CN210467323U

CN210467323U - Rack type off-line optical disk management equipment

Info

Publication number: CN210467323U
Application number: CN201921429141.XU
Authority: CN
Inventors: 赵伟东
Original assignee: Beijing Starshine Digital System Co ltd
Current assignee: Beijing Starshine Digital System Co ltd
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2020-05-05
Anticipated expiration: 2029-08-30

Abstract

The utility model discloses a rack-type off-line CD management equipment belongs to CD storage technical field. The utility model provides a rack-mounted off-line optical disk management device, which comprises a standard cabinet, an off-line tray and an optical disk storage box; the optical disc storage box is taken as an integral optical disc storage unit and is uniformly managed by an offline storage management system in the standard cabinet. The off-line tray comprises a positioning fixing groove, an RFID card reader, an embedded main board, a slide rail, a position indicator lamp and a limiter; the offline trays are arranged in the standard cabinet in a layered mode, and one to nine offline trays can be arranged according to needs. The technical scheme of the utility model is that the turntable type optical disk box is quickly searched and the information is read, thereby improving the working efficiency, saving the management cost and solving the resource utilization problem to the maximum extent; the system is flexible in deployment and simple in installation, supports various combinations and interconnection management modes, and can meet application requirements of different users in different scenes.

Description

Rack type off-line optical disk management equipment

Technical Field

The utility model belongs to the technical field of CD storage, especially, relate to a rack-type off-line CD management equipment.

Background

Early optical discs were mainly used in the field of video and audio entertainment, but with the rapid development of network and digital multimedia technologies, the traditional application of optical storage has been greatly shrinking. In recent years, the demand for long-term secure storage of mass data brought by the rapid growth of data such as electronic data, photographs, videos and other electronic files of major protection archives in a large number of countries has led to a renewed growth in spring. In the traditional industries such as archives and the like, for the use and management of optical disks, the recording optical disk is mainly manually recorded by a recording optical drive, the content of the optical disk is marked by using an ink pen to write a label, and then the optical disk is stored by using a simple optical disk box or an optical disk storage box.

The storage devices widely used at present include disk arrays, tape libraries, large-scale optical disk libraries and the like, are mainly used for data centers, information centers and the like for storing mass data, are mature in scheme and stable in operation, but are expensive, complex in operation and maintenance and high in environmental requirements, and are not suitable for enterprises and public institutions requiring mass data to be stored for a long time. The magnetic storage medium has the advantages of large capacity and high access speed, and has the disadvantages of high damage rate, poor shock resistance and magnetic resistance, easy data tampering and short service life, and data must be transferred in 3 to 5 years generally. The large-scale optical disk library is huge in size, complex in structure and high in manufacturing cost, needs to develop professional software support through a special interface and a corresponding SDK development kit, is high in use and maintenance cost, and is poor in flexibility of matching enterprises and public institutions with different requirements. The tray type universal optical drive adopted by the optical disk library of the union of the Panasonic and Suzhou has large volume, the disk is grabbed by using the disk hole, the mechanical arm is complex in design, and the reliability is poor; the sony optical disc library adopts a customized special optical drive, the size is huge, recorded data can only be read by the special optical drive, and the compatibility is poor. The mode of manually recording the optical disk by using the recording optical driver and managing the optical disk by using the optical disk box or the optical disk storage box can be utilized, the optical disk can be only lifted and searched one by hand, the time and the labor are extremely wasted, and the optical disk can be damaged.

In the big data era, the optical disk library has unique advantages on long-term, safe, efficient and energy-saving storage of data; however, the capacity of the optical disc library for the optical disc is limited, and the optical disc which is completely stored and is not used for a long time tends to be replaced by a new optical disc. At present, most of the methods stack the replaced optical discs in the same place, such as a common optical disc storage cabinet; when data needs to be read, the optical disc is searched, and then the optical disc is loaded into the optical disc library to read the required data. Such an approach has mainly these disadvantages: 1) the time and the labor are wasted, and people only need to spend a great deal of time to find the required optical disc from a stack of optical discs if the required data is required; 2) in the process of searching for the optical disc, the moving operation is easy to generate collision, and the optical disc is deformed under severe conditions, so that the storage of the optical disc is influenced, and the optical disc can not be smoothly read by an optical disc library.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rack-type off-line CD management equipment for solve the above-mentioned problem that prior art exists.

The utility model adopts the technical proposal that the rack type off-line optical disk management device comprises a standard rack, an off-line tray and an optical disk storage box; the optical disc storage box is taken as an integral optical disc storage unit and is put into or taken out of the rack type off-line optical disc management device to be managed uniformly.

