CN210777835U - Hard disk tray and multi-disk hard disk box - Google Patents

Abstract

The utility model discloses a hard disk tray and multi-disk hard disk cartridge, wherein, the hard disk tray includes: the front end of the tray body is provided with a containing groove; be located locking release mechanism in the storage tank, it includes: a guide portion coaxial with the via hole; the sliding part is arranged on the guide part in a sliding manner and has a first state that the head end of the sliding part is exposed out of the conducting hole and a second state that the head end of the sliding part is retracted into the conducting hole; the sliding part is provided with a guide inclined plane inclined towards the tail end of the sliding part; the elastic piece is positioned between the tail end of the sliding part and the other side wall of the accommodating groove along the width direction of the tray body; a lifter that can be raised or lowered in the vertical direction for bringing the slide section into the second state, or for bringing the slide section into the first state; a tray cover which can be turned up or down and is hinged on the side wall of the top end of the notch of the containing groove. The locking or unlocking function of the hard disk tray is realized by closing or turning up the tray surface cover, and the hard disk tray is simple in structure and convenient to detach and install.

Description

Hard disk tray and multi-disk hard disk box

Technical Field

The application relates to the technical field of hard disk storage devices, in particular to a hard disk tray and a multi-disk-position hard disk box.

Background

At present, a multi-disk hard disk box on the market fixes a drawing type hard disk tray by fixing screws and turning and buckling the surface shell, however, the screw fixing operation is complicated, and the turning and buckling position of the surface shell cannot be locked.

SUMMERY OF THE UTILITY MODEL

The application provides a hard disk tray and multi-disk-position hard disk box so as to be convenient for disassembling and assembling the hard disk tray.

According to a first aspect of the present application, there is provided a hard disk tray comprising:

the front end of the tray body is provided with a containing groove; the notch of the containing groove faces the front end of the tray body, and a conducting hole is formed in one side wall of the containing groove along the width direction of the tray body;

be located locking release mechanism in the storage tank, it includes:

a guide portion coaxial with the via hole;

the sliding part is arranged on the guide part in a sliding manner and has a first state that the head end of the sliding part moves towards the via hole along the guide part and is exposed out of the via hole, and a second state that the sliding part moves away from the via hole along the guide part and retracts the head end of the sliding part into the via hole; the sliding part is provided with a guide inclined plane inclined towards the tail end of the sliding part;

the elastic piece is positioned between the tail end of the sliding part and the other side wall of the accommodating groove along the width direction of the tray body and is used for keeping the sliding part in the first state;

a lifting member which can be raised or lowered in the vertical direction and which abuts the guide slope when lowered to place the slide portion in the second state, or which is disengaged from the guide slope when raised to place the slide portion in the first state;

the tray surface cover can be turned upwards or downwards and is hinged on the side wall of the top end of the notch of the containing groove and is used for turning downwards to drive the lifting piece to ascend or turning upwards to drive the lifting piece to descend.

Further, the hard disk tray, wherein, the elevating member includes: the matching inclined plane is arranged on the lifting piece and is matched with the guide inclined plane.

Further, the hard disk tray, wherein, the lift piece still includes: a lifter body and a first lifter boss; the first lifting piece boss is arranged on one side, facing the notch of the accommodating groove, of the lifting piece body, protrudes out of the lifting piece body and is provided with a first upper abutting surface and a first lower abutting surface which are distributed in the vertical direction; the tray surface cover includes: the tray surface cover body and the tray surface cover boss; the top end of the tray surface cover body is hinged to the side wall of the top end of the containing groove opening, and the tray surface cover boss is positioned on one surface, facing the containing groove opening, of the tray surface cover body; the tray surface cover boss is provided with a tray surface cover boss groove, and the tray surface cover boss groove is provided with a second upper butt surface which is used for abutting against the first upper butt surface when the tray surface cover is closed downwards so as to drive the lifting piece to ascend, and a second lower butt surface which is used for abutting against the first lower butt surface when the tray panel cover is lifted upwards so as to drive the lifting piece to descend.

