CN108231096B - Long cylinder type CD access device - Google Patents

Abstract

The invention discloses a long-cylinder type optical disk access device, and belongs to the technical field of storage devices. The device comprises a first optical disc storage cylinder, a second optical disc storage cylinder and an optical disc moving box, wherein the first optical disc storage cylinder and the second optical disc storage cylinder are arranged in parallel at intervals, and a plurality of optical disc grooves are formed in the first optical disc storage cylinder and the second optical disc storage cylinder, so that the storage capacity of an optical disc is increased; the optical disk moving box is arranged between the first optical disk storage cylinder and the second optical disk storage cylinder, can move along the extending direction of the cylinders and is used for transporting the optical disk; the opposite sides of the optical disc moving box are provided with openings, the optical disc moving box is internally provided with a storage groove, and an optical disc driving mechanism is arranged on the storage groove and used for moving the optical disc from the storage groove to the optical disc groove and from the optical disc groove to the storage groove. The invention has simple structure, small volume, large capacity, high reliability, low noise and low price, and is suitable for small and medium-sized enterprises and families to store optical discs.

Description

Long cylinder type CD access device

Technical Field

The present invention relates to the field of storage devices, and in particular, to a long-cartridge optical disc access device.

Background

Early optical discs were mainly used in the field of video entertainment, but with the rapid development of network and digital multimedia technologies, the traditional use of optical storage has been greatly shrinking. In recent years, the requirement for long-term safe storage of massive data, which is caused by rapid growth of a large amount of data such as photos, videos and electronic files, makes optical storage more popular in the spring of growth. The use and management of small and medium enterprises and household optical discs also mainly adopts a CD-ROM to manually record the optical discs, marks the content of the optical discs in a mode of handwriting labels by an ink pen, and stores the optical discs in a simple optical disc box or an optical disc storage box.

The application number CN201510608166.6 provides a rotary optical disk storage device, an optical disk library and a magneto-optical fusion storage device, and discloses a rotary optical disk storage device, which comprises a rotatable library body, wherein a plurality of layers of optical disk brackets are arranged in the library body, a group of optical disk accommodating grids are arranged on each layer of optical disk bracket along the circumferential direction, the opening of each optical disk accommodating grid faces outwards, and the optical disk accommodating grids are aligned up and down. The rotary optical disc storage device can realize high-density storage of optical discs, manage a large number of optical discs and hard discs, realize hybrid storage between two different media, and realize high-efficiency reading and safety protection of data by taking the first half part as a hard disc module and the second half part as an optical disc library, wherein the hard disc module data are used for quickly accessing application fields such as online inquiry and the like, the optical disc library is used for backing up the data of the hard disc module, when the hard disc is damaged, the bad hard disc can be pulled out at any time to replace a new hard disc, and the optical disc backup data are recovered in time.

However, such a storage device has its limitations, such as: (1) The device is designed in a cabinet mode, hard disks and compact discs are highly dense, a very stable placing bracket, a good ventilating duct and a high-power supply facility are needed, and the device is suitable for a machine room environment maintained by special people; (2) The optical disk moves back and forth between the optical disk accommodating grid and the optical disk drive in a mode of grabbing the central round hole, a certain disk dropping risk exists, and once the disk dropping occurs, a corresponding detection device and a fault emergency mechanism are needed to wait for the case opening repair of a special maintenance personnel; (3) The optical disc library part adopts a whole disc rack rotating mode, if the optical discs are unevenly loaded or more optical discs are loaded, the vibration is larger, and the corresponding noise is larger; (4) Integrating a large number of hard disks and optical discs results in a complex structure and high price.

In contrast, the optical disc library used by small and medium enterprises and families needs to have the characteristics of simple structure, low price and the like.

Disclosure of Invention

The invention aims to provide a long-cylinder type optical disc access device, which solves the defects of large size, complex structure, high cost caused by the need of special maintenance, high risk of disc dropping and high noise of a large-scale optical disc.