Furthermore, the offline trays are hierarchically deployed in the standard cabinets, and one standard cabinet can be selectively deployed with one to nine offline trays as required; the off-line tray comprises a positioning fixing groove, an RFID card reader, an embedded main board, a slide rail, a position indicator lamp and a limiter; the off-line tray can be used for placing two optical disc storage boxes; the slide rails are arranged on two sides of the off-line tray, and the optical disc storage box is taken and placed through push-pull operation.

Furthermore, the positioning fixing grooves are uniformly distributed on the left side and the right side of the surface of the off-line tray in an array manner, and four positioning fixing grooves are respectively distributed on the left side and the right side of the surface of the off-line tray in an array manner; the concave surface of the positioning fixing groove is just matched with the convex angle at the bottom of the optical disk storage box so as to fix the optical disk storage box; the inner space of the optical disk storage box can accommodate a rotating disk type optical disk box which is used for vertically storing optical disks in the prior art in the market.

Furthermore, the RFID card reader array is distributed on the surface of the off-line tray, and the RFID card reader acquires the position information of the rotating disc type optical disc box stored in the optical disc storage box right above the RFID card reader in real time by continuously identifying the RFID label at the bottom of the rotating disc type optical disc box stored in the optical disc storage box; the off-line tray is provided with two RFID card readers.

Further, embedded mainboard setting be in the central point of off-line tray bottom put, embedded mainboard be provided with JPIO interface and POE interface, JPIO interface pass through signal conductor respectively with two RFID card reader and two the position indicator link to each other, POE interface pass through signal conductor and POE switch link to each other.

Further, the embedded motherboard sends the position information of the rotating disc type optical disc box stored inside the optical disc storage box acquired by the two RFID card readers on the offline tray to the POE switch through the signal wire and the POE interface, and then sends the position information of the rotating disc type optical disc box stored inside the optical disc storage box to an offline storage management system on the computer through the POE switch, and the offline storage management system establishes a set of database containing the position information of the optical disc storage box and the rotating disc type optical disc box stored inside the optical disc storage box.

Furthermore, the position indicator lamps are arranged on the outer side of the off-line tray, and the two position indicator lamps respectively correspond to the rotating disc type optical disc boxes stored in the two optical disc storage boxes and are connected with the JPIO interface through signal wires; when a rotating disc type disc box is selected in the off-line storage management system, the system sends the ID information corresponding to the selected rotating disc type disc box to the POE exchanger, the POE exchanger sends the received ID information corresponding to the rotating disc type disc box to the embedded main board through the signal wire and the POE interface, and the embedded main board automatically identifies the ID of the rotating disc type disc box stored in the disc storage box and triggers the position indicator light corresponding to the rotating disc type disc box stored in the disc storage box through the JPIO interface and the signal wire.

Furthermore, the limiting devices are arranged on the left side and the right side of one side of the offline tray and close to one side of a cabinet door of the standard cabinet, and the offline tray is locked through the limiting devices.

Furthermore, the optical disc storage box is provided with an electronic lock for controlling the opening and closing operation of the top cover of the optical disc storage box, so as to ensure the physical security of the optical disc medium in the optical disc storage box.

Furthermore, a circular groove is arranged at the bottom inside the optical disk storage box, and the size of the circular groove is matched with that of the rotating disk type optical disk box for vertically storing the optical disk in the prior art, so that the rotating disk type optical disk box for vertically storing the optical disk in the prior art in the market is just placed in the optical disk storage box.

Furthermore, the rack type off-line optical disc management equipment can be used independently, can also be managed in a unified manner with the existing rotating disc type optical disc library in the same standard cabinet, is flexible in combination and intensive in deployment, and can meet various user requirements.

Furthermore, the rack-mounted offline optical disc management device supports individual offline query and retrieval of information of the optical disc storage box, the optical disc box and the optical disc stored inside; and the information of the optical disk storage box, the optical disk box and the optical disk can be inquired and retrieved in real time by wireless equipment such as iPad and the like through the WIFI module of the embedded mainboard.

Because the utility model discloses an above technical scheme, the technological effect of its production is obvious:

the method can store the unused rotating disc type optical disc box in the prior art, quickly search the rotating disc type optical disc box and the optical disc storage box and read related information, improve the working efficiency of workers, save the management cost and maximally solve the problem of resource utilization.

By adopting a rack-type structural design, the equipment shell which is correspondingly matched is not required to be developed and produced according to the storage capacity, the existing standard equipment cabinet is utilized, the installation is simple, and the cost is reduced.

