CN116524993A - Solid state disk detection equipment and detection method - Google Patents

Abstract

A solid state disk detection device and a detection method relate to the technical field of solid state disk detection and comprise a transfer unit, a clamping unit and a detection unit. The transfer unit is used for obtaining the solid state disk produced in the previous working procedure to the detection position and taking out the solid state disk which is qualified in detection. The clamping unit is used for clamping the solid state disk to be detected. The detection unit comprises a solid state disk detector and a temperature probe and is used for detecting the solid state disk. The solid state disk detection method adopting the solid state disk detection equipment comprises the steps of transferring the solid state disk, clamping the solid state disk, inserting the solid state disk into a detection unit, detecting the solid state disk and taking out the solid state disk. The solid state disk detection equipment and the detection method realize automatic acquisition of the solid state disk on the conveyor belt for detection, can conveniently detect the solid state disk with different specifications, are simple and convenient in operation method, and have high practicability.

Description

Solid state disk detection equipment and detection method

Technical Field

The invention relates to the technical field of solid state disk detection, in particular to solid state disk detection equipment and a detection method.

Background

With the rapid development of computer storage equipment, the performance of the solid state disk is continuously improved, and the price is continuously reduced, so that the solid state disk is increasingly used by consumers. After the production of the solid state disk is completed, a series of tests are required to be carried out, including the most important read-write speed and temperature tests. Some devices capable of detecting the solid state disk are available at present, and the devices generally have a plurality of disk positions and can detect a plurality of solid state disks at the same time, however, although the devices can detect the solid state disks in batches, a worker still needs to manually load the plurality of solid state disks onto the devices one by one, and the operation is complicated.

In addition, the solid state disk has different specifications, such as MSATA, NGFF M.2, NVMe M.2 and the like, and the solid state disk with different specifications has different interfaces, sizes and shapes, so that the existing equipment is usually specially used for detecting the solid state disk with single specification, and the cost required for detecting the solid state disk with different specifications is higher.

Disclosure of Invention

Aiming at the defects, the invention provides the solid state disk detection equipment and the detection method, which can automatically acquire the solid state disk on the conveyor belt for detection, can conveniently detect the solid state disk with different specifications, and have simple operation method.

In order to achieve the object of the present invention, the following techniques are proposed:

a solid state disk detection device, comprising:

the transfer unit is used for acquiring the solid state disk produced in the previous process to a detection position and taking out the solid state disk which is qualified in detection;

the clamping unit is arranged on one side of the transferring unit and comprises a fourth straight line mechanism which is vertically arranged, a fifth straight line mechanism is arranged at the upper end of an output shaft of the clamping unit, a hard disk base is arranged at the sliding end of the fifth straight line mechanism, a plurality of hard disk grooves matched with the solid state disk are formed in the hard disk base, a third rotating motor is arranged at one end of the hard disk base, a hard disk cover plate is arranged at one end of the output shaft of the third rotating motor, and a plurality of groups of temperature detection holes matched with the hard disk grooves are formed in the hard disk cover plate in a penetrating mode up and down;

the detection unit is arranged on one side of the clamping unit and comprises a solid state disk detector, a plurality of groups of slots are arranged on one side face of the solid state disk detector, a pushing mechanism for pushing out the solid state disk is arranged on one end face of the solid state disk detector, an eighth linear mechanism with the output direction parallel to the length direction of the hard disk slot is arranged on the other end face of the solid state disk detector, a ninth linear mechanism which is vertically arranged is arranged at one end of an output shaft of the solid state disk detector, and a plurality of temperature measuring probes matched with the temperature detection holes are arranged at the sliding end of the ninth linear mechanism.

Further, the solid state disk detection equipment further comprises a collection frame arranged at one end of the clamping unit and used for collecting unqualified solid state disks.

Further, the transfer unit comprises a first linear mechanism, one side of the transfer unit is provided with one or two conveyor belt conveyors parallel to the length direction of the transfer unit, a second linear mechanism which is vertically arranged is arranged at the sliding end of the first linear mechanism, a first rotating motor which is vertically arranged is arranged at the upper end of an output shaft of the second linear mechanism, a third linear mechanism is arranged at the upper end of an output shaft of the first rotating motor, a second rotating motor which is vertically arranged is arranged at one end of an output shaft of the third linear mechanism, and a vacuum chuck is assembled at the lower end of an output shaft of the second rotating motor.

