CN1801382A - Optical recording media cartridge - Google Patents

Abstract

An optical recording media cartridge includes an optical recording medium, an upper frame facing a first surface of the optical recording medium, the optical recording medium rotatably coupled to the upper frame, and a lower frame facing a second surface of the optical recording medium, the lower frame being slidably coupled to the upper frame.

Description

Optical recording media cartridge

Technical field

The present invention relates to a kind of optical recording media cartridge.

Background technology

In recent years, corresponding with the trend of the miniaturization of electrical equipment and graceful moulding, optical recording media cartridge was miniaturized.Therefore, the driver of optical memory that is used to drive the dish of coin-size is developed, and makes it can be applied to subminiature electrical equipment.

In order to improve its portability, the whole dimension of the driver of optical memory must be reduced.Especially, the driver of optical memory must be designed to standard compliant thickness, so that it can be applied to portable electronics.

Simultaneously, the thickness of the standard of Chang Gui storage card is 5mm.Therefore, kneetop computer and PDA(Personal Digital Assistant) are designed to have the adapter structure of conformance with standard thickness.In order to make the standard compliant thickness of driver of optical memory, tiny Spindle Motor and the exploitation with cartridge of little thickness are special needs.

As shown in FIG. 1, the tray salver of prior art comprises: information-stored disk 102 is mounted shell 101 wherein and is installed in slide plate 103 on shell 101 parts, optionally the part of exposure dish 102.When tray salver is inserted in the CD drive and slide plate 103 when being opened, window 104 is defined on the initial sledge displacement, and with the part of exposure dish 102, optical system is positioned on this position.

As shown in FIG. 2, the shell 101 of tray salver 105 comprises upper and lower framework 101a and 101b.Little gap is defined between dish 102 and upper and lower framework 101a and the 101b.Hub (hub) 107 is formed on dish 102 central authorities, and exposes the outside, thus with the CD-ROM drive motor engagement of rolling disc 102.

The thickness of above-mentioned tray salver 105 is by the thickness of upper and lower framework 101a and 101b, the thickness of dish 102, and between dish 102 and shell 101 qualification provide the operating space in required space to determine for coiling 102 rotation.Consider possibility, the whole tolerance of intensity, the injection molding of each element and coil 102 landing and tilt to determine the operating space of tray salver 105.

That is, tray salver 105 is designed like this: framework encirclement dish 102, and with protective disc 102, and slide plate 103 must be installed into the optionally predetermined part of exposure dish 102, thus the information that is stored in the dish 102 by the exposed portions visit is possible.Therefore, tray salver 105 is designed to like this: when tray salver 105 was inserted into and is enclosed in the driver, slide plate 103 was opened, and when tray salver 105 was taken out from driver, slide plate 103 was closed.

Yet automatically the slide plate 103 of opening/closing shell 101 must be equipped with the skateboard spring recovered part.In addition, the whole thickness of tray salver 105 increases according to the thickness of slide plate 103.

Therefore, for above-mentioned reasons, be difficult to reduce the thickness of tray salver 105, tray salver 105 must be by subminiature size design.That is, reducing to have limitation aspect the physical size of driver.

Summary of the invention

Therefore, the present invention will provide a kind of optical recording media cartridge, and this optical recording media cartridge has fully been eliminated the one or more problems that cause owing to the limitation of prior art and shortcoming.

An object of the present invention is to provide a kind of optical recording media cartridge that can be designed to the microminiature size.

Another object of the present invention provides a kind of optical recording media cartridge that forms with simple structure.

Additional advantage of the present invention, purpose and feature, a part will be illustrated in explanation subsequently, and, to those skilled in the art, a part can perhaps can figure out from the practice of the present invention to becoming very clear the examination hereinafter.Purpose of the present invention and other advantage can realize by the structure that particularly points out in the instructions write and claims and the accompanying drawing thereof and obtain.

In order to obtain these purposes and other advantage and,, to provide a kind of optical recording media cartridge here, comprising: optical recording media as concrete and broadly described according to purpose of the present invention; Towards the upper frame of the first surface of this optical recording media, this optical recording media is pivotally connected to upper frame; With the underframe towards the second surface of optical recording media, this underframe is connected to upper frame slidably.