The optical disk storage box is flexible in deployment, supports independent and combined modes, can deploy the off-line tray and the optical disk storage box as required, and is convenient to expand.

The management is flexible, and the optical disk library management system can be used independently and can be managed together with the rotating disk type optical disk library; and supports wireless and wired real-time query and retrieval modes; the working efficiency and the management cost of the user in different use environments are improved.

Drawings

The specific structure of the present invention is further illustrated by the following embodiments and the accompanying drawings.

Fig. 1 is a schematic perspective view of the overall structure of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an embodiment of the off-line tray of the present invention.

Fig. 3 is a vertical plan view of an embodiment of the off-line pallet of the present invention.

Fig. 4 is a schematic structural diagram of an embodiment of the optical disc storage box of the present invention.

Fig. 5 is a block diagram of an application system according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of another embodiment of the present invention.

Detailed Description

Please refer to fig. 1, wherein fig. 1 is a schematic perspective view of an overall structure of an embodiment of the present invention. The utility model relates to a rack-type off-line CD management device, which comprises a standard rack 1, an off-line tray 2 and a CD storage box 3; the optical disc storage box 3 is put in or taken out as an integral optical disc storage unit and is managed in the rack-type off-line optical disc management device.

The offline trays 2 are arranged in the standard cabinets 1 in a layered mode, and one to nine offline trays 2 can be optionally arranged on one standard cabinet 1 according to needs; the off-line tray 2 comprises a positioning fixing groove 21, an RFID card reader 22, an embedded main board 23,

position indicating lamps

241 and 242, a sliding rail 25 and

stoppers

261 and 262; the off-line tray 2 can be used for placing two optical disc storage boxes 3; the slide rails 25 are disposed on both sides of the off-line tray 2, and the optical disc storage box 3 is taken and placed by a push-and-pull operation.

The optical disc storage box 3 is provided with an electronic lock 33 for controlling the opening and closing operation of the top cover of the optical disc storage box 3, so as to ensure the physical security of the optical disc medium in the optical disc storage box 3.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an embodiment of an offline tray according to the present invention. The positioning fixing grooves 21 of the utility model are evenly distributed on the left and right sides of the surface of the off-line tray 2, and four positioning fixing grooves 21 are respectively distributed on the left and right sides of the surface of the off-line tray 2 in an array way; the four positioning fixing grooves 21 can be exactly provided with one optical disc storage box of the present invention, and the concave surfaces of the positioning fixing grooves 21 are exactly adapted to the convex angle at the bottom of the optical disc storage box of the present invention, so as to fix the optical disc storage box; the inner space of the optical disk storage box can accommodate a rotating disk type optical disk box which is used for vertically storing optical disks in the prior art in the market.

The RFID card readers 22 of the present invention are distributed on the surface of the off-line tray 2 in an array, and the RFID card readers 22 acquire the position information of the rotating disc type optical disc cartridge stored in the optical disc storage box right above the RFID card readers 22 in real time by continuously recognizing the RFID tag at the bottom of the rotating disc type optical disc cartridge stored in the optical disc storage box; two RFID card readers 22 are arranged on the off-line tray 2.

Embedded mainboard 23 set up the central point of 2 bottoms of off-line tray put, embedded mainboard 23 be provided with JPIO interface 231 and POE interface 232, JPIO interface 231 pass through signal conductor respectively with two RFID card reader 22 and two

position indicator

241 and 242 link to each other, POE interface 232 pass through signal conductor and POE switch link to each other. The embedded motherboard 23 sends the position information of the rotating disc type cd box stored inside the cd storage box acquired by the two RFID card readers 22 on the offline tray 2 to the POE switch through the signal wire and the POE interface 232, and then sends the position information of the rotating disc type cd box stored inside the cd storage box to the offline storage management system on the computer through the POE switch, and the offline storage management system establishes a set of database containing the position information of the cd storage box and the rotating disc type cd box stored inside the cd storage box.

The

position indicator lamps

241 and 242 are disposed outside the offline tray 2, and the two

position indicator lamps

241 and 242 respectively correspond to two rotating disc type disc cartridges stored in the disc storage box and are connected to the JPIO interface 231 through a signal wire; when a rotating disc type disc box is selected in the offline storage management system, the system sends the ID information corresponding to the selected rotating disc type disc box to the POE exchanger, the POE exchanger sends the received ID information corresponding to the rotating disc type disc box to the embedded main board 23 through the signal wire and the POE interface 232, and after the embedded main board 23 automatically identifies the ID of the rotating disc type disc box stored in the disc storage box, the

position indicating lamps

241 and 242 corresponding to the rotating disc type disc box stored in the disc storage box are triggered to light through the JPIO interface 231 and the signal wire.