In order to achieve the above object, the following technical solutions are provided,

the invention provides a long cylinder type CD access device, comprising:

the optical disk storage device comprises a first optical disk storage cylinder and a second optical disk storage cylinder, wherein the first optical disk storage cylinder and the second optical disk storage cylinder are arranged in parallel at intervals, and a plurality of optical disk grooves are vertically arranged in the first optical disk storage cylinder and the second optical disk storage cylinder along the extending direction of the cylinders;

an optical disc moving box which is arranged between the first optical disc storage cylinder and the second optical disc storage cylinder and can move along the extending direction of the cylinders, wherein openings are arranged on two opposite side surfaces of the optical disc moving box, and a storage groove parallel to the optical disc groove is arranged in the optical disc moving box; the optical disk moving box is provided with an optical disk driving mechanism for moving the optical disk from the storage tank to the optical disk tank and from the optical disk tank to the storage tank.

Further, the optical disc moving box further comprises a first driver and a guide rod, the guide rod is arranged between the first optical disc storage cylinder and the second optical disc storage cylinder along the extending direction of the cylinder, a guide groove matched with the guide rod is formed in the side face of the optical disc moving box, and the first driver drives the optical disc moving box to move on the guide rod.

Further, the optical disc moving box further comprises a shell, an optical disc inlet and an optical disc outlet are arranged on one side face of the shell, and the first optical disc storage cylinder, the second optical disc storage cylinder and the optical disc moving box are all arranged in the shell.

Further, the optical disc moving box comprises an upper cover plate and a lower cover plate which are parallel to the disc surface of the optical disc, wherein a plurality of rolling rods with opposite directions are respectively arranged on the upper cover plate and the lower cover plate, and the distance between the rolling rods on the upper cover plate and the rolling rods on the lower cover plate is equal to the thickness of the optical disc.

Further, a disc access cassette is further disposed at the rear of the disc access, the disc access cassette is located at one end of the travel of the disc moving cassette and can be aligned with the storage groove in the disc moving cassette, and the disc driving mechanism is also disposed on two inner walls of the disc storage cassette parallel to the disc surface of the disc.

Further, the optical disc driving mechanism comprises an optical disc pulling-out rod and an optical disc pulling-in rod, wherein the two optical disc pulling-out rods are respectively arranged at two sides of the optical disc moving box and are used for pulling out the optical discs in the storage tank into the optical disc grooves of the first optical disc storage cylinder and the second optical disc storage cylinder respectively; the two optical disc shifting-in rods are respectively arranged at one sides of the first optical disc storage cylinder and the second optical disc storage cylinder, which are far away from the optical disc moving box, and are respectively used for shifting the optical discs in the corresponding optical disc grooves into the storage grooves.

Further, the optical disc access device further comprises an image collector, wherein the image collector is arranged on two inner walls of the optical disc access opening, which are parallel to the disc surface of the optical disc, and is used for collecting the identification of the optical disc.

Further, the optical disc access device further includes a memory, where the memory can memorize a correspondence between a storage location of the optical disc and the optical disc identifier.

Further, a display screen is further arranged on the outer side face of the shell.

Compared with the prior art, the long-barrel type optical disc access device provided by the invention is provided with the first optical disc storage barrel and the second optical disc storage barrel, so that the optical disc storage amount is increased, and the optical disc groove arranged on the first optical disc storage barrel is used for storing an optical disc. The optical disk moving box is arranged between the first optical disk storage cylinder and the second optical disk storage cylinder, a storage groove arranged on the optical disk moving box can store optical disks, and the optical disk moving box can move along the vertical direction and is used for transporting the optical disks; the optical disc driving mechanism is capable of moving the optical disc stored in the storage slot out to the optical disc slot or the optical disc in-out tray, and moving the optical disc stored in the optical disc slot or the optical disc slot into the storage slot. The invention has simple structure, small volume, large capacity, high reliability, low noise and low price, and is suitable for small and medium-sized enterprises and families to store optical discs.

