CN215885157U - Bearing device with automatic quantitative moving structure for optical disk printing - Google Patents

Abstract

The utility model discloses a bearing device with an automatic quantitative moving structure for printing an optical disc, which comprises: the center of the bottom surface of the rotary table is fixedly connected with the end part of an output shaft of a rotary motor, the rotary motor is vertically arranged, the rotary motor is fixedly arranged on a fixed support, and the fixed support is fixedly connected to the bottom of the inner wall of the shell; further comprising: the positioning sleeve ring is fixedly arranged at the edge of the upper surface of the turntable and used for positioning the optical disc, the inner side of the positioning sleeve ring is provided with a limiting column which are coaxially arranged, and the bottom of the limiting column is vertically arranged on the turntable. This supporting device is used in CD printing with automatic ration removes structure, its degree of automation is higher, is provided with automatic positioning volume and removes the structure, need not the position of user's manual removal CD, has improved work efficiency, and the CD that the printing was accomplished on the remove device that the user can be convenient.

Description

Bearing device with automatic quantitative moving structure for optical disk printing

Technical Field

The utility model relates to the technical field of optical disk printing, in particular to a bearing device with an automatic quantitative moving structure for optical disk printing.

Background

The optical disc is a data information storage product, patterns and product information need to be printed on the back surface of the optical disc in the production process, and a user uses the supporting device to send the optical disc to the position below the printing nozzle.

The receiving device on the market has low automation degree, an automatic positioning amount moving structure is not arranged, a user needs to manually move the position of the optical disk, and the user is difficult to quickly take out the optical disk printed on the device.

In order to solve the above problems, an innovative design based on the original receiving device for optical disc printing is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a supporting device for printing an optical disc with an automatic quantitative moving structure, which aims to solve the problems that the supporting device for printing the optical disc in the prior art has low automation degree, an automatic quantitative moving structure is not arranged, a user needs to manually move the position of the optical disc, and the user is difficult to quickly take out the printed optical disc on the device.

In order to achieve the purpose, the utility model provides the following technical scheme: a receiving device for printing an optical disc having an automatic quantitative movement structure includes:

the center of the bottom surface of the rotary table is fixedly connected with the end part of an output shaft of a rotary motor, the rotary motor is vertically arranged, the rotary motor is fixedly arranged on a fixed support, and the fixed support is fixedly connected to the bottom of the inner wall of the shell;

further comprising:

the positioning sleeve ring is fixedly arranged at the edge of the upper surface of the turntable and used for positioning the optical disk, a limiting column is arranged on the inner side of the positioning sleeve ring and is coaxially arranged with the positioning sleeve ring, and the bottom of the limiting column is vertically arranged on the turntable;

the supporting ring is coaxially sleeved on the side wall of the limiting column and used for supporting the optical disc, a pull rod is fixedly mounted on the side wall of the supporting ring and penetrates through the positioning sleeve ring in a sliding mode.

Preferably, the positioning sleeve ring is arranged at the top of the turntable at an equal angle, 8 positioning sleeve rings are arranged at the top of the turntable at an equal angle, the side wall of the turntable is attached to the upper part of the inner wall of the shell, and the top of the positioning sleeve ring and the upper surface of the limiting column are arranged in parallel and level to facilitate the printing of the optical disc, so that a loading structure of the optical disc is formed.

Preferably, set up the vertical guide slot of symmetric distribution on the lateral wall of spacing post, and the inboard of guide slot inlays and is equipped with the slider, and both constitute slip elevation structure to 2 slider symmetries are installed in the inner wall lower part of support ring, and the ground laminating setting of support ring is in moreover the top of carousel makes the slider can remove in the guide slot.

Preferably, the bottom of the turntable is provided with grooves distributed at equal angles, a switch fixedly embedded on the turntable is arranged in each groove, and the switch and the limiting columns are coaxially arranged, so that the control ball can trigger the switch.

Preferably, the cross-section of the groove is of an arc-shaped structure, the circle center of the cross-section of the groove is located on the axis of the limiting column, the inner wall of the groove is provided with a control ball in a fitting mode, and the outer wall of the control ball is in contact with the switch, so that the control ball can be moved out of the groove.