Please refer to fig. 2 and fig. 3, wherein fig. 3 is a vertical plan view of an embodiment of the offline tray of the present invention. Stopper 261 and 262 set up and be in the utility model off-line tray 2 the left and right sides on one side and be close to cabinet door one side of standard rack, through

stopper

261 and 262 locking off-line tray 2.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an embodiment of an optical disc storage box according to the present invention. CD storage box 3 be provided with an electronic lock 31, control the operation of opening and shutting of top cap 32 of CD storage box 3 ensures the entity safety of CD medium in the CD storage box 3. The bottom inside the optical disc storage box 3 is provided with a circular groove 33, and the circular groove 33 is adapted to the size of the rotating disc type optical disc box for vertically storing the optical disc in the prior art, so that the rotating disc type optical disc box for vertically storing the optical disc in the prior art is just placed in the optical disc storage box 3.

Referring to fig. 5, fig. 5 is a block diagram of an application system according to an embodiment of the present invention. One standard rack 1 can be selectively deployed one to nine as required offline trays 2. The RFID card readers 22 of the present invention are distributed on the surface of the off-line tray 2 in an array, and the RFID card readers 22 acquire the position information of the rotating disc type optical disc cartridge stored in the optical disc storage box right above the RFID card readers 22 in real time by continuously recognizing the RFID tag at the bottom of the rotating disc type optical disc cartridge stored in the optical disc storage box; two RFID card readers 22 are arranged on the off-line tray 2. Embedded mainboard 23 set up the central point of 2 bottoms of off-line tray put, embedded mainboard 23 be provided with JPIO interface 231 and POE interface 232, JPIO interface 231 pass through signal conductor respectively with two RFID card reader 22 and two

position indicator

241 and 242 link to each other, POE interface 232 pass through signal conductor and POE switch link to each other. The embedded motherboard 23 sends the position information of the rotating disc type cd box stored inside the cd storage box acquired by the two RFID card readers 22 on the offline tray 2 to the POE switch through the signal wire and the POE interface 232, and then sends the position information of the rotating disc type cd box stored inside the cd storage box to the offline storage management system on the computer through the POE switch, and the offline storage management system establishes a set of database containing the position information of the cd storage box and the rotating disc type cd box stored inside the cd storage box. The

position indicator lamps

241 and 242 are disposed outside the offline tray 2, and the two

position indicator lamps

position indicating lamps

Referring to fig. 6, fig. 6 is a schematic structural diagram of another embodiment of the present invention. A rack-type off-line CD management equipment's off-line tray 2 can arrange 1-9 layers, every according to user's demand off-line tray 2 on place two off-line tray 2 off-line storage box 3 to can be in same with current carousel formula CD-ROM library 4 standard rack 1 in unified management, the nimble combination, it is intensive to arrange, can satisfy multiple user's demand.

The utility model discloses a theory of operation is:

and connecting POE interfaces of the embedded main boards in the offline trays arranged on each layer in the equipment with the POE switch through signal wires respectively.

And installing offline storage management system software on the computer, and connecting the computer with the POE switch.

The method comprises the steps that an optical disk storage box provided with a rotating disk type optical disk box for vertically storing optical disks is placed on an offline tray, an RFID card reader on the offline tray identifies ID information of the rotating disk type optical disk box through an RFID label at the bottom of the rotating disk type optical disk box, and the identified information is stored in an embedded main board through a JPIO interface.

When the information of the optical disc needs to be inquired and retrieved, selecting a rotating disc type optical disc box where the optical disc needs to be inquired on the off-line storage management system software, and sending the RFID information of the selected optical disc box to the embedded main board through the POE switch and the POE interface; the embedded mainboard analyzes the position of the rotating disc type optical disc box matched with the received RFID information and lights a position indicator lamp corresponding to the rotating disc type optical disc box.

The utility model can store the unused rotating disc type optical disc box in the prior art, quickly search the rotating disc type optical disc box and the optical disc storage box and read the relevant information, thereby improving the working efficiency of the working personnel, saving the management cost and solving the resource utilization problem to the maximum extent; the system is flexible in deployment and simple in installation, supports various combinations and interconnection management modes, and can meet application requirements of different users in different scenes.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made according to the claims of the present invention should be included in the scope of the present invention.