Further, the number of the group of temperature detection holes is at least one, the position of one temperature detection hole is matched with the position of the main control chip of the solid state disk, and the positions of other temperature detection holes are matched with the positions of a plurality of storage particles of the solid state disk.

Further, the pushing mechanism comprises a sixth linear mechanism with an output direction parallel to the length direction of the hard disk slot, a pair of vertically arranged seventh linear mechanisms are arranged at one end of an output shaft of the sixth linear mechanism, and a plurality of vertical plates extend to the side of one end of the output shaft of the seventh linear mechanism.

A solid state disk detection method adopting solid state disk detection equipment comprises the following steps:

s01: according to the specification of a batch of solid state disks to be detected, a hard disk base matched with the solid state disks is installed;

s02: placing the solid state disk produced in the previous step on a transfer unit for conveying;

s03: transferring a solid state disk to a disk slot of the clamping unit through the transferring unit;

s04: repeating S03 for a plurality of times, and respectively putting the solid state disks into the disk grooves;

s05: rotating the hard disk cover plate through the third rotating motor, enabling the hard disk cover plate and the hard disk base to jointly clamp a plurality of solid state disks, lifting the solid state disks to one side of a matched slot through the fourth linear mechanism, and inserting the solid state disks into the slot through the fifth linear mechanism;

s06: the solid state disk detector is used for electrically detecting the solid state disk and detecting the temperature of the solid state disk during operation: the position of the temperature measuring probe is adjusted through the eighth linear mechanism to enable the temperature measuring probe to be located right above the temperature detecting hole of the temperature measuring part, and the temperature measuring probe is lowered through the ninth linear mechanism to enable the temperature measuring probe to be in contact with the solid state disk for detection;

s07: after the detection is finished, the temperature measuring probe is lifted by the ninth linear mechanism, the solid state disk is pulled out of the slot by the pushing mechanism, and the solid state disk is returned to the disk slot;

s08: and sequentially transferring the detected solid state disks through a transfer unit.

The beneficial effects of this technical scheme lie in:

1. the solid state disk detection device has the advantages that the plurality of solid state disks positioned on the transfer unit can be directly transferred to the clamping unit, then the solid state disks to be detected are automatically inserted into the solid state disk detection machine through the clamping unit, the problem that a worker is required to manually load the plurality of solid state disks onto equipment one by one is solved, and the automation level of solid state disk detection can be improved.

2. The solid state disk detector is provided with the slots with different specifications, and the hard disk base adopts a detachable structure, so that the solid state disk with different specifications can be matched, the universality of the equipment is improved, and the detection cost can be reduced.

3. The detection method is simple, and the detection efficiency can be improved.

Drawings

Fig. 1 shows an overall perspective view of an embodiment of the present application.

Fig. 2 shows a perspective view of a transfer unit according to an embodiment of the present application.

Fig. 3 shows a perspective view of a transfer unit from another angle according to an embodiment of the present application.

Fig. 4 shows a partial view of a transfer unit according to an embodiment of the present application.

Fig. 5 shows a perspective view of a clamping unit according to an embodiment of the present application.

Fig. 6 shows a perspective view of the clamping unit from below and to the side of the embodiment of the application.

Fig. 7 shows a perspective view of a hard disk base, a third rotating electric machine, and a hard disk cover plate according to an embodiment of the present application.

Fig. 8 shows a perspective view of a detection unit according to an embodiment of the present application.

Fig. 9 shows a partial view of a detection unit according to an embodiment of the present application.

Fig. 10 shows a partial view of a detection unit according to an embodiment of the present application.

Fig. 11 shows a partial view of a detection unit according to an embodiment of the present application.

Fig. 12 shows a perspective view of solid state disk of each specification according to the embodiment of the present application.

The marks in the figure: the transfer unit-1, the first linear mechanism-11, the conveyor belt conveyor-12, the second linear mechanism-13, the first rotary motor-14, the third linear mechanism-15, the second rotary motor-16, the first collar-17, the vacuum chuck-18, the hose-19, the clamping unit-2, the fourth linear mechanism-21, the fifth linear mechanism-22, the mounting plate-23, the hard disk base-24, the screw hole-25, the hard disk slot-26, the third rotary motor-27, the hard disk cover plate-28, the temperature detection hole-29, the detection unit-3, the solid state disk detector-31, the port-311, the line-312, the slot-32, the sixth linear mechanism-33, the seventh linear mechanism-34, the cross plate-35, the riser-351, the eighth linear mechanism-36, the ninth linear mechanism-37, the lifter plate-371, the temperature measurement probe-38, the collection frame-4, the solid state disk-5, the protruding portion-51, and the golden finger-52.

