CN101582271B

CN101582271B - Optical disk receiving device

Info

Publication number: CN101582271B
Application number: CN2008100981384A
Authority: CN
Inventors: 吴盛玮; 张顺富
Original assignee: Daxon Technology Inc
Current assignee: BenQ Materials Corp
Priority date: 2008-05-15
Filing date: 2008-05-15
Publication date: 2010-09-15
Anticipated expiration: 2028-05-15
Also published as: CN101582271A

Abstract

An optical disk receiving device is suitable for equipment to receive a plurality of optical disks, wherein each optical disk is provided with a through hole. The optical disk receiving device comprises a receiving unit and a supporting rod. The receiving unit is provided with a column body which can be just penetrated through the through holes, a bearing part connected with one end of the column body and a groove which extends from one end of the column body to the other end of the column body far away from the bearing part. One end of the support rod is suitable for being assembled to equipment, and the other end of the support rod penetrates through the groove to support the receiving unit. The optical disk receiving device of the invention not only can simplify the split charging operation of the optical disk, save the labor cost, but also can reduce the probability of scratching the optical disk, thereby improving the product percent of pass of the optical disk.

Description

Disc receiving device

Technical field

The present invention relates to a kind of disc receiving device (optical disk receivingdevice), and particularly relate to a kind of disc receiving device that is applied to the equipment (apparatus) in the discs technology.

Background technology

Compare with traditional magnetic storing media, the optics storing media have storage volume big, preserve easily, the low advantage such as infringement that is difficult for data of storage life limit for length, with low cost, error rate.Therefore, the optics storing media becomes one of indispensable storing media of modern gradually.

In general, discs can be earlier at patterns such as surface printing trade marks after completing.These discs can be received on the stock column, carry out the packing operation so that these discs are delivered to bagging area.Yet, no matter be nude film or the discs of printing, operator is when carrying out the packing operation, these discs that are received on the stock column can be removed earlier, to calculate the quantity of discs, then these discs are filled in the CD receiving box with the predetermined quantity branch, and the CD receiving box are wrapped up, to finish package handling with wrapping paper and heat shrinkage film.

It should be noted that the external diameter of stock column can be significantly less than the aperture of the perforation at discs center usually, the external diameter of the cylinder at CD receiving box center then is the perforation that just can pass discs.Therefore, these discs that are received on the stock column are difficult to directly be received in the CD receiving box.In the prior art, calculate discs quantity, packing and package handling and all must carry out, and can need more operator, and then improve human cost in manually-operated mode.In addition, in calculate discs quantity and the process of carrying out the packing operation with manually-operated, also may cause the scratch on discs surface, and then reduce the product percent of pass of discs.

Summary of the invention

The invention provides a kind of disc receiving device, required human cost when reduce making discs.And the product percent of pass of raising discs.

The invention provides a kind of disc receiving device, be applicable on printing equipment or the burst equipment, to receive the multi-disk optical disk sheet, wherein each discs has perforation.Disc receiving device comprises receiving element and support bar.The end that receiving element has the cylinder that just can be arranged in these discs central hole, be connected in cylinder is in order to the supporting part of placing discs and the groove that extended towards the other end that is away from supporting part of cylinder by an end of cylinder.One end of support bar is suitable for the equipment of being assembled to, and the other end of support bar is arranged in the groove, to support receiving element.

In one embodiment of the invention, above-mentioned disc receiving device also comprises guide cone.The end that is away from supporting part that guide cone is disposed at cylinder passes these discs with guide cylinder, and then these discs are carried on the supporting part.

In one embodiment of the invention, above-mentioned disc receiving device also comprises first magnetic element and second magnetic element.First magnetic element configurations is arranged in a end in the groove in support bar, and second magnetic element configurations is in guide cone.Guide cone is held in an end that is away from supporting part of cylinder by the magneticaction between first magnetic element and second magnetic element.In addition, the first above-mentioned magnetic element is permanent magnet or electromagnet, and second magnetic element is permanent magnet or ferrimagnet.And, the material of above-mentioned ferrimagnet comprise iron, cobalt, nickel and samarium at least one of them.

In one embodiment of the invention, above-mentioned support bar also has the pedestal that is suitable for the equipment of being assembled to.