Furthermore, in the hard disk tray, a through hole is formed in the sliding portion in the vertical direction, a sliding portion boss is arranged in the through hole, and the sliding portion boss is located on at least one side wall of the through hole and arranged at an interval with an opposite side wall of the at least one side wall of the through hole; the guide inclined plane is arranged on the sliding part boss; the lifting piece body is positioned between the sliding part boss and the opposite side wall of at least one side wall of the through hole.

Further, the hard disk tray, wherein, the lift piece still includes: the second lifting piece boss is located below the first lifting piece boss and also arranged on one side, facing the notch of the accommodating groove, of the lifting piece body and protruding out of the lifting piece body, and the matching inclined plane is formed on the second lifting piece boss.

Further, the hard disk tray, wherein the tray body includes: the bottom plate and the two side plates are arranged on two opposite side edges of the bottom plate; the bottom end of the containing groove is fixed at the front ends of the two side plates and the bottom plate.

Further, the hard disk tray, wherein, the tray body still includes: the two fixing strips are respectively arranged on the outer sides of the two side plates, at least one abutting column and at least one buckle are arranged on the fixing strips, at least one through hole adaptive to the abutting column and at least one buckle adaptive to the buckle are formed in the side plates, and the abutting column is at least partially exposed in the side plates after penetrating through the through hole.

Further, the hard disk tray, wherein, the guide part is a guide channel, the guide channel includes: the guide groove is arranged on the bottom wall of the accommodating groove, and the cover and the pressing plate are arranged on the guide groove; and a groove is formed in one surface, facing the guide groove, of the pressing plate, and the groove and the guide groove form the guide channel.

Further, the hard disk tray, wherein, the elastic component includes the spring, the tail end of sliding part is equipped with an axial direction and is tray body width direction's guide pillar, the one end of spring cup joints on the guide pillar.

According to a second aspect of the present application, there is provided a multi-disc cartridge comprising: the box body and a plurality of hard disk tray, a side of box body has uncovered, be provided with a plurality of positions of twining along its direction of height in the box body, each the position of twining includes spout and draw-in groove, hard disk tray slides and establishes in the spout, the head end joint that the sliding part exposes outside the conducting hole is in the draw-in groove.

The utility model has the advantages that:

the application provides a hard disk tray and multi-disk position hard disk cartridge, wherein, the hard disk tray includes: the front end of the tray body is provided with a containing groove; the notch of the containing groove faces the front end of the tray body, and a conducting hole is formed in one side wall of the containing groove along the width direction of the tray body; be located locking release mechanism in the storage tank, it includes: a guide portion coaxial with the via hole; the sliding part is arranged on the guide part in a sliding manner and has a first state that the head end of the sliding part moves towards the via hole along the guide part and is exposed out of the via hole, and a second state that the sliding part moves away from the via hole along the guide part and retracts the head end of the sliding part into the via hole; the sliding part is provided with a guide inclined plane inclined towards the tail end of the sliding part; the elastic piece is positioned between the tail end of the sliding part and the other side wall of the accommodating groove along the width direction of the tray body and is used for keeping the sliding part in the first state; a lifting member which can be raised or lowered in the vertical direction and which abuts the guide slope when lowered to place the slide portion in the second state, or which is disengaged from the guide slope when raised to place the slide portion in the first state; the tray surface cover can be turned upwards or downwards and is hinged on the side wall of the top end of the notch of the containing groove and is used for turning downwards to drive the lifting piece to ascend or turning upwards to drive the lifting piece to descend. The tray surface cover is closed downwards to enable the sliding part to be in the first state, the hard disk tray is fixed in the hard disk box, and the locking function of the hard disk tray is achieved. The tray surface cover is turned upwards to enable the sliding part to be in the second state, the hard disk tray can be moved out of the hard disk box, and the unlocking function of the hard disk tray is achieved. This embodiment closes or turns over the locking or the unblock function that realizes hard disk tray through closing down of tray face lid or, simple structure, convenient to detach and installation.