Detailed Description

The present application is further described below with reference to the drawings and examples.

Example 1

The solid state disk detection device shown in fig. 1 to 11 is used for detecting solid state disks 5 with various specifications shown in fig. 12, and in this embodiment, the solid state disk 5 has three specifications including MSATA, NGFF m.2 and NVMe m.2, and the solid state disk detection device includes a transfer unit 1, a clamping unit 2, a detection unit 3 and a collection frame 4.

As shown in fig. 1 to 4, the transferring unit 1 is configured to obtain the solid state disk 5 produced in the previous process to a detection position, and take out the solid state disk 5 that is qualified for detection. The transfer unit 1 comprises a first linear mechanism 11, one side of the first linear mechanism 11 is provided with one or two conveyor belt conveyors 12 parallel to the length direction of the first linear mechanism 11, preferably, the number of the conveyor belt conveyors 12 can be two, the conveyor belt conveyors can be respectively used when the solid state disk 5 of the previous procedure is obtained or the solid state disk 5 is taken out, so that when the two procedures are carried out, only one of the smaller conveyor belt conveyors 12 is started, the energy consumption can be reduced, the sliding end of the first linear mechanism 11 is provided with a second linear mechanism 13 which is vertically arranged, the upper end of the output shaft of the second linear mechanism 13 is provided with a first rotating motor 14 which is vertically arranged, the upper end of the output shaft of the first rotating motor 14 is provided with a third linear mechanism 15, one end of the output shaft of the third linear mechanism 15 is provided with a second rotating motor 16 which is vertically arranged, the lower end of the output shaft of the second rotating motor 16 is provided with a rotating rod, one end of the rotating rod is provided with a first sleeve ring 17, a vacuum chuck 18 is arranged below the first sleeve ring 17, the vacuum chuck 18 is connected with a hard tube, the hard tube is fixedly arranged in the first sleeve 17, a hose 19 which is provided with a hose 19 used for connecting a vacuum pump air suction end, and in the drawing, in which the drawing shows the length of the hose is not shown partially.

As shown in fig. 1 and 5-7, the clamping unit 2 is disposed on one side of the transferring unit 1, the clamping unit 2 includes a fourth straight line mechanism 21 disposed vertically, a bracket is disposed at an upper end of an output shaft of the fourth straight line mechanism 21, a fifth straight line mechanism 22 is disposed on the bracket, a mounting plate 23 is disposed on a sliding end of the fifth straight line mechanism 22, a hard disk base 24 is mounted on the mounting plate 23, concretely, a plurality of through holes are disposed on the mounting plate 23 in a penetrating manner, a plurality of screw holes 25 matched with the through holes are disposed on a bottom end surface of the hard disk base 24, the hard disk base 24 can be fixed on the mounting plate 23 through screws, a plurality of hard disk grooves 26 are disposed on the hard disk base 24, the hard disk grooves 26 are matched with the solid hard disk 5 to be detected, in this embodiment, three hard disk bases 24 can be mounted, the three types of solid state disks 5 respectively have the hard disk slots 26 matched with the specifications of MSATA, NGFF M.2 and NVMe M.2, one end of the hard disk base 24 is extended to form a bracket, a third rotating motor 27 is arranged on the bracket, one end of an output shaft of the third rotating motor 27 is provided with a hard disk cover plate 28, a plurality of groups of temperature detection holes 29 matched with the hard disk slots 26 are formed in the upper and lower penetrating mode of the hard disk cover plate 28, specifically, the number of one group of temperature detection holes 29 is at least one, the position of one temperature detection hole 29 is matched with the position of a main control chip of the solid state disk 5, the positions of other temperature detection holes 29 are matched with the positions of a plurality of storage particles of the solid state disk 5, and note that the positions of the main control chip and the storage particles cannot be seen on the surface of the packaged solid state disk 5 are shown in fig. 12, and the positions of the detection temperature are above the components in actual working.

Preferably, if the produced solid state disk 5 products are all provided with cooling fins, the hard disk cover plate 28 can be made of the same material and thickness as the cooling fins, so that the temperature of the solid state disk 5 running when the cooling fins are provided can be simulated, and the detection can be more comprehensively performed.