Claims

1. A rack-type off-line optical disk management device is characterized by comprising a standard cabinet, an off-line tray and an optical disk storage box;

the optical disk storage box is taken as an optical disk integral storage unit and is put into or taken out of the rack type off-line optical disk management equipment for unified management;

the offline trays are hierarchically deployed in the standard cabinets, and one standard cabinet can be selectively deployed with one to nine offline trays according to needs; the off-line tray comprises a positioning fixing groove, an RFID card reader, an embedded main board, a slide rail, a position indicator lamp and a limiter; the off-line tray can be used for placing two optical disc storage boxes; the slide rails are arranged on two sides of the off-line tray, and the optical disc storage box is taken and placed through push-pull operation.

2. The rack-mounted offline optical disc management apparatus of claim 1,

the positioning fixing grooves are uniformly distributed on the left side and the right side of the surface of the off-line tray in an array mode, and four positioning fixing grooves are distributed on the left side and the right side of the surface of the off-line tray in an array mode; the concave surface of the positioning fixing groove is just matched with the convex angle at the bottom of the optical disk storage box so as to fix the optical disk storage box; the inner space of the optical disk storage box can accommodate a rotating disk type optical disk box which is used for vertically storing optical disks in the prior art in the market.

3. The rack-mounted offline optical disc management apparatus of claim 1,

the RFID card reader array is distributed on the surface of the off-line tray, and the RFID card reader acquires the position information of the rotating disc type optical disc box stored in the optical disc storage box right above the RFID card reader in real time by continuously identifying the RFID label at the bottom of the rotating disc type optical disc box stored in the optical disc storage box; the off-line tray is provided with two RFID card readers.

4. The rack-mounted offline optical disc management apparatus of claim 1,

embedded mainboard setting be in the central point of off-line tray bottom put, embedded mainboard be provided with JPIO interface and POE interface, JPIO interface pass through signal conductor respectively with two RFID card reader and two position indicator link to each other, POE interface pass through signal conductor and POE switch link to each other.

5. The rack-mounted offline optical disc management apparatus of claim 4,

the embedded main board sends the position information of the rotating disc type disc box stored in the disc storage box acquired by the two RFID card readers on the offline tray to the POE exchanger through a signal wire and the POE interface, and then sends the position information of the rotating disc type disc box stored in the disc storage box to an offline storage management system on a computer through the POE exchanger, and the offline storage management system establishes a set of database containing the position information of the disc storage box and the rotating disc type disc box stored in the disc storage box.

6. The rack-mounted offline optical disc management apparatus of claim 4,

the position indicator lamps are arranged on the outer side of the off-line tray, and the two position indicator lamps respectively correspond to the rotating disc type optical disc boxes stored in the two optical disc storage boxes and are connected with the JPIO interface through signal wires; when a rotating disc type disc box is selected in the off-line storage management system, the system sends the ID information corresponding to the selected rotating disc type disc box to the POE exchanger, the POE exchanger sends the received ID information corresponding to the rotating disc type disc box to the embedded main board through the signal wire and the POE interface, and the embedded main board automatically identifies the ID of the rotating disc type disc box stored in the disc storage box and triggers the position indicator light corresponding to the rotating disc type disc box stored in the disc storage box through the JPIO interface and the signal wire.

7. The rack-mounted offline optical disc management apparatus of claim 1,

the limiting devices are arranged on the left side and the right side of one side of the off-line tray and close to one side of a cabinet door of the standard cabinet, and the off-line tray is locked through the limiting devices.

8. The rack-mounted offline optical disc management apparatus of claim 1,

the optical disk storage box is provided with an electronic lock which controls the opening and closing operation of the top cover of the optical disk storage box, and the physical safety of the optical disk medium in the optical disk storage box is ensured.

9. The rack-mounted offline optical disc management apparatus of claim 1,

the bottom inside the optical disk storage box is provided with a circular groove, and the circular groove is matched with the size of a rotating disk type optical disk box for vertically storing optical disks in the prior art in the market, so that the rotating disk type optical disk box for vertically storing optical disks in the prior art is just placed into the optical disk storage box.

10. The rack-mounted offline optical disc management apparatus of any one of claims 1 to 9,

the optical disk library management system can be used independently, can be uniformly managed in the standard cabinet together with the existing rotating disk type optical disk library, is flexible in combination and intensive in deployment, and can meet various user requirements.

11. The rack-mounted offline optical disc management apparatus of any one of claims 1 to 9,

the information of the optical disk storage box, the optical disk box and the optical disk stored in the optical disk storage box, the optical disk box and the optical disk is searched and retrieved independently in an off-line manner; and the information of the optical disk storage box, the optical disk box and the optical disk can be inquired and retrieved in real time by the iPad wireless equipment through the WIFI module of the embedded mainboard.