Drawings

FIG. 1 is an isometric view of a hard disk tray provided herein;

FIG. 2 is an exploded view of a hard disk tray provided herein;

FIG. 3 is a first schematic view illustrating a position relationship between a sliding portion and a lifting member provided in the present application;

fig. 4 is a second schematic view illustrating a positional relationship between the sliding portion and the lifting member provided in the present application;

FIG. 5 is a schematic structural view of a tray cover provided herein;

fig. 6 is a schematic structural diagram of a multi-tray hard disk tray provided in the present application.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings.

The first embodiment,

The embodiment provides a hard disk tray for accommodating a hard disk, and the hard disk tray is arranged in a hard disk box in a sliding manner. Specifically, a plurality of disk positions can be arranged in the hard disk box, each disk position comprises a sliding groove and a clamping groove, the sliding grooves are used for sliding out or moving in the hard disk tray, the head end of the sliding part is equivalent to a buckle, the clamping grooves are used for clamping or releasing the buckle, and the locking or unlocking function of the hard disk tray is achieved. The plurality of hard disk trays and the hard disk box with the plurality of disk positions form a multi-disk hard disk box. This hard disk tray is different from the fixed mode of hard disk tray in with the immigration hard disk cartridge through the fastener in the past, through the draw-in groove that corresponds to the buckle that sets up to expose in the conducting hole and realize the locking after the draw-in groove is gone into to the card in the head end of sliding part, perhaps, the head end at sliding part retracts to realize the unblock in the conducting hole, realizes this hard disk tray and hard disk cartridge's joint connected mode, easy to assemble, dismantlement. The following embodiments are described by taking only one of the hard disk trays as an example.

Referring to fig. 1 and 2, the hard disk tray provided in this embodiment includes: the tray comprises a tray body 10 and a locking and unlocking mechanism, wherein the locking and unlocking mechanism is used for locking a hard disk tray moved into a hard disk box, or unlocking the hard disk tray when the hard disk tray needs to slide out of the hard disk box.

The tray body 10 is formed in a structure for accommodating a hard disk. The front end of the tray body 10 is provided with a receiving groove 11, a notch of the receiving groove 11 faces the front end of the tray body 10, and a side wall of the receiving groove 11 along the width direction of the tray body 10 is provided with a via hole 111, and the via hole 111 is communicated with the inside of the receiving groove 11.

Locking release mechanism is located storage tank 11, and this locking release mechanism includes: a guide part, a sliding part 30, an elastic member 40, a lifting member 50 and a tray cover 60.

The guide portion is coaxial with the through hole 111, and the sliding portion 30 is slidably disposed in the guide portion, that is, the sliding portion 30 can slide back and forth along the guide portion, so that the sliding portion 30 has a first state in which the head end of the sliding portion 30 is exposed out of the through hole 111 while moving in a direction toward the through hole 111 along the guide portion, and a second state in which the head end of the sliding portion 30 is retracted into the through hole 111 (into the accommodating groove 11) while moving in a direction away from the through hole 111 along the guide portion. In the first state, the head end of the sliding part 30 can be locked in the slot of the hard disk cartridge, so as to realize the locking function. In the second state, the tip end of the sliding part 30 is separated from the card slot and retracted into the through hole 111, thereby realizing the unlocking function.

In this embodiment, the aforementioned guide portion is a guide channel, the sectional shape and size of the guide channel are adapted to the sectional shape and size of the sliding portion 30, and the guide channel includes: a guide groove (not shown), and a pressing plate 20, the guide groove being provided on the bottom wall of the accommodating groove 11, the pressing plate 20 covering and resting on the guide groove.

In some embodiments, the grooves of the guide grooves have a cross-sectional shape and size substantially the same as the cross-sectional shape and size of the guide channels formed with the guide grooves after the platen 20 is covered and seated thereon.

In other embodiments, a recess 21 is provided on the side of the pressure plate 20 facing the guide groove, the recess 21 and the guide groove forming the aforementioned guide channel after the pressure plate 20 is covered and on the guide groove.