In one embodiment of the invention, above-mentioned disc receiving device also comprises the support plate and first adjusting mechanism.Support plate is connected in support bar, with the carrying receiving element, and by being held on the support bar first adjusting mechanism and cooperating of support bar.Moreover above-mentioned support bar also has external thread, and first adjusting mechanism comprises sleeve and screw, and its center has internal thread.Jacket casing is located at support bar, and has first screw.Screw is screwed together in first screw, and props up support bar, so that sleeve is remained on the support bar.In addition, above-mentioned support bar also has second adjusting mechanism in order to the length of adjusting this support bar, and comprises first, second portion and third part.First has the chute and second screw.Chute is extended towards the other end of first by an end of first, and the other end of first is suitable for the equipment of being assembled to.Second screw runs through the sidewall of first, and second adjusting mechanism passes second screw and props up second portion.One end of second portion is slidedly arranged in the chute, and the other end of second portion and an end of third part are connected in the relative both sides of support plate.The other end that is away from support plate of third part is arranged in the groove.

Because disc receiving device of the present invention has guide cone, so when disc receiving device was assembled on the equipment, these discs can directly be received in the receiving element.

For above-mentioned feature and advantage of the present invention can be become apparent, hereinafter list preferred embodiment especially, and in conjunction with the accompanying drawings, be described in detail below.

Description of drawings

Fig. 1 is the structural representation of disc receiving device according to an embodiment of the invention.

Fig. 2 is the exploded view of Fig. 1.

Fig. 3 is the stereographic map of Fig. 2.

Fig. 4 is the exploded view of disc receiving device according to another embodiment of the present invention.

Fig. 5 is the exploded view according to the disc receiving device of further embodiment of this invention.

Embodiment

Fig. 1 is the structural representation of disc receiving device according to an embodiment of the invention, and Fig. 2 is the exploded view of Fig. 1, and Fig. 3 is the stereographic map of Fig. 2.With reference to Fig. 1, disc receiving device 100A is suitable for the equipment of being assembled to 200 earlier, to receive the discs 300 of multi-disc via equipment 200 packing.In order to simplify accompanying drawing, a slice discs only is shown among Fig. 1, and the part-structure of equipment 200 only schematically is shown.Yet in other unshowned embodiment, disc receiving device 100A can also be assembled to burst equipment or other and be applied to equipment in the discs technology.

With reference to Fig. 2 and Fig. 3, disc receiving device 100A comprises receiving element 110, support bar 120A and guide cone 130.Receiving element 110 for example is the CD receiving box that is commonly called as to the pudding bucket, and it can be in order to receive discs 300.Wherein, each discs 300 has perforation 310.

Receiving element 110 has cylinder 112, supporting part 114 and groove 116.The external diameter of cylinder 112 is slightly less than the aperture of the perforation 310 of discs 300, so that cylinder 112 just can pass the perforation 310 of these discs 300.Supporting part 114 is connected in an end 112a of cylinder 112, and it can be in order to carry these discs 300.Groove 116 is extended towards the other end 112b that is away from supporting part 114 of cylinder 112 by an end 112a of cylinder 112.

Moreover support bar 120A can be made up of the body of rod 122, pedestal 124 and screw 126.Pedestal 124 is locked in an end 122a of the body of rod 122 by screw 126, so that support bar 120A can be assembled to equipment 200 (shown in Figure 1) by pedestal 124.The external diameter of one end 122b of the body of rod 122 is slightly less than groove 116, so that it can be arranged in the groove 116 by an end 122b, to support receiving element 110.

In addition, guide cone 130 is disposed at an end 112b of cylinder 112, and the external diameter of its top 130a is less than the external diameter of its bottom 130b, and the external diameter of the external diameter of its bottom 130b and cylinder 112 is roughly the same.Guide cone 130 can be passed these discs 300 in order to guide cylinder 112, and then these discs 300 can be carried on the supporting part 114 by cylinder 112 smoothly.

In the above-described embodiments, disc receiving device 100A has guide cone 130.Therefore, when disc receiving device 100A was assembled on the equipment 200, discs 300 did not need extra manpower to carry out the packing operation, can directly be received in the receiving element 110.Also therefore, the present invention reduces extra packing operation except saving human cost, more can reduce discs 300 by the probability of scratch.Therefore, the present invention can also improve the product percent of pass of discs 300.

In addition, because general printing equipment or burst equipment all can have the function of the quantity of calculating discs 300.Therefore, directly discs 300 is received in the receiving element 110, can also omits the program of the quantity of calculating these discs 300, with further saving human cost.

In this embodiment, disc receiving device 100A also can comprise first magnetic element 140 and second magnetic element 150.First magnetic element 140 and second magnetic element 150 for example all are permanent magnets, and have the S utmost point and the N utmost point respectively.The S of first magnetic element 140 and second magnetic element 150 is extremely all towards support bar 120A, and the N of first magnetic element 140 and second magnetic element 150 is extremely all towards guide cone 130.First magnetic element 140 is disposed at the end 122b of support bar 120A, and along with the end 122b of support bar 120A is arranged in the groove 116, second magnetic element 150 then is disposed at the bottom 130b of guide cone 130.At this moment, guide cone 130 can be held in an end 112b of cylinder 112 by the magneticaction between first magnetic element 140 and second magnetic element 150.