Drawings

FIG. 1 is a schematic side view of an inner structure of a long cartridge type optical disc access device according to an embodiment of the present invention;

FIG. 2 is a schematic top view illustrating an internal structure of a long-cartridge type optical disc access device according to an embodiment of the present invention;

FIG. 3 is a schematic diagram showing the external structure of a long cartridge type optical disc access device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram showing a state where an optical disc is placed in an optical disc moving tray according to an embodiment of the present invention;

fig. 5 is a schematic diagram illustrating a state that the optical disc ejecting lever ejects an optical disc from the optical disc moving tray according to an embodiment of the present invention.

Reference numerals: 1-a housing; 101-CD entrance; 2-CD in/out box; 3-a disc storage cartridge; 31-a first optical disc storage cartridge; 32-a second optical disc storage cartridge; 4-optical disc groove; 5-a disc moving tray; 51-a storage tank; 6, a guide rod; 7-rolling rods; 8-a disc pulling-out lever; 9-a disc driving-in lever; 10-driving in a driving motor; 11-a controller; 12-an image acquisition device; 13-a display screen; 14-optical disc.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

In order to make the technical problems solved, the technical solutions adopted and the technical effects achieved by the present invention more clear, the technical solutions of the embodiments of the present invention will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The long-cylinder type optical disc storage device provided by the invention can be placed vertically, as shown in fig. 1-3, and can also be placed horizontally by taking the left side surface as the bottom surface in the embodiment. The invention provides a long-barrel type optical disc access device, which comprises a shell 1, an optical disc storage barrel 3 and an optical disc moving box 5. Specifically, the upper end of the left side of the housing 1 is horizontally provided with a disc access 101 for inserting or removing the optical disc 14, a disc access box 2 is provided in the housing 1 at a position flush with the disc access 101, and the left and right sides of the disc access box 2 are provided with openings for temporarily storing the optical disc 14 when the optical disc 14 is stored or taken out. Further, the optical disc storage cartridge 3 is divided into a first optical disc storage cartridge 31 and a second optical disc storage cartridge 32, and the first optical disc storage cartridge 31 and the second optical disc storage cartridge 32 are each disposed in the vertical direction in the housing 1 below the optical disc access tray 2. The first optical disc storage drum 31 is provided on the left side of the housing 1, the second optical disc storage drum 32 is provided on the right side of the housing 1, and a plurality of horizontal optical disc grooves 4 are provided in each of the first optical disc storage drum 31 and the second optical disc storage drum 32. In order to enable the optical disc 14 to be smoothly stored in and removed from the disc slot 4, openings are provided on both the right side surface of the first disc storage drum 31 and the left side surface of the second disc storage drum 32. The optical disc moving tray 5 is disposed between the first optical disc storage drum 31 and the second optical disc storage drum 32, and both left and right sides of the optical disc moving tray 5 are provided with openings, and the optical disc moving tray 5 can move in a vertical direction between the optical disc slot 4 and the optical disc access tray 2. The inside of the optical disc moving tray 5 is horizontally provided with a storage groove 51 for placing the optical disc 14. The optical disc moving tray 5 is provided therein with an optical disc driving mechanism for moving the optical disc 14 stored in the storage slot 51 out to the optical disc slot 4 or the optical disc access tray 2, and moving the optical disc 14 stored in the optical disc slot 4 or the optical disc access tray 2 into the optical storage slot 51.

Wherein the movement of the disc moving magazine 5 in the vertical direction is accomplished by the first driver and the guide bar 6. Specifically, the guide bar 6 is disposed in the housing 1 in the vertical direction between the first disc storage drum 31 and the second disc storage drum 32, a guide groove that mates with the guide bar 6 is provided on the side surface of the disc moving magazine 5, and the first driver drives the disc moving magazine 5 to move on the guide bar 6. Four guide rods 6 are provided and are respectively arranged at the outer sides of the optical disc moving box 5. Specifically, the first driver is a first motor, the first motor drives the screw rod to rotate, the screw rod is provided with a matched nut, the optical disc moving box 5 is arranged on the nut, and the optical disc moving box 5 is provided with a guide groove matched with the guide rod 6 to play a role in guiding, and the first motor drives the optical disc moving box 5 to slide on the guide rod 6.

