time, the clamping of the hard disk It is an object of the present invention to provide a multi-cell fixture of a hard disk inspection apparatus which can be easily made, easy to open the lever portion, can be collectively connected to the hard disk terminal, and can be easily installed in the hard disk inspection apparatus. .

The present invention for achieving the above object, the storage unit is a plurality of hard disk stacked; A terminal unit provided at the rear of the housing so that the terminals of the hard disk accommodated in the housing are connected and fixed; Upper and lower fixing plates coupled to the upper and lower parts of the housing; Upper and lower sliding plates coupled to an upper portion of the upper fixing plate and a lower portion of the lower fixing plate, the sliding holes being formed to slide forward and backward; It is installed rotatably from side to side in front of the accommodating portion, one end is coupled to the upper and lower sliding plates, the lever unit for sliding the upper and lower sliding plates forward and backward and pressurized to accommodate the hard disk in the accommodating portion ; A clamping part installed on both sides of the accommodating part and coupled to move up and down by the lever part, and being fixed by pressing on an upper portion of the hard disk accommodated in the accommodating part; And a removal unit installed at the rear of the upper and lower sliding plates and collectively contacting the rear end of the hard disk accommodated in the accommodation unit when the upper and lower sliding plates are moved in a detachment direction.

The accommodating part of the present invention includes a plurality of guide cells protruded inwardly and spaced up and down so as to be placed between both side ends between the upper fixing plate and the lower fixing plate and mounted in a plurality of hard disks. The side of the multi-cell block is formed with an installation hole in which the clamping portion is installed to clamp the hard disk mounted on each guide piece.

The clamping part of the present invention, a plurality of clamping brackets one end hinged to both sides of the multi-cell block; And a lifting plate hinged to the other ends of the plurality of clamping brackets, the lifting pins being coupled to a cam hole formed at a lower portion of the lower sliding plate so as to move up and down, to collectively rotate the clamping brackets.

The clamping part of the present invention further includes a clamper installed at a lower portion of the protrusion of the clamping bracket inserted into the installation hole of the multicell block.

The lever unit of the present invention, the lever bracket is rotatably installed at one end of the upper fixing plate and one end of the lower fixing plate, the sliding pin formed at one end is coupled to the cam hole formed at one end of the upper and lower sliding plates; A pressure bar installed in between the lever brackets; And a lever bar installed at an outer side between the lever brackets.

An elastic member is installed at one end of the lever bracket of the present invention to support the lever bracket in an open state.

The terminal unit of the present invention, the terminal plate spaced apart at the rear of the receiving portion; A connection terminal protruding to be connected to a terminal of a hard disk on a front surface of the terminal plate; And a connection terminal installed on the rear surface of the terminal plate to collectively connect with the connection terminal.

The lower portion of the lower fixing plate of the present invention is provided with a base portion formed to space the lower fixing plate from the bottom surface.

As described above, the present invention has the effect that the fixture of the hard disk inspection apparatus is formed in a multi-cell shape, and the clamping part and the removing part operate by operating the lever part so that the plurality of hard disks can be collectively loaded and unloaded. To provide.

In addition, the accommodating portion is formed of a multi-cell block to allow stacking of the hard disk, and an installation hole is formed to enable clamping, thereby simultaneously accommodating and clamping the hard disk.

By coupling the clamping portion with the lever portion, the clamping of the hard disk can be easily performed when the lever direction operation.

The lever part is formed into a bar in the vertical direction, and the hard disk can be loaded in a batch, and an elastic member is provided in the lever part to facilitate opening of the lever part.

The terminal portion is provided in the shape of a plate at the rear of the hard disk to enable collective connection with the hard disk terminals.

By installing the base portion in the lower portion of the lower fixing plate it is easy to install the fixture in the hard disk inspection apparatus and to secure the operating space of the lever portion.

1 is a perspective view showing a multi-cell fixture of a hard disk inspection apparatus according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a multi-cell fixture of the hard disk inspection apparatus according to an embodiment of the present invention.
Figure 3 is a top view showing the loading state of the multi-cell fixture of the hard disk inspection apparatus according to an embodiment of the present invention.
Figure 4 is a side view showing a loading state of the multi-cell fixture of the hard disk inspection apparatus according to an embodiment of the present invention.
5 is a top view showing an unloading state of a multi-cell fixture of a hard disk inspection apparatus according to an embodiment of the present invention.
Figure 6 is a side view showing an unloading state of a multi-cell fixture of the hard disk inspection apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a perspective view showing a multi-cell fixture of a hard disk inspection apparatus according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a multi-cell fixture of the hard disk inspection apparatus according to an embodiment of the present invention.