It should be noted that because the guide cone 130 among this embodiment only is held in the end 122b of support bar 120A by the magneticaction between first magnetic element 140 and second magnetic element 150.Therefore, when the quantity of these discs 300 in being received in receiving element 110 had reached predetermined quantity, operator can take off the guide cone 130 and second magnetic element 150 at an easy rate.Then, the user can take off the receiving element 110 of having filled these discs 300, and the receiving element 110 that another is empty is assembled between support bar 120A and the guide cone 130, to proceed subsequent job.Also therefore, the reusability of disc receiving device 100A is high.

In addition, in other unshowned embodiment, one of them of first magnetic element 140 and second magnetic element 150 can also be permanent magnet, another of first magnetic element 140 and second magnetic element 150 then can be made by ferrimagnet, and its material should comprise iron, cobalt, nickel and samarium at least one of them.In addition, in other unshowned embodiment, first magnetic element 140 can also be electromagnet or ferrimagnet, and second magnetic element 150 then can be a permanent magnet or made by ferrimagnet.

In addition, the disc receiving device 100A first adjusting mechanism 170A that also can comprise support plate 160 and be disposed at support plate 160 belows.Moreover support bar 120A also can have external thread 128, and the center of the first adjusting mechanism 170A can have internal thread 172.Support bar 120A passes the center of the first adjusting mechanism 170A and the center of support plate 160, and the internal thread 172 of the first adjusting mechanism 170A is screwed together in the external thread 128 of support bar 120A, so that support plate 160 is remained on the support bar 120A.Owing to can have the cylinder 112 of differing heights in order to the receiving element 110 of the discs 300 that receives varying number.Therefore, when changing receiving element 110, the user can be by adjusting the relative position between the first adjusting mechanism 170A and the support bar 120A, so that support plate 160 is carried on supporting part 114 belows of receiving element 110.

In addition, in other unshowned embodiment, support plate 160 also can have internal thread, and its internal thread is corresponding to the external thread 128 of support bar 120A.At this moment, the user can make the two tight contact by rotating the support plate 160 or the first adjusting mechanism 170A.Thus, support plate 160 can be held on the support bar 120A more firmly.

Fig. 4 is the exploded view of disc receiving device according to another embodiment of the present invention.With reference to Fig. 4, the structural similarity of the structure of the disc receiving device 100B among Fig. 4 and the disc receiving device 100A among Fig. 1 to Fig. 3.The two difference is that the structure of the first adjusting mechanism 170B of disc receiving device 100B is different from the structure of the first adjusting mechanism 170A of disc receiving device 100A.

In this embodiment, support bar 120B can not have external thread 128, and the first adjusting mechanism 170B is made up of sleeve 174 and screw 176.Sleeve 174 is sheathed on the support bar 120 slidably, and has screw 178.Screw 176 is screwed together in the screw 178, and props up support bar 120B, so that sleeve 174 is remained on the support bar 120B.

Identical, this moment, the user can be by adjusting the relative position between the first adjusting mechanism 170B and the support bar 120B, so that support plate 160 is carried on supporting part 114 belows of receiving element 110.

Fig. 5 is the exploded view according to the disc receiving device of further embodiment of this invention.With reference to Fig. 5, the structural similarity of the structure of the disc receiving device 100C among Fig. 5 and the disc receiving device 100A among Fig. 1 to Fig. 3.The two difference is that the support plate 180 of disc receiving device 100C and the structure of support bar 190 are different from the support plate 160 of disc receiving device 100A and the structure of support bar 120A.And disc receiving device 100C does not have the first adjusting mechanism 170A.

In this embodiment, support plate 180 comprises first web joint 182, second web joint 184 and in order to connect at least one screw 186 of first web joint 182 and second web joint 184, support bar 190 then comprises first 192, second portion 194, third part 196, pedestal 198 and second adjusting mechanism 199.

First 192 has the chute 1922 and second screw 1924.Chute 1922 is extended towards the other end 192b of first 192 by an end 192a of first 192, and the other end 192b of first 192 can be assembled to the equipment (not shown) by pedestal 198.Second screw 1924 runs through the sidewall 1926 of first 192.

One end 194a of second portion 194 is slidedly arranged in the chute 1922, and first web joint 182 is connected in the other end 194b of second portion 194 by screw 186.Moreover second adjusting mechanism 199 for example is a screw, and it can be screwed together in second screw 1924, and can pass second screw 1924 and prop up second portion 194.Second adjusting mechanism 199 can be in order to adjust the length of support bar 190.