Further, the optical disc moving tray 5 includes an upper cover plate and a lower cover plate which are horizontally arranged, a plurality of rolling rods 7 with opposite directions are respectively arranged on the upper cover plate and the lower cover plate, the distance between the rolling rods 7 on the upper cover plate and the rolling rods 7 on the lower cover plate is equal to the thickness of the optical disc 14, and the optical disc driving mechanism includes a plurality of rolling rods 7 on the upper cover plate and a plurality of rolling rods 7 on the lower cover plate. Specifically, the upper cover plate is provided with a row of five rolling rods 7, the lower cover plate is correspondingly provided with a row of five rolling rods 7, and in order to prevent the rolling rods 7 from rolling to damage the disk surface of the optical disk 14, the outer surface of the rolling rods 7 is covered by elastic materials such as silica gel. The left and right rolling rods 7 of the upper cover plate are respectively connected with the transmission shaft of the second motor, the left and right rolling rods 7 of the lower cover plate are respectively connected with the transmission shaft of the third motor, the second motor and the third motor synchronously rotate in opposite directions, for example, when the second motor rotates clockwise, the third motor synchronously rotates anticlockwise, so that the optical disk slot 4 or the optical disk 14 in the optical disk access box 2 is driven into the optical disk moving box 5; conversely, when the second motor rotates counterclockwise, the third motor rotates clockwise in synchronization, thus realizing the driving of the optical disk 14 in the storage slot 51 into the optical disk slot 4 or the optical disk in-out tray 2. Further, in order to insert or remove the optical disc 14 into or from the housing 1 more quickly and smoothly, the above-mentioned optical disc driving mechanism may be provided on the upper and lower inner walls of the optical disc access tray 2.

Further, openings are provided on both the left side surface of the first disk storage drum 31 and the right side surface of the second disk storage drum 32, and a gap is provided between the disk entrance/exit cassette 2 and the disk entrance/exit 101. As shown in fig. 2, 4 and 5, the optical disc driving mechanism further includes an optical disc ejecting lever 8 and an optical disc ejecting lever 9, the optical disc ejecting lever 8 being provided at left and right ends of the optical disc moving tray 5 for ejecting the optical disc 14 in the storage slot 51 into the optical disc slot 4 (ejecting state see fig. 5), the optical disc ejecting lever 9 being provided at left side of the first optical disc storage drum 31 and right side of the second optical disc storage drum 32, respectively, for ejecting the optical disc 14 in the optical disc slot 4 into the storage slot 51 (ejecting state see fig. 4). Specifically, four optical disc pulling-out rods 8 are provided in total, two pulling-out driving motors are respectively arranged at the left end and the right end of the lower cover plate, the four optical disc pulling-out rods 8 are respectively connected to transmission shafts of the four pulling-out driving motors in a one-to-one correspondence manner, the rotation plane of the four optical disc pulling-out rods 8 is the same as the plane of the optical disc 14 in the storage groove 51, the two pulling-out driving motors at the left end of the lower cover plate synchronously rotate reversely, and the two pulling-out driving motors at the right end of the lower cover plate synchronously rotate reversely. The optical disc moving box 5 extends out of a left connecting rod towards two sides of the first optical disc storage barrel 31 respectively, the left ends of the two left connecting rods are positioned between the first optical disc storage barrel 31 and the left side surface of the shell 1, a dial-in driving motor 10 is arranged at the left ends of the two left connecting rods respectively, a transmission shaft of the dial-in driving motor 10 at the left end of each left connecting rod is connected with an optical disc dial-in rod 9, and the dial-in driving motors 10 at the left ends of the two left connecting rods synchronously rotate reversely; the optical disc moving box 5 extends out of one right connecting rod towards two sides of the second optical disc storage cylinder 32 respectively, the right ends of the two right connecting rods are located between the second optical disc storage cylinder 32 and the right side face of the shell 1, a dial-in driving motor 10 is arranged at the right end of each right connecting rod, a disc dial-in rod 9 is connected to a transmission shaft of the dial-in driving motor 10 at the right end of each right connecting rod, the dial-in driving motors 10 at the right end of the two right connecting rods synchronously rotate reversely, and the rotation planes of the four optical disc dial-in rods 9 are identical with the rotation planes of the four optical disc dial-out rods 8.