As shown in fig. 1, 8-11, the detecting unit 3 is disposed on one side of the clamping unit 2, the detecting unit 3 includes a solid state disk detector 31, a plurality of groups of slots 32 are disposed on one side of the solid state disk detector 31, the solid state disk detector is respectively matched with the solid state disks 5 with different specifications, and the hard disk base 24 can make each hard disk slot 26 correspond to each slot 32 of different rows through lifting, in this embodiment, each slot 32 from top to bottom corresponds to the MSATA, NGFF m.2 and NVMe m.2 interfaces of the solid state disk 5, the slots 32 only cover the golden finger 52 of the solid state disk 5, but not cover the whole protruding portion 51 of the solid state disk 5, a sixth linear mechanism 33 with an output direction parallel to the length direction of the hard disk slot 26 is disposed on one end of the solid state disk detector 31, a first side frame is disposed on one end of the output shaft of the sixth linear mechanism 33, a pair of seventh linear mechanisms 34 disposed vertically are disposed on one side of the first side frame, the output directions of the two seventh linear mechanisms 34 are opposite, one end of the output shaft of the seventh linear mechanism 34 is provided with a transverse plate 35, one side of the transverse plate 35 is extended with a plurality of vertical plates 351, the vertical plates 351 are used for pushing out the solid state disk 5 after being inserted into the space between the slot 32 and the main body part of the solid state disk 5, the other end surface of the solid state disk detector 31 is provided with an eighth linear mechanism 36 with the output direction parallel to the length direction of the hard disk slot 26, one end of the output shaft of the eighth linear mechanism 36 is provided with a second side frame, one side of the second side frame is provided with a ninth linear mechanism 37 which is vertically arranged, the sliding end of the ninth linear mechanism 37 is provided with a lifting plate 371, the lifting plate 371 penetrates through the plurality of temperature measuring probes 38 up and down, the temperature measuring parts at the lower ends of the temperature measuring probes 38 are matched with the temperature measuring holes 29, when in operation, the temperature measuring probes 38 are propped against the solid state disk 5 after penetrating through the temperature measuring holes 29, the temperature test can be performed, specifically, the line 312 on the temperature probe 38 is telescopic, and the other end of the line 312 is connected into the solid state disk detector 31 through the port 311 on the solid state disk detector 31.

Specifically, the solid state disk detector 31 includes a read-write rate detection module, a capacity detection module, a bad block detection module, and a working temperature detection module, which all adopt the technology of the existing solid state disk detection device, and are not described in the present specification.

As shown in fig. 1, a collecting frame 4 is disposed at one end of the clamping unit 2, and is used for collecting the solid state disk 5 that is unqualified for detection.

In the present embodiment, the first, fifth, and ninth linear mechanisms 11, 22, and 37 employ rodless linear cylinders, and the second, third, fourth, sixth, seventh, and eighth linear mechanisms 13, 15, 21, 33, 34, and 36 employ uniaxial linear cylinders.

When the device is specifically arranged, one end of the conveyor belt conveyor 12 can be connected with the blanking end of the previous procedure, so that the solid state disks 5 are conveyed on the conveyor belt conveyor 12 one by one.

Example two

A solid state disk method adopting the solid state disk detection equipment in the first embodiment comprises the following steps:

s01: according to the specification of a batch of solid state disks 5 to be detected, a hard disk base 24 matched with the solid state disks is installed, and specifically, the hard disk base 24 and the mounting plate 23 are fixed through screws;

s02: the solid state disk 5 produced in the previous process is placed on the conveyor belt conveyor 12 for conveying, in this embodiment, because the number of the conveyor belt conveyors 12 is two, the solid state disk 5 can be placed on the conveyor belt conveyor 12 for acquiring the solid state disk 5 in the previous process;

