KR100989025B1 - Socket device for solid state disk - Google Patents

Abstract

The present invention relates to an SSD socket device capable of stably transporting and discharging the SSD to support and store the SSD so as to enable automatic testing. The SSD socket device of the present invention includes a plurality of guides for guiding both ends of the SSD. A guide portion 10 in which the groove 11 is formed, and a storage groove 21 for accommodating the SSDs installed in the guide portions 10 and guided in the plurality of guide grooves 11 are formed, and the storage groove ( 21 is formed of a base portion 20 is formed in each of the mounting grooves 22 on both sides, and a plurality of latch portions 30 are respectively installed in the installation grooves 22 of the base portion 20 to support the SSD. It features.

SSD, socket, guide, latch, elastic, push

Description

SSS socket device {Socket device for solid state disk}

The present invention relates to a solid state disk (Solid State Disk, hereinafter referred to as SSD) socket device, and more particularly, SSD that can support and store the SSD so that the SSD can be automatically tested by transporting and ejecting the SSD stably It relates to a socket device.

SSDs are used to replace hard disks used in computers or mini hard disks used in mobile terminals. SSD has the advantage that the program execution speed is faster by using devices such as flash memory, and the boot time is shorter than the hard disk when used as a boot disk. This SSD will be described with reference to the accompanying drawings.

1 is a perspective view of an SSD. As shown in FIG. 1, the SSD includes a printed circuit board 1, a plurality of flash memories 2, a controller 3, an input / output controller 4, and a connector 5. The printed circuit board 1 has grooves 1a formed at both sides thereof, and the plurality of flash memories 2, the controller 3, the input / output controller 4, and the connector 5 are each printed circuit board 1. It is mounted on). The controller 3 controls the SSD as a whole, and the input / output controller 4 controls the input / output of data input / output through the connector 5. The plurality of flash memories 2 store data input from the input / output controller 4 under the control of the controller 3, and output data to be output to the input / output controller 4. The input / output controller 4 controls the data to be output or received through the connector 5 to the outside. The connector 5 into which data is input and output is configured with a plurality of connect pins 5a and connected to an input / output terminal (not shown) of a computer or a mobile terminal.

When the assembly of the SSD having the above configuration is completed, the electrical test is performed, and in the related art, the automation is difficult due to the plurality of pins provided in the connector of the SSD, and the operator manually or semi-automatically inserts the SSD into the test apparatus.

When testing SSDs manually or semi-automatically as in the prior art, the productivity of the test operation is lowered. In the case of automatically testing the SSDs, a process of transferring SSDs is required, and a device capable of supporting, storing, and discharging the SSDs for this purpose. There is a problem that is required.

The present invention has been made in view of the problems of the prior art, an object of the present invention is to provide an SSD socket device that can support and receive the SSD so that the SSD can be automatically tested by transporting and discharging stably.

SSD socket device of the present invention is formed with a guide portion for forming a plurality of guide grooves for guiding both ends of the SSD, and a receiving groove for accommodating the SSD is installed in the guide portion and guided in a plurality of guide grooves It is composed of a base portion (base) is formed in each of the installation grooves on both sides of the receiving groove, and a plurality of latches (latch) that are respectively installed in the installation grooves of the base to support the SSD,
The plurality of latch units are inserted into and installed in the installation grooves of the base, respectively, and include a first fixing member having a first latch guide member on one side, and a guide to the first latch guide member, and a pinhole is formed on one side to support the SSD. And a first connecting member having a first latch, a first protrusion member installed to guide the first fixing member and having a first long hole inclined at one side thereof, and inserted into the pinhole and the inclined first long hole, respectively. A first guide pin for guiding and moving the first latch to the first hole of the first connecting member, and connected to the first fixing member and the first connecting member, respectively, so that the first latch supports the SSD. It is characterized by consisting of a plurality of first elastic members for providing an elastic force to the first connection member.

The SSD socket device of the present invention supports the SSD and allows the SSD to be stably transported so that the SSD can be stably transported, thereby providing an automatic test of the SSD.

(Example)

An embodiment of the SSD socket device of the present invention will be described with reference to the accompanying drawings.

Figure 2 is a block diagram of the SSD socket device of the present invention, Figure 3 is an exploded perspective view of the SSD socket device shown in Figure 2, Figure 4 is a perspective view of the latch shown in Figure 3, Figure 5 is in Figure 4 It is a separate assembly perspective view of the latch part shown.

2 to 5, the SSD socket device of the present invention is composed of a guide portion 10, the base portion 20 and a plurality of latch portion 30, each configuration will be described as follows.

Guide portion 10 is formed with a plurality of guide grooves 11 to guide both ends of the SSD. The base part 20 is installed below the guide part 10, and accommodating grooves 21 are formed for accommodating SSDs guided in the plurality of guide grooves 11, respectively, on both sides of the accommodating grooves 21. The installation groove 22 is formed. A plurality of latch units 30 are respectively installed in the installation grooves 22 of the base unit 20 to support the SSD.