Of course, as another embodiment, the optical disc driving mechanism includes a plurality of rows of rollers on the upper cover plate, a plurality of rows of rollers on the lower cover plate, and a plurality of motors, the plurality of rows of rollers on the upper cover plate and the plurality of rows of rollers on the lower cover plate are in one-to-one correspondence, specifically, two rows of rollers are respectively arranged on the upper cover plate and the lower cover plate, the two rows of rollers on the upper cover plate are respectively connected with a fourth motor, the two rows of rollers on the lower cover plate are respectively connected with a fifth motor, the rotation planes of all the rollers are perpendicular to the left side surface and the horizontal plane of the casing 1, and the fourth motor and the fifth motor synchronously rotate reversely. The optical disc driving mechanism further comprises an optical disc pulling-out rod 8 and an optical disc pulling-in rod 9, the optical disc pulling-out rod 8 and the optical disc pulling-in rod 9 can be arranged at the middle position of the lower cover plate, a pulling-out driving motor is respectively arranged at the middle positions of the left end and the right end of the lower cover plate, each pulling-out driving motor is connected with one optical disc pulling-out rod 8, and the rotating planes of the two optical disc pulling-out rods 8 are parallel to the rotating plane of the roller; the middle part of lower apron left end stretches out to the left and sets up left connecting rod, and driving motor 10 is gone into in the left end connection of left connecting rod, and driving motor 10 should dial into and connect a CD and dial into pole 9, and the middle part of lower apron right-hand member stretches out to the right and sets up right connecting rod, and driving motor 10 is connected to the right-hand member of right connecting rod, and driving motor 10 should dial into and connect a CD and dial into pole 9, and the rotation plane of above-mentioned two CD and CD dial into pole 8 are the same.

The optical disc pulling-out rod 8 and the optical disc pulling-in rod 9 in the above two schemes can also be arranged on the upper cover plate, and the installation mode is the same as above, and the description is omitted here.

Further, the optical disc access device further includes a control device, as shown in fig. 1 and 3, where the control device includes an image collector 12, a position sensor, a communication device, a memory and a controller 11, where the image collector 12 is disposed on the upper and lower inner walls of the optical disc access 101, the position sensor is disposed on the left and right sides of the optical disc moving box 5, the communication device, the memory and the controller 11 are all disposed in the casing 1, the communication device is used to connect with a user terminal, the memory can memorize the correspondence between the storage position of the optical disc 14 and the identification of the optical disc 14, and the image collector 12, the position sensor, the first driver, the communication device and the optical disc driving mechanism are all connected with the controller 11, and the controller 11 can control the first driver and the optical disc driving mechanism, so as to accurately learn the identification of the optical disc 14 according to the photographed disc surface image of the optical disc 14. Specifically, the image collector 12 is a camera, and in order to make the photographed image clear, light sources are further disposed on the upper and lower sidewalls of the optical disc entrance 101. The communication device is an ethernet card, a wireless network card, NFC or bluetooth, etc., and in this embodiment, a WIFI network module is used. Further, a display screen 13 is further arranged on the outer side surface of the shell 1, and the display screen 13 is connected with the controller 11 and used for displaying working states.

When the long-barrel type optical disk access device provided by the invention is used, connection between the long-barrel type optical disk access device and a user terminal needs to be established firstly through a communication device. To the right of establishing a connection, a user can manage a plurality of long cartridge type optical disc access apparatuses through any one of the terminals.