Of course, in other embodiments, the guide portion may be a guide rail, and the sliding portion 30 may be formed as a slider that slides back and forth on the guide rail.

The elastic element 40 is located between the tail end of the sliding portion 30 and the other side wall of the receiving groove 11 along the width direction of the tray body 10, and one side wall and the other side wall of the receiving groove 11 along the width direction of the tray body 10 are opposite side walls. The elastic member 40 is used to maintain the sliding portion 30 in the first state.

When the sliding portion 30 is in the first state, the head end of the sliding portion 30 is exposed out of the via hole 111 to be clamped into the corresponding clamping groove in the hard disk cartridge, so as to achieve a clamping and fixing manner, that is, to lock the hard disk tray in the hard disk cartridge.

The elastic member 40 includes a spring, and a guide pillar (not shown) having an axial direction in the width direction of the tray body 10 is disposed at the tail end of the sliding portion 30, one end of the spring is sleeved on the guide pillar, and the other end of the spring abuts against the other side edge of the accommodating groove 11 along the width direction of the tray body 10.

In the present embodiment, the sliding part 30 is provided with the guiding inclined plane 31 inclined towards the tail end thereof, the lifting element 50 can be lifted up (as shown in fig. 4) or lowered down (as shown in fig. 3) in the vertical direction, the lifting element 50 is used for abutting against the guiding inclined plane 31 provided on the sliding part 30 when the lifting element is lifted up and down in the vertical direction so as to guide the sliding part 30 to move along the guiding part towards the direction away from the through hole 111, so that the head end of the sliding part 30 is retracted into the through hole 111, that is, the sliding part 30 is in the second state, or the lifting element 50 is used for disengaging from the guiding inclined plane 31 when the lifting element is lifted up in the vertical direction, so that the sliding part 30 moves along the guiding part towards the through hole 111 under the action of the elastic element 40, and the head end of the sliding part 30 is exposed out of the through hole 111, that is, so that the sliding part.

The lifter 50 provided in this embodiment further includes an engaging inclined surface 531 disposed on the lifter 50, and the engaging inclined surface 531 is adapted to the guiding inclined surface 31 to engage with the guiding inclined surface 31 when the lifter 50 descends, so as to guide the sliding part 30 to move along the guiding part in a direction away from the through hole 111.

Of course, in other embodiments, the engagement slope 531 may not be provided, and the bottom end of the lifter 50 may be in contact with the guide slope 31 to guide the sliding part 30 to move along the guide part in the direction away from the through hole 111.

In other embodiments, the guiding slope 31 and the matching slope 531 may also use other shapes of surfaces to achieve the guiding function, such as arc-shaped surfaces.

Tray face lid 60 can upturning or closing down articulate on the lateral wall on aforementioned storage tank 11 notch top, it is concrete, both ends at the notch top lateral wall of aforementioned storage tank 11 are equipped with two first round pin shaft holes 112, both ends at this tray face 60's inboard are equipped with two second round pin shaft holes 621, two first round pin shaft holes 112 and two second round pin shaft holes 621 one-to-one, first round pin shaft hole 112 passes through round pin 70 with second round pin shaft hole 621 and is connected, in order to realize the articulated connected mode between the lateral wall on tray face lid 60 and storage tank 11 notch top, make tray face lid 60 upturns in order to open storage tank 11 notch, or, make tray face lid 60 close down in order to closed storage tank 11 notch.

In this embodiment, the tray cover 60 is used to close downward to drive the lifting member 50 to ascend, or the tray cover 60 is used to turn upward to drive the lifting member 50 to descend, and the tray cover 60 is a power source for driving the lifting member 50 to ascend or descend.

Referring to fig. 3 and 4, the aforementioned lifter 50 includes: the lifting piece comprises a lifting piece body 51 and a first lifting piece boss 52, wherein the first lifting piece boss 52 is arranged on one side of the lifting piece body 51 facing the notch of the accommodating groove 11, and the first lifting piece boss 52 protrudes out of the lifting piece body 51. The present first lifter boss 52 has a first upper abutment surface 521 and a first lower abutment surface 522 distributed in the vertical direction.