Second web joint 184 is assembled on first web joint 182, and the supporting part 114 of receiving element 110 is disposed on second web joint 184.Second web joint 184 has internal thread 1842, and an end 196a of third part 196 has external thread 1962.And third part 196 can be screwed together in the internal thread 1842 of second web joint 184 by its external thread 1962, to be connected on second web joint 184.Moreover first magnetic element 140 is disposed at the other end 196b that is away from second web joint 184 of third part 196, and can be arranged in the groove 116 along with the other end 196b of third part 196.

In sum, when disc receiving device of the present invention was assembled on the equipment, discs can directly be received in the receiving element.And general printing equipment or burst equipment all have the function of calculating discs quantity, therefore, can also omit the flow process of calculating these discs quantity, to save human cost.Therefore, use disc receiving device of the present invention not only can simplify the packing operation of discs, save human cost, and, more can reduce discs by the probability of scratch, and then improve the product percent of pass of discs.

Though the present invention discloses as above with preferred embodiment; right its is not in order to limit the present invention; those of ordinary skill in the art; without departing from the spirit and scope of the present invention; when can doing a little change and modification, so protection scope of the present invention should be as the criterion with the scope of appended subsequently claim.

The main element symbol description

100A, 100B, 100C: disc receiving device

110: receiving element 112: cylinder

112a, 112b, 122a, 122b, 192a, 192b, 194a, 194b, 196a, 196b: an end

114: supporting part 116: groove

120A, 120B, 190: support bar 122: the body of rod

124,198: pedestal 126,176,186: screw

128,1962: external thread 130: guide cone

130a: top 130b: bottom

140,150: magnetic element 160,180: support plate

170A, 170B, 199: adjusting mechanism

172,1842: internal thread 174: sleeve

178,1924: screw 182,184: web joint

192: first 1922: chute

1926: sidewall 194: second portion

196: third part 200: equipment

300: discs 310: perforation.

Claims

1. An optical disc receiving device, suitable for optical disc processing equipment, to receive a plurality of optical discs, each of the optical discs has a perforation, wherein the optical disc receiving device comprises:

The receiving unit has a cylinder that can just pass through the through hole, a bearing part connected to one end of the cylinder, and a part that is located in the cylinder and is away from the one end of the cylinder toward the cylinder. a groove extending at the other end of the bearing portion; and

a support rod, one end of which is adapted to be assembled to the device, and the other end of which is passed through the groove to support the receiving unit,

Wherein, the optical disk receiving device further includes a guide cone, which is arranged at one end of the cylinder away from the bearing part, so as to guide the cylinder to pass through the through hole, so that the optical disk carried on the bearing part.

2. The optical disk receiving device according to claim 1, further comprising a first magnetic element and a second magnetic element, wherein the first magnetic element is arranged on the support rod passing through the groove one end, and the second magnetic element is arranged on the guide cone, and the guide cone is held on the column by the magnetic force between the first magnetic element and the second magnetic element one end away from the bearing part.

3. The disc receiving device according to claim 2, wherein the first magnetic element is a permanent magnet or an electromagnet, and the second magnetic element is a permanent magnet or a ferromagnetic material, or the first magnetic element The element is a ferromagnetic material, and the second magnetic element is a permanent magnet.

4. The optical disc receiver of claim 1, wherein the support rod further has a base, and the base is adapted to be assembled to the device.

5. The optical disc receiving device according to claim 1, further comprising a carrier plate, wherein the carrier plate is connected to the supporting rod to carry the receiving unit.

6. The optical disk receiving device according to claim 5, further comprising a first adjustment mechanism, wherein the carrier plate is held on the support rod through the cooperation of the first adjustment mechanism and the support rod .

7. The optical disk receiving device according to claim 6, wherein the supporting rod further has an external thread, and the center of the first adjusting mechanism has an internal thread.

8. The optical disc receiving device according to claim 6, wherein the first adjustment mechanism comprises:

a sleeve, sleeved on the support rod, and has a first screw hole; and

screw, screwed into the first screw hole, and against the support rod, so as to

The sleeve is retained on the support rod.

9. The optical disc receiving device according to claim 5, wherein the support rod further has a second adjustment mechanism for adjusting the length of the support rod, and the support rod comprises:

The first part has a chute and a second screw hole, the chute extends from one end of the first part toward the other end of the first part, and the other end of the first part is suitable for being assembled to the device, and The second screw hole runs through the side wall of the first part;

a second part, one end of which is slidably arranged in the slide groove, and the second adjusting mechanism passes through the second screw hole and abuts against the second part; and

The third part, the other end of the second part away from the chute and one end of the third part are connected to opposite sides of the carrier plate, and the other end of the third part is passed through in the groove.