When a long-cartridge type optical disc accessing device C (hereinafter referred to as device C) is stored in an optical disc a, a controller 11 obtains a command from a user to inquire about an empty optical disc slot 4 on a terminal B connected to the internet, and if the device C has an empty optical disc slot E, the controller 11 controls a display 13 to display a mark indicating that the empty optical disc slot E exists, and simultaneously feeds back information of the device C to the terminal B.

When the camera detects that a user inserts the optical disc a, the camera acquires the optical disc identification on the disc surface of the optical disc a when the optical disc a enters the optical disc access box 2, and the controller 11 records the optical disc identification together with the empty optical disc groove E. The controller 11 controls the disc moving tray 5 to move to the horizontal position of the disc entrance 101, then the controller 11 controls the disc driving-in lever 9 to drive the disc a in the disc entering and exiting tray 2 out between the rolling levers 7 of the disc moving tray 5, and simultaneously the controller 11 controls the rolling levers 7 to rotate inward so that the disc a moves to the storage groove 51 and stays in the center of the storage groove 51. The controller 11 controls the optical disc moving tray 5 to move up and down, and the position sensor feeds back the position information to the controller 11 until the optical disc moving tray 5 moves to the level where the empty optical disc groove E is located. The controller 11 controls the roller 7 to rotate outwards, so that the optical disc a moves into the empty optical disc slot E, and then controls the optical disc pulling-out lever 8 to pull the optical disc a into the empty optical disc slot E.

When the optical disc a is taken out, the controller 11 obtains a command from the user to take out the optical disc a from the terminal B, and if the optical disc a is present in the device C, the controller 11 controls the display 13 to display a flag indicating that the optical disc a to be queried is present, and simultaneously feeds back information of the device C to the terminal B.

When the device C receives a command for picking up the optical disc a from the user terminal, the controller 11 obtains the position of the optical disc slot E where the optical disc a is located from the device C according to the identification of the optical disc a. The controller 11 controls the disc moving magazine 5 to move up and down, the displacement sensor feeds back the position information to the controller 11, the movement is stopped until the disc moving magazine 5 moves to the horizontal plane where the disc slot E is located, the controller 11 controls the disc driving-in lever 9 to drive the disc a out into the storage slot 51, and simultaneously controls the rolling lever 7 to rotate to the inner side so that the disc a moves to the center of the storage slot 51. Then, the controller 11 controls the disc moving magazine 5 to move up and down to the horizontal plane where the disc entrance 101 is located. The controller 11 controls the roller 7 to rotate outwards to move the optical disc a into the optical disc access box 2, and then controls the optical disc pulling out rod 8 to pull out some optical discs a from the optical disc access 101, so that a user takes out the optical discs a.

The long-cartridge type optical disc access device provided in this embodiment, wherein the optical disc access tray 2 can temporarily store the optical disc 14 inserted from the optical disc access port 101 or the optical disc 14 pushed out from the storage slot 51. The first and second optical disc storage barrels are provided, so that the storage capacity of the optical disc is increased, and the optical disc groove 4 formed in the optical disc storage barrels is used for storing the optical disc. The optical disc moving magazine 5 is disposed between the first and second optical disc storage drums, and the optical disc moving magazine 5 therein is capable of storing the optical disc 14 and moving in the vertical direction for transporting the optical disc 14; the optical disc drive mechanism is capable of moving the optical disc 14 stored in the storage slot 51 out to the optical disc slot 4 or the optical disc access tray 2, and moving the optical disc 14 stored in the optical disc slot 4 or the optical disc access tray 2 into the storage slot 51. The invention has simple structure, small volume, large capacity, high reliability, low noise and low price, and is suitable for small and medium-sized enterprises and families to store optical discs.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, while the invention has been described in connection with the above embodiments, the invention is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the invention, which is set forth in the following claims.