s03: transferring a solid state disk 5 onto a hard disk slot 26 of a clamping unit 2 through a transferring unit 1, specifically, moving a vacuum chuck 18 through a first linear mechanism 11, lifting the vacuum chuck 18 through a second linear mechanism 13, adjusting the position of the vacuum chuck 18 through a third linear mechanism 15, starting a vacuum pump connected with a hose 19, lifting the solid state disk 5, rotating the solid state disk 5 to the position above the hard disk slot 26 through a first rotating motor 14, adjusting the position of the solid state disk 5 through the first linear mechanism 11, enabling the solid state disk 5 to be positioned right above the hard disk slot 26, rotating the solid state disk 5 through a second rotating motor 16 due to the fact that the directions of the solid state disks 5 conveyed on a conveyor belt 12 are possibly inconsistent, enabling the length direction of the solid state disk 5 to be parallel to the length direction of the hard disk slot 26, enabling a protruding portion 51 of the solid state disk 5 to be closer to a slot 32 than other positions, then lowering the solid state disk 5 through the second linear mechanism 13, suspending operation of the vacuum pump, enabling the solid state disk 5 to fall into the hard disk 26, and then lifting the solid state disk 5 through the second linear mechanism 13 through the first rotating motor 14, and moving the solid state disk 5 to the position above the new conveyor 18 through the first rotating motor 14;

s04: repeating S03 for a plurality of times, and respectively putting the solid state disks 5 into the disk grooves 26;

s05: the hard disk cover plate 28 is rotated through the third rotating motor 27, so that the hard disk cover plate 28 and the hard disk base 24 jointly clamp a plurality of solid state disks 5, the solid state disks 5 are lifted to the side of the matched slot 32 through the fourth linear mechanism 21, the solid state disks 5 are inserted into the slot 32 through the fifth linear mechanism 22, and the solid state disk detector 31 is connected with the golden finger 52 of the solid state disks 5;

s06: the solid state disk detector 31 performs electrical detection on the solid state disk 5, including read-write rate detection, capacity detection, bad block detection, and temperature detection during operation of the solid state disk 5: the position of the temperature measuring probe 38 is adjusted through the eighth linear mechanism 36 to be positioned right above the temperature detecting hole 29 of the temperature measuring part, the temperature measuring probe 38 is lowered through the ninth linear mechanism 37, and the temperature measuring probe 38 is contacted with the solid state disk 5 for detection;

s07: after the detection is finished, the temperature measuring probe 38 is lifted by the ninth linear mechanism 37, the solid state disk 5 is pulled out of the slot 32 by the pushing-out mechanism and returns to the hard disk slot 26, specifically, the position of the seventh linear mechanism 34 is adjusted by the sixth linear mechanism 33, the vertical plate 351 is inserted between the slot 32 and the main body part of the solid state disk 5 by the two seventh linear mechanisms 34, then the solid state disk 5 is pushed out by the sixth linear mechanism 33, more specifically, at the moment, the hard disk base 24 can be retracted by a certain distance by the fifth linear mechanism 22, and the solid state disk 5 can be completely separated from the slot 32 after returning to the hard disk slot 26;

s08: the detected solid state disks 5 are sequentially transferred by the transfer unit 1, defective products in the solid state disks are placed in the collection frame 4, the defective products are placed on the conveyor belt 12, and the transfer is carried out to the next process, specifically, the next process may be a packaging process, in this embodiment, since the number of the conveyor belt 12 is two, the defective products can be placed on the conveyor belt 12 for transporting the solid state disks 5.

The above are only some of the examples listed in this application and are not intended to limit this application.

Claims (9)

1. A solid state disk detection device, comprising:

the transfer unit (1) is used for acquiring the solid state disk (5) produced in the previous process to a detection position and taking out the solid state disk (5) which is qualified in detection;

the clamping unit (2) is arranged on one side of the transferring unit (1), the clamping unit (2) comprises a fourth linear mechanism (21) which is vertically arranged, a fifth linear mechanism (22) is arranged at the upper end of an output shaft of the clamping unit, a hard disk base (24) is assembled at the sliding end of the fifth linear mechanism (22), a plurality of hard disk grooves (26) matched with the solid state hard disk (5) are formed in the hard disk base (24), a third rotating motor (27) is arranged at one end of the hard disk base (24), a hard disk cover plate (28) is arranged at one end of the output shaft of the clamping unit, and a plurality of groups of temperature detection holes (29) matched with the hard disk grooves (26) are formed in the hard disk cover plate (28) in a penetrating mode up and down;

the detection unit (3) is arranged on one side of the clamping unit (2), the detection unit (3) comprises a solid state disk detector (31), a plurality of groups of slots (32) are formed in one side face of the solid state disk detector (31), a pushing mechanism for pushing out the solid state disk (5) is arranged on one end face of the solid state disk detector (31), an eighth linear mechanism (36) with the output direction parallel to the length direction of the hard disk slot (26) is arranged on the other end face of the solid state disk detector (31), a ninth linear mechanism (37) which is vertically arranged is arranged at one end of an output shaft of the solid state disk detector, and a plurality of temperature measuring probes (38) which are matched with the temperature detection holes (29) are arranged at the sliding end of the ninth linear mechanism (37).