As shown in Fig. 1 and Fig. 2, the multi-cell fixture of the hard disk inspection apparatus of the present embodiment includes a housing 10, a lower fixed plate 20, a lower sliding plate 30, an upper fixed plate 40, and an upper portion. It consists of a sliding plate 50, the removal unit 60, the clamping unit 70, the lever unit 80, the base portion 90, the terminal portion 100 to receive the inspection hard disk 200 fixed to the inspection Let's go.

The accommodating part 10 is formed of blocks formed in a multi-cell shape in the vertical direction so that the plurality of hard disks 200 are stacked and stored, and the multi-cell blocks 11 and 12 which are spaced apart from each other by a predetermined distance and are protected. It consists of the member 13.

The multi-cell blocks 11 and 12 are placed between both side ends between the upper fixing plate 40 and the lower fixing plate 20 and are provided with a plurality of guide pieces 11a, such that the plurality of hard disks 200 are stacked and mounted. 12a) protrudes inwardly and is spaced up and down.

In addition, the side of the multi-cell block (11, 12) is provided with mounting holes (11b, 12b) in which the clamping portion 70 is installed to clamp the hard disk 200 mounted on each guide piece (11a, 12a) Each is formed.

The protective member 13 is made of a protective sheet bonded to the guide pieces 11a and 12a of the multi-cell blocks 11 and 12 by a double-sided tape for cushioning. The protective sheet is a band-shaped sheet having a front end bent downward. As it contacts the lower both ends of the hard disk 200 to protect the sliding portion when mounted.

In addition, such a double-sided tape for cushioning is preferably used to prevent the vibration of the hard disk 200 using a double-sided tape made of an elastic material such as rubber or dust-proof rubber formed in the longitudinal direction of the straight.

The lower fixing plate 20 is coupled to the lower portion of the receiving portion 10 to separate the multi-cell blocks 11 and 12 from each other on both sides, and consists of a support plate 21, a cam hole 22, and a side plate 23. have.

The support plate 21 is formed of a substantially rectangular plate and is coupled to the lower portions of the multicell blocks 11 and 12 of the storage portions 10 placed on both sides. The cam hole 22 is formed at the front end of the support plate 21 to guide the rotation of the lever unit 80. The side plate 23 is bent downward on both sides of the support plate 21 to space the support plate 21 from the bottom by a predetermined distance.

The lower sliding plate 30 is coupled to the lower portion of the lower fixing plate 20 to slide in the front and rear directions, the movable plate 31, the sliding hole 32, the cam hole 33, the coupling hole 34, and the cam pin 35. )

The moving plate 31 is formed as a substantially rectangular plate and is coupled to slide in the front-rear direction at the bottom of the lower fixing plate 20.

The sliding hole 32 is formed in the front and rear longitudinal direction at both rear and front center of the moving plate 31, the guide pin formed on the lower surface of the lower fixing plate 20 is fitted to guide the front and rear sliding.

The cam hole 33 is formed at the front end of the moving plate 31 so that one end of the lever unit 80 is coupled to induce front and rear sliding of the lower sliding plate 30 by the rotation of the lever unit 80.

Coupling hole 34 is formed in a portion protruding downward on both sides of the moving plate 31, the cam pin 35 is fitted to the coupling holes 34 of both sides and the front and rear of the lower sliding plate 30 Sliding forward and backward with the lower sliding plate 30 by sliding.

The upper fixing plate 40 is coupled to the upper portion of the receiving portion 10 to space the multi-cell blocks 11 and 12 from each other on both sides, the support plate 41, the cam hole 42, the guide pin 43, It consists of a hinge pin (44).

The support plate 41 is formed of a substantially rectangular plate and is coupled to an upper portion of the multicell blocks 11 and 12 of the storage unit 10 placed on both sides. The cam hole 42 is formed at the front end of the support plate 41 to guide the rotation of the lever unit 80.

The guide pin 43 is formed at both rear and front centers of the upper surface of the support plate 41 to be coupled to the sliding hole 52 of the upper sliding plate 50 to guide the front and rear sliding.

The hinge pin 44 is protruded from the front end of the upper surface of the support plate 41, and one end of the lever 80 is hinged to serve as a rotating shaft for the rotation of the lever 80.