Referring to fig. 5, the aforementioned tray cover 60 includes: tray face lid body 61 and tray face lid boss 62, wherein, this tray face lid body 61's top articulates on storage tank 11 notch top lateral wall, and tray face lid boss 62 is located tray face lid body 61 towards the one side of storage tank 11 notch, this tray panel boss 62 protrusion in tray face lid body 61. A tray cover boss groove 63 is formed on the tray cover boss 62, the tray cover boss groove 63 has a second upper abutting surface 631 and a second lower abutting surface 632, the second upper abutting surface 631 abuts against the first upper abutting surface 521 when the tray cover 60 is closed down to drive the lifting member 50 to ascend, so that the lifting member 50 abuts against the guide slope 31 provided on the sliding portion 30, thereby guiding the sliding portion 30 to move along the guide portion in a direction away from the via hole 111, so that the head end of the sliding portion 30 is retracted into the via hole 111 to form a second state of the sliding portion 30, the second lower abutting surface 632 abuts against the first lower abutting surface 522 when the tray cover is lifted up to drive the lifting member 50 to descend, so that the lifting member 50 is separated from the guide slope 31, the sliding portion 30 moves along the guide portion in a direction toward the via hole 111 under the action of the elastic member 40, so that the head end of the sliding portion 30 is exposed out of the via hole 111, the first state of the slide part 30 is established.

As shown in fig. 2 to 5, the first lifter knob 52 is formed as a V-shaped knob, and both sides of the V-shaped first lifter knob 52 are formed as the first upper contact surface 521 and the first lower contact surface 522. Accordingly, the tray surface cover boss groove 63 is formed as a groove of a V-shaped structure, and both sides of the tray surface cover boss groove 63 of the V-shaped structure are formed as the aforementioned second upper abutment surface 631 and second lower abutment surface 632. Of course, in other embodiments, the first lifter tab 52 and the tray face cover tab recess 63 may be other suitable shapes.

In this application, two tray panel bosses 62 are respectively provided at both ends of the inner side of the tray surface cover body 61, and the two second pin hole 621 are respectively formed on the two tray panel bosses 62. Of course, in other embodiments, the second pin hole 621 may be formed by providing other protruding structures. Wherein a tray panel boss groove 63 is formed on one of the tray panel bosses 62.

As shown in fig. 4, the sliding portion 30 is provided with a through hole 32 along a vertical direction, a sliding portion boss 33 is disposed in the through hole 32, and the sliding portion boss 33 is disposed on at least one side wall of the through hole 32 and spaced apart from an opposite side wall of the at least one side wall of the through hole 32. The guide slope is provided on the slide boss 33. The lifter body 51 is located between the sliding boss 33 and the opposite side wall of at least one side wall of the through hole 32, that is, the lifter body 51 can slide up and down in the space between the sliding boss 33 and the opposite side wall of at least one side wall of the through hole 32, and when the lifter body 51 slides down in the space between the sliding boss 33 and the opposite side wall of at least one side wall of the through hole 32, the engaging inclined surface 531 on the lifter 50 engages with the guide inclined surface 31 to guide the sliding part 30 to move along the guide part in the direction away from the through hole 111, so that the sliding part 30 is in the second state. When the lifter body 51 slides upward in the space between the sliding portion boss 33 and the opposite side wall of at least one side wall of the through hole 32, the engaging inclined surface 531 on the lifter 50 is disengaged from the guide inclined surface, and the sliding portion 30 moves in the direction toward the through hole 111 by the elastic member 40, so that the sliding portion 30 is in the first state.