2. The solid state disk detection device according to claim 1, further comprising a collecting frame (4) disposed at one end of the clamping unit (2) for collecting the solid state disk (5) that fails in detection.

3. The solid state disk detection device according to claim 1, wherein the transfer unit (1) comprises a first linear mechanism (11), one side of the transfer unit is provided with one or two conveyor belt conveyors (12) parallel to the length direction of the transfer unit, a second linear mechanism (13) which is vertically arranged is arranged on the sliding end of the first linear mechanism (11), a first rotating motor (14) which is vertically arranged is arranged at the upper end of an output shaft of the second linear mechanism (13), a third linear mechanism (15) is arranged at the upper end of the output shaft of the first rotating motor (14), a second rotating motor (16) which is vertically arranged is arranged at one end of the output shaft of the third linear mechanism (15), and a vacuum chuck (18) is arranged at the lower end of the output shaft of the second rotating motor (16).

4. The solid state disk detection apparatus as claimed in claim 1, wherein a mounting plate (23) is provided at a sliding end of the fifth linear mechanism (22), and the hard disk base (24) is mounted on the mounting plate (23).

5. The solid state disk detection device according to claim 1, wherein the number of the group of temperature detection holes (29) is at least one, the position of one temperature detection hole (29) is matched with the position of a main control chip of the solid state disk (5), and the positions of other temperature detection holes (29) are matched with the positions of a plurality of storage particles of the solid state disk (5).

6. The solid state disk detection apparatus according to claim 1, wherein the push-out mechanism includes a sixth linear mechanism (33) having an output direction parallel to a length direction of the disk slot (26), a pair of vertically arranged seventh linear mechanisms (34) are provided at one end of an output shaft of the sixth linear mechanism (33), and a plurality of risers (351) extend laterally of one end of the output shaft of the seventh linear mechanism (34).

7. The solid state disk detection apparatus according to claim 6, wherein a cross plate (35) is provided at one end of an output shaft of the seventh linear mechanism (34), and a vertical plate (351) is provided at one side of the cross plate (35).

8. The solid state disk detection apparatus as claimed in claim 1, wherein a lifting plate (371) is provided at a sliding end of the ninth linear mechanism (37), and the temperature measuring probe (38) is provided to penetrate through upper and lower end surfaces of the lifting plate (371).

9. The solid state disk detection method is characterized by adopting the solid state disk detection equipment according to any one of claims 1-8, and comprises the following steps:

s01: according to the specification of a batch of solid state disks (5) to be detected, a disk base (24) matched with the solid state disks is installed;

s02: placing the solid state disk (5) produced in the previous step on a transfer unit (1) for conveying;

s03: transferring a solid state disk (5) to a disk slot (26) of the clamping unit (2) through the transfer unit (1);

s04: repeating S03 for a plurality of times, and respectively putting the solid state disks (5) into the disk grooves (26);

s05: rotating a hard disk cover plate (28) through a third rotating motor (27), enabling the hard disk cover plate (28) and a hard disk base (24) to jointly clamp a plurality of solid state disks (5), lifting the solid state disks (5) to one side of a matched slot (32) through a fourth linear mechanism (21), and inserting the solid state disks (5) into the slot (32) through a fifth linear mechanism (22);

s06: the solid state disk detector (31) is used for electrically detecting the solid state disk (5) and detecting the temperature of the solid state disk (5) during operation: the position of the temperature measuring probe (38) is adjusted through the eighth linear mechanism (36) to be positioned right above the temperature detecting hole (29) of the temperature measuring part, the temperature measuring probe (38) is lowered through the ninth linear mechanism (37), and the temperature measuring probe (38) is contacted with the solid state disk (5) for detection;

s07: after the detection is finished, the temperature measuring probe (38) is lifted by the ninth linear mechanism (37), the solid state disk (5) is pulled out of the slot (32) by the pushing mechanism, and the solid state disk is returned to the disk slot (26);

s08: and sequentially transferring the detected solid state disks (5) through the transfer unit (1).