The upper sliding plate 50 is coupled to slide in the front and rear directions on the upper fixing plate 40, and consists of a moving plate 51, a sliding hole 52, cam hole 53.

The moving plate 51 is formed as a substantially rectangular plate and is coupled to the front and rear direction sliding on the upper fixing plate 40.

Sliding hole 52 is formed in the front and rear longitudinal direction at both rear and front center of the moving plate 51, guide pins 43 formed on the upper surface of the upper fixing plate 40 is fitted to guide the front and rear sliding. Done.

The cam hole 53 is formed at the front end of the moving plate 51 so that one end of the lever 80 is coupled to induce front and rear sliding of the upper sliding plate 50 by the rotation of the lever 80.

The detaching unit 60 is installed at the rear of the upper and lower sliding plates 50 and 30 and is accommodated in the accommodating unit 10 when the upper and lower sliding plates 50 and 30 move in the detachment direction, that is, when sliding forward. In contact with the rear end of the hard disk 200 is removed in a batch, it consists of a contact piece 61, the upper coupling piece 62, the lower contact piece (63).

The contact piece 61 is a contact member formed in the vertical direction between the upper sliding plate 50 and the lower sliding plate 30, and the upper coupling piece 62 is coupled to the upper sliding plate 50 so as to be coupled to the upper sliding plate 50. Is bent forward at the top of the bottom contact piece 63 is bent forward at the bottom of the contact piece 61 to be coupled to the lower sliding plate (30).

The clamping part 70 is installed on both sides of the accommodating part 10, and is coupled to the lever part 80 so as to move up and down by the lever part 80, and the hard disk 200 accommodated in the accommodating part 10. It is fixed by pressing at the top of the), consisting of a clamping bracket 71, the lifting plate 73, the rotating pin 74, the hinge pin (75).

The clamping bracket 71 is hinged to an outer surface of both multi-cell blocks 11 and 12 via a rotation pin 74 to clamp each of the hard disks 200 stored in the housing 10. The plurality is laminated.

The elevating plate 73 is hinged to the other end of the plurality of clamping brackets 71 via the hinge pins 75, and the cam pins 35 installed on the lower portion of the lower sliding plate 30 are vertically formed to lower upward and downward. The plurality of clamping brackets 71 are collectively rotated by being coupled to the cam hole 73a.

In addition, the clamping part 70 further includes a clamper 72 of an elastic member installed below the protruding portion of the clamping bracket 71 inserted into the installation holes 11b and 12b of the multicell blocks 11 and 12. Of course it is possible.

Therefore, by using the clamper 72 of the elastic member to secure the hard disk accommodated in the accommodating portion 10 so as to elastically support, it is possible to prevent vibration or shock during the inspection of the hard disk.

The lever part 80 is rotatably installed at the front one end of the housing part 10 and has one end hinged to the upper and lower fixing plates 40 and 20 to the upper and lower sliding plates 50 and 30. Linked to slide the upper and lower sliding plates 50 and 30 forward and backward and to press the housing to move the hard disk in the receiving direction, that is, to slide backward, the lever bracket 81, pressing The bar 82, the lever bar 83, the support bar 84, the lower bracket 85, the upper bracket 86, the rotation pin 87, the elastic member 88 is composed of.

The lever bracket 81 is rotatably installed at one end of the upper fixing plate 40 and one end of the lower fixing plate 20 through the rotation pin 81b, respectively, and the sliding pin 81a formed at one end is fixed to the upper and lower parts. The cam holes 42 and 22 formed at one end of the plates 40 and 20 and the cam holes 53 and 33 formed at one end of the upper and lower sliding plates 50 and 30 are fitted to each other.

In addition, an elastic member 88 is installed at one end of the lever bracket 81 coupled to the lower fixing plate 20 to hold the lever bracket 81 in an open state.

The pressure bar 82 is installed inside both lever brackets 81 to press the hard disk accommodated in the housing 10 in the storage direction, and the lever bar 83 is disposed between the lever brackets 81. It is installed on the outside to the user to operate the lever unit 80, the support bar 84 is installed in the middle between both lever bracket 81 to support the lever bracket (81).

The lower bracket 85 is coupled with one end of the lever bracket 81 to one end of the lower fixing plate 20 to rotatably support the lever bracket 81 about the rotary pin 87 coupled thereto. do.

The upper bracket 86 is coupled with one end of the lever bracket 81 to one end of the upper fixing plate 40 to rotatably support the lever bracket 81 about the rotating pin 87 coupled thereto. do.