With continued reference to fig. 3, the lifting member 50 in this embodiment further includes: and the second lifting piece boss 53, the second lifting piece boss 53 is located below the first lifting piece boss 52, and the second lifting piece boss 53 is also arranged on one side of the lifting piece body 51 facing the notch of the accommodating groove 11 and protrudes out of the lifting piece body 51. The aforementioned engaging inclined surface 531 provided on the lifter 50 is formed on the present second lifter projection 53.

With continued reference to fig. 2, the aforementioned pallet body 10 includes: the tray comprises a bottom plate 12 and two side plates 13, wherein the two side plates 13 are respectively installed on two opposite side edges of the bottom plate 12, the two side plates 13 and the bottom plate 12 enclose an accommodating space for accommodating the hard disk, the bottom end of the accommodating groove 11 is fixed at the front ends of the two side plates 13 and the bottom plate 12, and the front end is the front end of the tray body 10.

In one embodiment, to facilitate positioning of the hard disk accommodated in the tray body 10, the present tray body further includes: two fixing strips 14, the two fixing strips 14 are respectively arranged outside the two side plates 13, at least one supporting pillar 141 and at least one buckle 142 are arranged on the fixing strips 14, at least one through hole 131 adapted to the supporting pillar 141 and at least one buckle position 132 adapted to the buckle 142 are arranged on the side plates 13, the supporting pillar 141 penetrates through the through hole 131 and is at least partially exposed in the side plates 13, and the exposed part of the supporting pillar 141 supports against the side edge of the hard disk, so that the hard disk is positioned on the tray body 10.

In this embodiment, at least one elastic protruding bridge 133 may be further disposed at the top ends of the two side plates 12, and the elastic protruding bridge 133 is used to position the hard disk tray through its elastic deformation after the hard disk tray is moved into the hard disk and the middle of the hard disk, and may further buffer the influence of vibration on the hard disk tray.

Example II,

The embodiment provides a multi-disk hard disk cartridge, which includes: a box 100 and a plurality of hard disk trays in the first embodiment, the box 100 is a hollow structure, a side surface of the box 100 has an opening 101, and a plurality of disk positions 102 are disposed in the box 100 along a height direction thereof, each disk position 102 includes a sliding slot (not shown in the figure) and a slot (not shown in the figure), the hard disk tray is slidably disposed in the sliding slot, that is, the hard disk tray can slide out or move into the box 100 along the sliding slot, and a head end of the sliding portion 30 exposed out of the through hole 111 is engaged with the slot after the hard disk tray moves into the box 100 (a first state), so as to achieve a locking function. When the hard disk tray needs to be slid out, the tray surface cover 60 is turned up, so that the head end of the sliding part 30 is separated from the clamping groove (the second state) in the box body 100, and the unlocking function is realized.

In this embodiment, all functions and features of the hard disk tray have been described in detail in the first embodiment, and are not described herein again.

In summary, in the hard disk tray and the multi-tray hard disk cartridge provided in this embodiment, the tray surface cover is closed downward to make the sliding portion in the first state, so as to fix the hard disk tray in the hard disk cartridge, thereby achieving the locking function of the hard disk tray. The tray surface cover is turned upwards to enable the sliding part to be in the second state, the hard disk tray can be moved out of the hard disk box, and the unlocking function of the hard disk tray is achieved. This embodiment closes or turns over the locking or the unblock function that realizes hard disk tray through closing down of tray face lid or, simple structure, the operation of being convenient for.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. A hard disk tray, comprising:

the front end of the tray body is provided with a containing groove; the notch of the containing groove faces the front end of the tray body, and a conducting hole is formed in one side wall of the containing groove along the width direction of the tray body;

be located locking release mechanism in the storage tank, it includes:

a guide portion coaxial with the via hole;

the sliding part is arranged on the guide part in a sliding manner and has a first state that the head end of the sliding part moves towards the via hole along the guide part and is exposed out of the via hole, and a second state that the sliding part moves away from the via hole along the guide part and retracts the head end of the sliding part into the via hole; the sliding part is provided with a guide inclined plane inclined towards the tail end of the sliding part;

the elastic piece is positioned between the tail end of the sliding part and the other side wall of the accommodating groove along the width direction of the tray body and is used for keeping the sliding part in the first state;

a lifting member which can be raised or lowered in the vertical direction and which abuts the guide slope when lowered to place the slide portion in the second state, or which is disengaged from the guide slope when raised to place the slide portion in the first state;

the tray surface cover can be turned upwards or downwards and is hinged on the side wall of the top end of the notch of the containing groove and is used for turning downwards to drive the lifting piece to ascend or turning upwards to drive the lifting piece to descend.