A plurality of latch units 30 supporting the SSD will be described in more detail with reference to the accompanying drawings.

As shown in FIGS. 3 to 5, the plurality of latch units 30 may include the first fixing member 110, the first latch 120, the first connecting member 130, the first guide pin 140, and the plurality of latching units 30, respectively. Consists of the first elastic member 150, each configuration will be described in detail as follows.

The first fixing member 110 is inserted into the installation groove 22 of the base portion 20 and has a first latch guide member 111 on one side. The first fixing member 110 has a first latch guide groove 112 and a second latch guide groove 113, one end of which is open at one side thereof, and a plurality of first elastic members 150 are inserted therein. A plurality of mounting pieces 114 to be installed are formed.

The first latch 120 is installed to be guided to the first latch guide member 111, and a pinhole 121 is formed at one side to support the SSD. The first latch 120 has a first insertion groove 122 is formed on one side, the pin hole 121 is formed in a direction orthogonal to the first insertion groove 122.

The first connection member 130 is installed to be guided to the first fixing member 110, and has a first protrusion member 131 having an inclined first long hole 132 on one side, the first protrusion member 131 ) Is installed to be guided to the first latch guide groove 112 of the first fixing member 110 and the first insertion groove 122 of the first latch 120, respectively. The first connection member 130 has a support member 133 which is installed to be guided to one side and the second latch guide groove 113 of the first fixing member 110, respectively, a plurality of first on the side A plurality of seating pieces 134 on which the elastic member 150 is seated is formed.

The first guide pin 140 is inserted into the pin hole 121 and the inclined first long hole 132, respectively, so that the first latch 120 is guided and moved to the first long hole 132 of the first connection member 130. The plurality of first elastic members 150 are spring-applied and connected to the first fixing member 110 and the first connection member 130, respectively, so that the first latch 120 supports the SSD. The first latch 120 supports the SSD by providing an elastic force to the connection member 130.

Referring to Figure 6 attached to the operation of the plurality of latch portion 30 having the above configuration as follows.

The latch unit 30 shown in FIG. 6A is in a latch close state for holding an SSD. That is, the first latch 120 is horizontal when the first connecting member 130 is positioned below the first fixing member 110 by the elastic force of the plurality of first elastic members 150. Is advanced to the latch closed state for holding the SSD.

When the push mechanism 40 pushes the first connection member 130 in the direction of an arrow a while the first latch 120 grips the SSD, the first connection member 130 is elevated in the vertical direction. As a result, the latch unit 30 is moved in the direction of the arrow b as shown in FIG. In this state, when the push mechanism 40 further pushes the first connecting member 130 in the direction of the arrow c, the first connecting member 130 is further elevated in the vertical direction. As such, when the first connection member 130 is lifted, the first latch 120 is moved in the direction of the arrow d as shown in FIG. 6C to release the latch of the SSD. It becomes a state.

When the push mechanism 40 is lowered in the latch open state, the first connection member 130 is lowered again by the elastic force of the plurality of first elastic members 150, and thus the first latch 120 is advanced. The latch supporting the SSD is in a closed state.

Another embodiment of the plurality of latch units 30 of the present invention having the above configuration will be described with reference to FIGS. 7 and 8.

7 is a perspective view illustrating another embodiment of the latch unit shown in FIG. 3, and FIG. 8 is an exploded perspective view of the latch unit illustrated in FIG. 7.

As shown in FIGS. 7 and 8, the plurality of latch units 30 according to another embodiment of the present invention may have a second fixing member 210, a second latch 220, a second connecting member 230, and a second guide pin, respectively. It consists of 240 and the second elastic member 250, each configuration is as follows.

The second fixing member 210 is inserted into and installed in the installation groove 22 of the base portion 20, and has a second latch guide member 211 at one side thereof, and a third latch guide groove 212 having one end opened. Is formed. The second fixing member 210 is formed with a mounting piece 213 in which the second elastic member 250 is inserted. The second latch 220 is installed to be guided to the second latch guide member 211, the second insertion groove 222 is formed on one side and the pin hole 221 in the direction orthogonal to the second insertion groove 222 Is formed.

The second connection member 230 is inserted and installed to guide the second fixing member 210, the inclined second long hole is installed to be guided to the second latch guide member 211 of the second latch 220 on one side ( And a second protruding member 231 having 232. The second connection member 230 has a mounting piece 233 is inserted into the second elastic member 250 is installed on the upper side.

The second guide pin 240 is inserted into the pin hole 221 and the inclined second long hole 232, respectively, so that the second latch 220 is guided and moved to the second long hole 232 of the second connection member 230. Spring is applied to the second elastic member 250, the second fixing member 210 and the second connecting member 230 are respectively installed on the second latch 220 so that the second latch 220 supports the SSD Provide an elastic force at 230.