The base unit 90 is installed below the lower fixing plate 20 to separate the lower fixing plate 20 from the bottom by a predetermined distance, and to the lower plate 91, the side plate 92, and the stopping plate 93. consist of.

The lower plate 91 is a plate-shaped member formed below the base portion 90, the side plate 92 is a plate-shaped member formed on both sides of the base portion 90, and the locking plate 93 is the base portion 90. As a plate-shaped member cut in the front and rear of the to form a rotating space of the lever unit (80). The sliding space of the lower sliding plate 30 and the cam pin 35 is formed through the spaced space of the base portion 90.

The terminal unit 100 is installed at a predetermined distance from the rear of the housing unit 10 so that the terminals of the hard disk housed in the housing unit 10 are connected and fixed, and the terminal plate 101, the connection terminal 102, and the connection terminal It consists of 103.

The terminal plate 101 is formed at a predetermined distance apart from the rear of the housing 10 through the front coupling pin 101b protruding from the front surface, and a plurality of coupling holes 101a for fixing the connection terminal 102 are fixed. It is formed, the rear coupling pin 101c is formed on the back.

The connection terminal 102 is coupled to the coupling hole 101a formed on the front surface of the terminal plate 101 and connected to a terminal formed on the rear surface of the hard disk to fix the hard disk to the housing 10.

The connecting terminal 103 is spaced apart through the rear coupling pin 101c on the rear surface of the terminal plate 101 and collectively connected to the connecting terminal 102.

Hereinafter, with reference to the accompanying drawings will be described in more detail the loading and unloading operation state of the multi-cell fixture of the hard disk inspection apparatus of this embodiment.

3 is a top view showing a loading state of a multi-cell fixture of a hard disk inspection apparatus according to an embodiment of the present invention, Figure 4 is a loading state of a multi-cell fixture of the hard disk inspection apparatus according to an embodiment of the present invention 5 is a top view illustrating an unloading state of a multi-cell fixture of a hard disk test apparatus according to an embodiment of the present invention, and FIG. 6 is a hard disk test apparatus according to an embodiment of the present invention. A side view showing an unloading state of a multicell fixture.

As shown in Fig. 3 and Fig. 4, the loading operation of the multi-cell fixture of the hard disk inspection apparatus of the present embodiment is a lever bar of the lever unit 80 in a state where a plurality of hard disks are stacked and inserted into the accommodating portion 10. 83).

As such, when the lever unit 80 is rotated inwardly, the upper and lower sliding plates 50 and 30 slide backward by the sliding pins 81a of the lever unit 80, and the detachment unit coupled thereto. 60 will also be moved backwards.

At the same time, the front end of the hard disk is pushed to the rear while the pressing bar 82 of the lever unit 80 is in contact with the accommodating portion 10, and the terminal portion 100 formed at the rear of the accommodating portion 10. The terminals of the hard disk are connected to each other so that the hard disk is fixed to the housing 10.

At this time, the lifting plate 73 of the clamping portion 70 is moved downward by the cam pin 35 of the lower sliding plate 30 to rotate the clamping bracket 71 downward about the rotation pin 74. The clamping member 72 of the elastic member formed on the protruding portion of the clamping bracket 71 is in contact with the upper surface of the hard disk accommodated in the accommodating portion 10 to fix the hard disc to the accommodating portion 10 to load the hard disc. This completes the installation of the hard disk.

As shown in Figs. 5 and 6, the unloading operation of the multi-cell fixture of the hard disk inspection apparatus of this embodiment is a lever bar of the lever portion 80 in a state where a plurality of hard disks stored in the accommodating portion 10 are fixed. The operation is made by the user 83.

As such, when the lever unit 80 is rotated outwardly, the upper and lower sliding plates 50 and 30 slide forward by the sliding pins 81a of the lever unit 80, and the removal unit coupled thereto. 60 will also move forward.

At the same time, the rear end of the hard disk is pushed forward while being contacted with the contact piece 61 of the removal unit 60 to be removed from the housing unit 10 and to the terminal unit 100 formed at the rear of the housing unit 10. The terminal of the connected hard disk is separated and the hard disk is detached from the storage unit 10.

At this time, the lifting plate 73 of the clamping part 70 is moved upward by the cam pin 35 of the lower sliding plate 30 so as to rotate the clamping bracket 71 upward with respect to the rotation pin 74. And the clamper 72 of the elastic member formed on the protruding portion of the clamping bracket 71 is separated from the upper surface of the hard disk accommodated in the accommodating part 10 to separate the hard disc from the accommodating part 10 to unload the hard disc. The removal of the hard disk is completed.