Claims (9)

1. A long-cartridge type optical disc access apparatus, comprising:

a first optical disc storage cylinder (31) and a second optical disc storage cylinder (32), wherein the first optical disc storage cylinder (31) and the second optical disc storage cylinder (32) are arranged in parallel at intervals, and a plurality of optical disc grooves (4) are vertically arranged in the first optical disc storage cylinder (31) and the second optical disc storage cylinder (32) along the extending direction of the cylinders;

an optical disc moving tray (5) which is provided between the first optical disc storage cylinder (31) and the second optical disc storage cylinder (32) and is movable in the direction of extension of the cylinders, openings being provided on both opposite side surfaces of the optical disc moving tray (5), and a storage groove (51) being provided in the optical disc moving tray (5) in parallel with the optical disc groove (4); the optical disc moving box (5) is provided with an optical disc driving mechanism for moving an optical disc (14) from the storage groove (51) into the optical disc groove (4) and from the optical disc groove (4) into the storage groove (51);

the control device comprises an image collector (12), a position sensor, a communication device, a memory and a controller (11).

2. A long-cartridge type optical disc access device according to claim 1, further comprising a first driver and a guide rod (6), wherein the guide rod (6) is disposed between the first optical disc storage cartridge (31) and the second optical disc storage cartridge (32) along the extending direction of the cartridge, a guide groove which is matched with the guide rod (6) is opened on the side surface of the optical disc moving cartridge (5), and the first driver drives the optical disc moving cartridge (5) to move on the guide rod (6).

3. A long-cartridge type optical disc access device according to claim 1, further comprising a housing (1), wherein an optical disc inlet/outlet (101) is provided on one side of the housing (1), and the first optical disc storage cartridge (31), the second optical disc storage cartridge (32), and the optical disc moving tray (5) are all provided in the housing (1).

4. A long-cartridge type optical disc access apparatus according to claim 1, wherein the optical disc moving tray (5) comprises an upper cover plate and a lower cover plate parallel to the disc surface of the optical disc (14), a plurality of rolling rods (7) with opposite directions are respectively arranged on the upper cover plate and the lower cover plate, and the distance between the rolling rods (7) on the upper cover plate and the rolling rods (7) on the lower cover plate is equal to the thickness of the optical disc (14).

5. A long-cartridge type optical disc access apparatus according to claim 3, wherein an optical disc access cartridge (2) is further provided behind the optical disc access opening (101), the optical disc access cartridge (2) is located at one end of the travel of the optical disc moving cartridge (5) and can be aligned with the storage slot (51) in the optical disc moving cartridge (5), and the optical disc drive mechanism is also provided on two inner walls of the optical disc storage cartridge (2) parallel to the disc surface of the optical disc (14).

6. A long-cartridge type optical disc access apparatus according to claim 5, wherein said optical disc drive mechanism comprises an optical disc ejecting lever (8) and an optical disc ejecting lever (9), both of said optical disc ejecting levers (8) being provided on both sides of said optical disc moving tray (5) respectively for ejecting said optical disc (14) in said storage groove (51) into the optical disc grooves (4) of said first optical disc storage cartridge (31) and said second optical disc storage cartridge (32) respectively; the two optical disc shifting-in rods (9) are respectively arranged on one side of the first optical disc storage cylinder (31) and one side of the second optical disc storage cylinder (32) which are far away from the optical disc moving box (5) and are respectively used for shifting in the optical discs (14) in the corresponding optical disc grooves (4) into the storage grooves (51).

7. A long cartridge type optical disc access apparatus according to any one of claims 3 to 6, wherein said image pickup (12) is provided on both inner walls of said optical disc entrance (101) parallel to a disc surface of said optical disc (14) for picking up an identification of said optical disc (14).

8. A long cartridge type optical disc access apparatus according to claim 7, wherein said memory is capable of memorizing a correspondence between a storage position of said optical disc (14) and an identification of said optical disc (14).

9. A long cartridge optical disc access device according to claim 3, characterized in that the housing (1) is further provided with a display screen (13) on its outer side.