The operation of another embodiment of the latch unit 30 of the present invention having the above configuration and operation will be described with reference to FIGS. 7 and 9.

In the latch portion 30 illustrated in FIG. 9A, the second latch 220 is formed by the second elastic member 250 without the push mechanism 40 pressing the second connection member 230. The latch supporting the SSD is in a closed state. In this state, when the push mechanism 40 pushes the second connection member 230 in the direction of arrow a, the second connection member 230 is moved up and down in the vertical direction, and the latch portion 30 is arrow b. Direction is moved to the latch neutral state.

When the push mechanism 40 further pushes the second connection member 230 of the latch portion 30 in the latch neutral state in the direction of the arrow c, the second connection member 230 is further elevated in the vertical direction. As a result, the second latch 220 is moved in the direction of the arrow d to enter the latch open state to release the support state of the SSD. Through this operation, the plurality of latch units 30 support or release both ends of the SSD.

Another embodiment of the plurality of latch portions 30 of the present invention having the above configuration and operation will be described with reference to the accompanying drawings.

FIG. 10 is a perspective view illustrating still another embodiment of the latch unit illustrated in FIG. 3, and FIG. 11 is an exploded perspective view of the latch unit illustrated in FIG. 10.

As shown in FIGS. 10 and 11, the plurality of latch units 30 according to another exemplary embodiment of the present invention may include the third fixing member 310, the third latch 320, the third connecting member 330, and the first fixing member 310. It is composed of a three guide pin 340, the third elastic member 350 and the fourth elastic member 360, each configuration is as follows.

The third fixing member 310 is inserted into and installed in the installation groove 22 of the base portion 20, and a latch guide groove 311 having one end open is formed, and pin grooves (respectively) on sidewalls of the latch guide groove 311. 312 and a pinhole 313 are formed, respectively, and have a third protrusion member 314 having a first guide hole 315 formed at one side thereof. The third fixing member 310 is formed with a mounting piece 316 into which the third elastic member 350 is inserted into the latch guide groove 311.

The third latch 320 is installed to be guided in the latch guide groove 311, the third long hole 321 is formed on one side, the second guide hole 322 is formed on the other side to support the SSD. Such

The third latch 320 is provided with a seating piece 324 into which the third elastic member 350 is inserted at one end thereof, and the second guide hole 322 of the third latch 320 has an inclined member 331 therein. A second inclined surface 323 corresponding to the first inclined surface 332 is formed.

The third connecting member 330 is inserted into and installed in the first guide hole 315 of the third fixing member 310 and the second guide hole 322 of the third latch 320, respectively, and has a first inclined surface 332 thereon. Has an inclined member 331 formed therein. The third guide pin 340 is inserted into the pin groove 312, the pin hole 313 and the third long hole 321 of the third fixing member 310, respectively, so that the third latch 320 is connected to the third connecting member 330. The third chapter 321 of the guide to be moved.

The third elastic member 350 is installed in each of the third fixing member 310 and the third latch 320 to provide an elastic force so that the third latch 320 supports the SSD, and the fourth elastic member 360 is It is inserted into the third connection member 330 and provides an elastic force to the third connection member 330. Springs are applied to the third and fourth elastic members 350 and 360, respectively.

The above configuration will be described with reference to FIGS. 10 and 12 to which the operation of the plurality of latch units 30 according to another embodiment of the present invention is as follows.

The latch portion 30 shown in FIG. 12A is provided to the third elastic member 350 and the fourth elastic member 360 without the push mechanism 40 pressing the third connection member 330. As a result, the third latch 320 is in a latch closed state supporting the SSD. In this state, when the push mechanism 40 pushes the third connecting member 330 in the direction of the arrow a, the third connecting member 330 is moved up and down in the vertical direction, and the third connecting member 330 The latch portion 30 is moved in the direction of the arrow b by the lifting and lowering, and the latch portion 30 is in the latch neutral state.

When the push mechanism 40 further pushes the third connecting member 330 of the latch portion 30 in the latch neutral state in the direction of the arrow c, the third connecting member 330 is further elevated in the vertical direction. The third latch 320 is advanced in the direction of the arrow d. In this way, when the third latch 320 is advanced, the latch latch is released to release the SSD from the third latch 320. Through this operation, the plurality of latch units 30 support or release both ends of the SSD.

The loading device of the present invention can be applied to the field of SSD test handler for automatically testing the SSD.

1 is a perspective view of an SSD,

2 is a block diagram of an SSD socket device of the present invention,

3 is an exploded perspective view of the SSD socket device shown in FIG. 2;

4 is a perspective view of the latch unit shown in FIG.