As described above, according to the present invention, the fixture of the hard disk inspection apparatus is formed in a multi-cell shape, and the clamping part and the removing part operate by operating the lever part so that a plurality of hard disks can be collectively loaded and unloaded. To provide.

In addition, the accommodating portion is formed of a multi-cell block to allow stacking of the hard disk, and an installation hole is formed to enable clamping, so that the accommodating and clamping of the hard disk can be simultaneously carried out. Clamping of the hard disk is facilitated during the direction operation, and the lever part is formed as a bar in the vertical direction to load the hard disk collectively, and the elastic member is installed in the lever part to facilitate the opening of the lever part.

In addition, by installing the terminal portion in the shape of a plate at the rear of the hard disk, it is possible to collectively connect with the hard disk terminal, the base portion is installed in the lower portion of the lower fixing plate to facilitate the installation of the fixture in the hard disk inspection device and It provides the effect of securing the working space.

The present invention described above can be implemented in various other forms without departing from the technical spirit or main features. Therefore, the above embodiments are merely examples in all respects and should not be interpreted limitedly.

10: accommodating part 20: lower fixing plate
30: lower sliding plate 40: upper fixed plate
50: upper sliding plate 60: stripping unit
70: clamping portion 80: lever portion
90: base portion 100: terminal portion

Claims (8)

An accommodation unit in which a plurality of hard disks are stacked and stored;
A terminal unit provided at the rear of the housing so that the terminals of the hard disk accommodated in the housing are connected and fixed;
Upper and lower fixing plates coupled to the upper and lower parts of the housing;
Upper and lower sliding plates coupled to an upper portion of the upper fixing plate and a lower portion of the lower fixing plate, the sliding holes being formed to slide forward and backward;
It is installed rotatably from side to side in front of the accommodating portion, one end is coupled to the upper and lower sliding plates, the lever unit for sliding the upper and lower sliding plates forward and backward and pressurized to accommodate the hard disk in the accommodating portion ;
A clamping part installed on both sides of the accommodating part and coupled to move up and down by the lever part, and being fixed by pressing on an upper portion of the hard disk accommodated in the accommodating part; And
It is installed at the rear of the upper and lower sliding plates, when removing the upper and lower sliding plates in the removal direction, the removal unit for contacting the rear end of the hard disk accommodated in the accommodating unit to remove the batch;
The accommodating part includes a multi-cell block formed between two side ends between the upper fixing plate and the lower fixing plate, the plurality of guide pieces protruding inwardly and spaced up and down so that a plurality of hard disks are stacked and mounted.
The side of the multi-cell block is a multi-cell fixture of the hard disk inspection apparatus, characterized in that the mounting hole is provided with a clamping portion is installed to clamp the hard disk mounted on each guide piece. delete The method of claim 1,
The clamping unit,
A plurality of clamping brackets having one end hinged to both sides of the multicell block; And
And a lifting plate hinged to the other ends of the plurality of clamping brackets, the lifting pins being coupled to a cam hole formed at a lower portion of the lower sliding plate so as to ascend up and down, to collectively rotate the clamping brackets. Multicell fixture in the hard disk tester. The method of claim 3, wherein
The clamping unit, the multi-cell fixture of the hard disk inspection device, characterized in that further comprising a clamper provided in the lower portion of the protrusion of the clamping bracket inserted into the mounting hole of the multi-cell block. The method of claim 1,
The lever unit,
A lever bracket rotatably installed at one end of the upper fixing plate and one end of the lower fixing plate, the sliding pin formed at one end of the lever bracket coupled to a cam hole formed at one end of the upper and lower sliding plates;
A pressure bar installed in between the lever brackets; And
And a lever bar installed at an outer side between the lever brackets. The method of claim 5, wherein
An elastic member is installed at one end of the lever bracket to hold the lever bracket in an open state. The method of claim 1,
The terminal portion,
A terminal plate spaced apart from the rear of the housing;
A connection terminal protruding to be connected to a terminal of a hard disk on a front surface of the terminal plate; And
The multi-cell fixture of the hard disk inspection apparatus, characterized in that consisting of; connecting terminal installed on the rear of the terminal plate to connect the connection terminal and collectively. The method of claim 1,
A lower portion of the lower fixing plate, the multi-cell fixture of the hard disk inspection apparatus, characterized in that the base portion is formed so as to space the lower fixing plate from the bottom surface.

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