In another technical scheme of the present invention, a kind of optical recording media cartridge is provided, comprising: optical recording media; Towards the upper frame of the first surface of this optical recording media, this optical recording media is pivotally connected to upper frame; With first and second underframes towards the second surface of optical recording media, first and second underframes are connected to upper frame slidably.

In another technical scheme of the present invention, a kind of optical recording media cartridge is provided, comprising: optical recording media; Be connected to first framework of optical recording media; Be connected to second framework of first framework slidably, optionally to expose the diameter parts of optical recording media.

Be appreciated that the general remark of front of the present invention and the detailed description of back are examples and indicative, and, aim to provide of the present invention further explanation to being advocated.

Description of drawings

Being used to of comprising the invention provides further understanding and is included in the application, constitutes the accompanying drawing of the application's part, and embodiments of the invention are described, and, with instructions, be used to explain principle of the present invention, in the drawings:

Fig. 1 and 2 is the view according to the cartridge of prior art;

Fig. 3 to 5 is the views according to the optical recording media cartridge of the first embodiment of the present invention; With

Fig. 6 to 8 is the views according to the optical recording media cartridge of the second embodiment of the present invention.

Embodiment

Now, preferred embodiment of the present invention is described in detail, its example is shown in the drawings.As much as possible, in whole accompanying drawing, use identical reference number to refer to identical or similar parts.

In the following embodiments, so that be example with the tray salver of the CD of one of optical recording media.Yet optical recording media of the present invention is not limited to CD.

Fig. 3 explanation is according to the view of the optical recording media cartridge of the first embodiment of the present invention.

With reference to figure 3, tray salver 200 comprises: upper frame 210, first underframe 220, second underframe 230 and coil 240.In the explanation of this first embodiment, dish 240 is taken as CD.

Dish 240 is the digital information storage mediums that can use optical means record and read data.For example, dish 240 is formed by acrylic acid (acryl) resin substrates, and plated metal aluminium for example on this acryl resin substrate is with definite recording layer.By means of detecting reflection or the emission light that obtains to the track that is formed on the recording layer by irradiating laser, the data of record can be read.

Upper frame 210 is to be formed by the template material of determining shell.The shell of the dish of similar routine, upper frame 210 forms rectangular shape.Dish 240 is rotatably mounted on the bottom of upper frame 210.Two parallel orbital grooves 212 are formed on two marginal portions of upper frame 210.

In Fig. 3, upper frame 210 be indicated on underframe 220 and 230 below.This only is the convenience in order to illustrate.

According to tray salver 200 and state in opposite states illustrated in fig. 3, the tray salver 200 of first embodiment can be inserted in the driver.

The size of first underframe 220 is to cover from the end of upper frame 210 to the zone of the mandrel segment 242 of dish 240, and is connected to upper frame 210 slidably.

That is, first underframe 220 forms rectangular shape, and, be designed to expose mandrel segment 242, thereby dish can accessed and scanning in driver.With respect to the end in spring section 242 zones, upper frame 220 is divided into the 220 and second underframe zone 230, first underframe zone.

First underframe 220 forms with the window structure that slides, thereby the part of the dish 240 of the outer end from mandrel segment 242 to dish can optionally be exposed.

Fig. 3 has represented the operation by first underframe 220, exposes the state of the diameter parts of mandrel segment 242 and dish 240.

First underframe 220 is partly determined the dish 240 dish seat spaces (disk seatingspace) 224 that are positioned wherein.The dish neonychium can be inserted into.Dish seat space 224 forms semicircle corresponding to the periphery of dish 224.

The size of second underframe 230 is such: when first underframe 220 was closed, it can be in abutting connection with the remainder of first underframe 220 and encirclement dish 240.Second underframe 230 is fixedly joined to upper frame 210, to determine remaining dish seat space.

Dish seat space 224 is designed so that the thickness minimum of tray salver 200.

Fig. 4 represents to illustrate the skeleton view according to the amplification of the connection status of the orbital groove 212 of the tray salver 200 of first embodiment and hook component 222, and Fig. 5 represents to illustrate the connection status partial cross section figure according to the tray salver 200 of first embodiment.

With reference to Figure 4 and 5, two parallel orbital grooves 212 are formed on the relative bottom margin part of upper frame 210.Orbital groove 212 is designed to: when first underframe 220 is opened, has and can expose the length of the part of mandrel segment 242 at least.

Orbital groove 212 have according to "-part that shape forms, play the effect that allows underframe 220 to be slidingly attached to the guide rail of upper frame 210.