2. The hard disk tray of claim 1, wherein the lifting member comprises: the matching inclined plane is arranged on the lifting piece and is matched with the guide inclined plane.

3. The hard disk tray of claim 2, wherein the lifting member further comprises: a lifter body and a first lifter boss; the first lifting piece boss is arranged on one side, facing the notch of the accommodating groove, of the lifting piece body, protrudes out of the lifting piece body and is provided with a first upper abutting surface and a first lower abutting surface which are distributed in the vertical direction; the tray surface cover includes: the tray surface cover body and the tray surface cover boss; the top end of the tray surface cover body is hinged to the side wall of the top end of the containing groove opening, and the tray surface cover boss is positioned on one surface, facing the containing groove opening, of the tray surface cover body; the tray surface cover boss is provided with a tray surface cover boss groove, and the tray surface cover boss groove is provided with a second upper butt surface which is used for abutting against the first upper butt surface when the tray surface cover is closed downwards so as to drive the lifting piece to ascend, and a second lower butt surface which is used for abutting against the first lower butt surface when the tray panel cover is lifted upwards so as to drive the lifting piece to descend.

4. The hard disk tray according to claim 3, wherein the sliding portion has a through hole formed therein in a vertical direction, and a sliding portion boss is provided in the through hole, the sliding portion boss being located on at least one side wall of the through hole and spaced apart from an opposite side wall of the at least one side wall of the through hole; the guide inclined plane is arranged on the sliding part boss; the lifting piece body is positioned between the sliding part boss and the opposite side wall of at least one side wall of the through hole.

5. The hard disk tray of claim 4, wherein the lifting member further comprises: the second lifting piece boss is located below the first lifting piece boss and also arranged on one side, facing the notch of the accommodating groove, of the lifting piece body and protruding out of the lifting piece body, and the matching inclined plane is formed on the second lifting piece boss.

6. The hard disk tray of claim 1, wherein the tray body comprises: the bottom plate and the two side plates are arranged on two opposite side edges of the bottom plate; the bottom end of the containing groove is fixed at the front ends of the two side plates and the bottom plate.

7. The hard disk tray of claim 6, wherein the tray body further comprises: the two fixing strips are respectively arranged on the outer sides of the two side plates, at least one abutting column and at least one buckle are arranged on the fixing strips, at least one through hole adaptive to the abutting column and at least one buckle adaptive to the buckle are formed in the side plates, and the abutting column is at least partially exposed in the side plates after penetrating through the through hole.

8. The hard disk tray of claim 1, wherein the guide portion is a guide channel, the guide channel comprising: the guide groove is arranged on the bottom wall of the accommodating groove, and the cover and the pressing plate are arranged on the guide groove; and a groove is formed in one surface, facing the guide groove, of the pressing plate, and the groove and the guide groove form the guide channel.

9. The hard disk tray according to claim 1, wherein the elastic member comprises a spring, a guide post having an axial direction in a width direction of the tray body is provided at a rear end of the sliding portion, and one end of the spring is fitted over the guide post.

10. A multi-disc cartridge, comprising: the hard disk tray comprises a box body and a plurality of hard disk trays according to any one of claims 1 to 9, wherein one side surface of the box body is provided with an opening, a plurality of disk positions are arranged in the box body along the height direction of the box body, each disk position comprises a sliding groove and a clamping groove, the hard disk tray is arranged in the sliding groove in a sliding mode, and the head end of the sliding part, which is exposed out of the through hole, is clamped in the clamping groove.

Images