5 is an exploded perspective view of the latch unit illustrated in FIG. 4;

6 is a side view showing an operating state of the latch unit shown in FIG. 4;

7 is a perspective view illustrating another embodiment of the latch unit shown in FIG. 3;

8 is an exploded perspective view of the latch unit illustrated in FIG. 7;

9 is a side view illustrating an operating state of the latch unit shown in FIG. 7;

10 is a perspective view illustrating still another embodiment of the latch unit shown in FIG. 3;

11 is an exploded perspective view of the latch unit shown in FIG. 10;

12 is a side view showing an operating state of the latch unit shown in FIG.

Explanation of symbols on the main parts of the drawings

10: guide part 20: base part

30: latch portion 110: first fixing member

120: first latch 130: first connecting member

140: first guide pin 150: first elastic member

210: second fixing member 220: second latch

230: second connecting member 240: second guide pin

250: second elastic member 310: third fixing member

320: third latch 330: third connecting member

340: third guide pin 350: third elastic member

360: fourth elastic member

Claims (12)

A guide part formed with a plurality of guide grooves that guide both ends of the SSD; A base part installed at a lower side of the guide part and having an accommodation groove for accommodating the SSD guided by the plurality of guide grooves, and having installation grooves formed at both sides of the accommodation groove; It is composed of a plurality of latch units which are respectively installed in the installation groove of the base portion to support the SSD, The plurality of latch units are inserted into and installed in the installation grooves of the base, respectively, and include a first fixing member having a first latch guide member on one side, and a guide to the first latch guide member, and a pinhole is formed on one side to support the SSD. And a first connecting member having a first latch, a first protrusion member installed to guide the first fixing member and having a first long hole inclined at one side thereof, and inserted into the pinhole and the inclined first long hole, respectively. A first guide pin for guiding and moving the first latch to the first hole of the first connecting member, and connected to the first fixing member and the first connecting member, respectively, so that the first latch supports the SSD. SSD socket device comprising a plurality of first elastic members to provide an elastic force to the first connection member. delete The SSD socket device of claim 1, wherein the first latch has a first insertion groove formed at one side thereof, and a pinhole is formed in a direction orthogonal to the first insertion groove. The first fixing member has a first latch guide groove and a second latch guide groove, one end of which is open at one side thereof, and a plurality of seating pieces having a plurality of first elastic members inserted therein. SSD socket device characterized in that formed. The first protrusion member of claim 1, wherein the first connection member is provided with one inclined first long hole installed at one side thereof to be guided to the first latch guide groove of the first fixing member and the first insertion groove of the first latch. And a supporting member installed to guide each of the second latch guide grooves of the first fixing member, and a plurality of seating pieces on which the plurality of first elastic members are seated is formed. The second fixing member of claim 1, wherein the plurality of latch portions are respectively inserted into the installation grooves of the base portion, have a second latch guide member on one side thereof, and have a third latch guide groove open at one end thereof. A second latch installed to guide the second latch guide member and having a second insertion groove formed at one side thereof, and having a pinhole formed in a direction orthogonal to the second insertion groove; A second connection member having a second protruding member having an inclined second long hole inserted into and installed to guide the second fixing member and guided to one side of the second insertion groove of the second latch; A second guide pin inserted into the pin hole and the inclined second hole to guide the second latch to the second long hole of the second connection member; And a second elastic member installed at each of the second fixing member and the second connecting member to provide an elastic force to the second connecting member so that the second latch supports the SSD. The SSD socket device according to claim 6, wherein the second fixing member has a seating piece in which a second elastic member is inserted. The SSD socket device according to claim 6, wherein the second connection member is provided with a mounting piece on which the second elastic member is inserted. The latch guide groove of claim 1, wherein the latch portions are inserted into and installed in the installation grooves of the base portion, respectively, and one end of the latch guide grooves is formed. A third fixing member having a third protrusion member having guide holes formed therein; A third latch installed to guide the latch guide groove and having a third long hole formed at one side thereof and a second guide hole formed at the other side thereof to support the SSD; A third connection member inserted into the first guide hole of the third fixing member and the second guide hole of the third latch and having an inclined member having a first inclined surface thereon; A third guide pin inserted into the pin groove and the pin hole of the third fixing member and the third long hole to guide and move the third latch to the third long hole of the third connection member; A third elastic member installed at each of the third fixing member and the third latch to provide an elastic force to support the SSD; And a fourth elastic member inserted into the third connecting member and configured to provide an elastic force to the third connecting member. The SSD socket device according to claim 9, wherein the third fixing member has a seating piece in which a third elastic member is inserted into the latch guide groove. The SSD socket device according to claim 9, wherein the third latch is provided with a mounting piece having a third elastic member inserted into one end thereof. 10. The SSD socket apparatus of claim 9, wherein the second guide hole of the third latch has a second inclined surface corresponding to the first inclined surface of the inclined member.

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