In addition, hook component 222 is formed on the upper surface of first underframe 220, corresponding to orbital groove 212.Hook component 222 is inserted in the orbital groove 212 slidably.By hook component 222,, open and close first underframe 220 with respect to upper frame 210.

Be similar to orbital groove 212, each hook component 222 have according to "-part that shape forms, with slidably with corresponding orbital groove 212 engagements.

The position of orbital groove 212 and hook component 222, structure and quantity can be changed.For example, orbital groove 212 can be formed on first underframe 220, and hook component 222 can be formed on the upper frame 210.

When the tray salver 200 that uses according to the first embodiment of the present invention, the hook component 222 of first underframe 220 can break away from orbital groove 212.In addition, when the tray salver 200 according to the first embodiment of the present invention is inserted in the disk drive and when accessed, first underframe 220 can move, and the predetermined surface of insufficient exposure dish 240.

Consider above-mentioned reason, preferably, when first underframe 220 was opened or closed, first underframe 220 flexibly was installed to upper frame 210.Elasticity is installed and can be realized by fastening (snap-fit) structure.

That is, two fastening otch (undersized groove) 214 can be formed on the upper surface of first underframe 220, and separate mutually according to predetermined distance.This is for when first underframe 220 is opened or closed, and first underframe 220 flexibly is installed to upper frame 210.

When first underframe 220 is opened, fasten identical between distance and first and second underframes 220 and 230 between the otch 214 apart from d1.

Fasten projection (undersized outshot) 226 and be formed on the lower surface of upper frame 210,, install with one of fastening otch 214 elasticity along with the slip of first underframe 220.

Tray salver according to the second embodiment of the present invention is described referring now to accompanying drawing.

Fig. 6 represents to illustrate the skeleton view according to the connection status of the tray salver 300 of the second embodiment of the present invention.

With reference to figure 6, the tray salver 300 of this embodiment comprises: upper frame 310, first underframe 320, second underframe 330 and coil 340.Except second underframe 330 and first underframe 320 were opened and closed, the tray salver 300 and first embodiment's was similar.

Upper frame 310 is to be formed by the template material of determining shell.The shell of the dish of similar routine, upper frame 310 forms rectangle.Dish 340 is rotatably mounted on the bottom of upper frame 310.Two pairs of parallel orbital grooves 312 are formed on two marginal portions of upper frame 310.

First and second underframes 320 and 330 are equipped with hook component 322 and 332 respectively, and they mesh with orbital groove 213 slidably, thereby determine the moving window structure.First and second underframes 320 and 330 size correspond respectively to first and second half the upper frame of dividing according to mandrel segment 342 310.

Promptly, because first and second underframes 320 and 330 both left mandrel segment 342 and opened, to expose mandrel segment 342, even when first and second underframes 320 and 330 slide with short length, also can obtain enough exposed regions, thereby dish can accessed and scanning in driver.In addition, because the inner space of disk drive can obtain on subregion ground, so it is easy that the structural design of driver becomes.

First and second underframes 320 and 330 determine that respectively dish is positioned dish seat space 324 and 334 wherein.When first and second underframes 320 and 330 are closed, to determine dish seat space 324 and 334 corresponding to the semicircular in shape of each half dish.

Dish seat space 324 and 334 is designed such that the thickness minimum of tray salver 300.

Fig. 7 represents to illustrate according to the orbital groove 312 of the tray salver 300 of second embodiment and the skeleton view of the amplification of the connection status of hook component 322 and 332, and Fig. 5 represents to illustrate the connection status partial cross section figure according to the tray salver 300 of the second embodiment of the present invention.

With reference to figure 6 to 8, the parallel orbital groove 312 of two couples that is formed on the upper frame 310 is designed to: when first and second underframes 320 and 330 are opened, respectively have and can expose the length of the part of mandrel segment 342 at least.

Orbital groove 312 have according to "-part that shape forms, play the effect that allows first and second underframes 320 to be slidingly attached to the guide rail of upper frame 310.

In addition, hook component 322 and 332 is formed on separately first and second underframes 320 and 330, corresponding to orbital groove 312. Hook component 322 and 332 is inserted in the orbital groove 312 slidably.

Be similar to orbital groove 312, each hook component 322 and 332 have according to "-part that shape forms, with slidably with corresponding orbital groove 312 engagements.

The position of orbital groove 312 and hook component 322 and 332, structure and quantity can be changed.For example, orbital groove 312 can be formed on first underframe 320, and hook component 322 and 332 can be formed on the upper frame 310.

Be similar to first embodiment, preferably, first and second underframes 320 and 330 are snapped onto upper frame 310.

That is, two pairs fasten otch 314 and can be formed on separately first and second underframes 320 and 330 upper surface, and separate mutually according to predetermined distance.

When first and second underframes 320 and 330 are opened, this identical between the center that fastens each and axle 342 in distance and first and second underframes 320 and 330 between the otch 314 apart from d2.

Two fasten projections 326 and 336 and are formed on the lower surface of upper frame 310, along with first and second underframes 320 and 330 slide to fastening between the otch 314 at this, with each to fastening a fastening in the otch 314.

To those skilled in the art, can carry out different modifications and variations to the present invention will be obviously.Therefore, the present invention be intended to cover fall in claims scope and the full scope of equivalents thereof to modifications and variations of the present invention.

Claims (19)

1, a kind of optical recording media cartridge comprises:

Optical recording media;

Towards the upper frame of the first surface of this optical recording media, optical recording media is pivotally connected to upper frame; With

Towards the underframe of the second surface of this optical recording media, underframe is connected to upper frame slidably.

2, according to the optical recording media cartridge of claim 1, wherein, this upper frame is provided with orbital groove, and underframe is provided with the hook component with this orbital groove engagement.

3, according to the optical recording media cartridge of claim 1, wherein, this underframe comprises first underframe that is connected to upper frame slidably and second underframe that is fixedly attached to upper frame.

4, according to the optical recording media cartridge of claim 1, wherein, along with underframe slides, the mandrel segment of optical recording media and the part of second surface are exposed.

5, according to the optical recording media cartridge of claim 1, wherein, underframe is provided with optical recording media seat part, and the optical recording media seat partly forms the shape corresponding to optical recording media.

6, according to the optical recording media cartridge of claim 1, wherein, upper frame is provided with optical recording media seat part, and the optical recording media seat partly forms the shape corresponding to optical recording media.

7, according to the optical recording media cartridge of claim 1, wherein, one in the upper and lower framework is provided with the fastening projection, and another of upper and lower framework is provided with the fastening otch.

8, a kind of optical recording media cartridge comprises:

Optical recording media;

Towards the upper frame of the first surface of this optical recording media, optical recording media is pivotally connected to upper frame; With

Towards first and second underframes of the second surface of optical recording media, first and second underframes are connected to upper frame slidably.

9, according to the optical recording media cartridge of claim 8, wherein, this upper frame is provided with orbital groove, and each in first and second underframes is provided with the hook component with the orbital groove engagement.

10, according to the optical recording media cartridge of claim 8, wherein, along with first and second underframes slide, the mandrel segment of optical recording media and the part of second surface are exposed.

11, according to the optical recording media cartridge of claim 8, wherein, first and second underframes are provided with optical recording media seat part, and this optical recording media seat partly forms the shape corresponding to optical recording media.

12, according to the optical recording media cartridge of claim 8, wherein, upper frame is provided with optical recording media seat part, and the optical recording media seat partly forms the shape corresponding to optical recording media.

13, a kind of optical recording media cartridge comprises:

Optical recording media;

Be connected to first framework of optical recording media; With

Be connected to second framework of first framework slidably, optionally to expose the diameter parts of optical recording media.

14, according to the optical recording media cartridge of claim 13, wherein, the part of second framework is fixedly connected to first framework, and the other parts of second framework are connected to first framework slidably.

15, according to the optical recording media cartridge of claim 13, wherein, first framework is towards the first surface of optical recording media, and second framework is towards the second surface of optical recording media.

16, according to the optical recording media cartridge of claim 13, wherein, first framework is provided with orbital groove, and second framework is provided with the hook component with this orbital groove engagement.

17, according to the optical recording media cartridge of claim 13, wherein, along with second framework slides, the mandrel segment of optical recording media is exposed.

18, according to the optical recording media cartridge of claim 13, wherein, first framework is provided with optical recording media seat part, and this optical recording media seat partly forms the shape corresponding to optical recording media.

19, according to the optical recording media cartridge of claim 13, wherein, second framework is provided with optical recording media seat part, and this optical recording media seat partly forms the shape corresponding to optical recording media.

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