Preferably, the control ball is coaxially installed at the top of the push rod, the push rod is slidably inserted into the inner side of the outer cylinder, a spring with an elastic reset function is fixedly connected between the bottom end of the push rod and the inner wall of the outer cylinder, and the outer cylinder is vertically installed on the inner wall of the shell, so that the spring can drive the push rod to move.

Compared with the prior art, the utility model has the beneficial effects that: the supporting device with the automatic quantitative moving structure for the optical disk printing has higher automation degree, is provided with the automatic quantitative moving structure, does not need a user to manually move the position of the optical disk, improves the working efficiency, and can be used for conveniently taking out the optical disk printed on the device;

1. the bottom of the rotary table is provided with grooves which are distributed at equal angles, switches fixedly embedded on the rotary table are arranged in the grooves, the switches and the limiting columns are coaxially arranged, the sections of the grooves are of circular arc structures, the circle centers of the sections of the grooves are located on the axes of the limiting columns, the grooves and the switches are both in contact with the outer wall of the control ball, when the rotary motor drives the rotary table to rotate, the grooves at the bottom of the rotary table synchronously move for the same angle, so that the next groove and the switch move towards the control ball, the control ball enters the next groove and is in contact with the switches, and the switches control the rotary motor to be turned off for a period of time to realize quantitative movement;

2. the top of the locating sleeve ring and the upper surface parallel and level of the limiting column are arranged so as to facilitate compact disc printing, the vertical guide grooves which are symmetrically distributed are formed in the side wall of the limiting column, the sliding blocks are embedded in the inner sides of the guide grooves, the sliding lifting structures are formed by the two sliding blocks, the 2 sliding blocks are symmetrically arranged on the lower portion of the inner wall of the supporting ring, the pull rod is fixedly arranged on the side wall of the supporting ring, when a user upwards lifts the pull rod, the pull rod drives the supporting ring to upwards move along the inner wall of the limiting column, and therefore a compact disc placed on the supporting ring is jacked up from the interior of the locating sleeve ring.

Drawings

FIG. 1 is a schematic view of the overall external structure of the present invention;

FIG. 2 is a schematic view of a turntable mounting structure of the present invention;

FIG. 3 is a schematic view of a groove mounting structure according to the present invention;

FIG. 4 is a schematic view of a push rod mounting structure of the present invention;

fig. 5 is a schematic view of a slider mounting structure according to the present invention.

In the figure: 1. a turntable; 2. a rotating electric machine; 3. fixing a bracket; 4. a housing; 5. a positioning collar; 6. a limiting column; 7. a guide groove; 8. a slider; 9. a support ring; 10. a pull rod; 11. a groove; 12. a switch; 13. a control ball; 14. a push rod; 15. an outer cylinder; 16. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a receiving device for printing an optical disc having an automatic quantitative movement structure includes:

the center of the bottom surface of the turntable 1 is fixedly connected with the end part of an output shaft of a rotating motor 2, the rotating motor 2 is vertically arranged, the rotating motor 2 is fixedly arranged on a fixed support 3, and the fixed support 3 is fixedly connected to the bottom of the inner wall of a shell 4;

further comprising:

the positioning sleeve ring 5 is fixedly arranged at the edge of the upper surface of the turntable 1 and used for positioning the optical disk, the inner side of the positioning sleeve ring 5 is provided with a limiting column 6, the positioning sleeve ring and the limiting column are coaxially arranged, and the bottom of the limiting column 6 is vertically arranged on the turntable 1;

the supporting ring 9 is coaxially sleeved on the side wall of the limiting column 6 and used for supporting the optical disc, a pull rod 10 is fixedly mounted on the side wall of the supporting ring 9, and the pull rod 10 penetrates through the positioning sleeve ring 5 in a sliding mode.

The top of the turntable 1 is equiangularly distributed with 8 positioning lantern rings 5, and the sidewall of the turntable 1 is fitted on the upper part of the inner wall of the shell 4, and the top of the positioning lantern ring 5 and the upper surface of the spacing column 6 are arranged in parallel and level for facilitating the printing of the optical disc, the sidewall of the spacing column 6 is provided with vertical guide slots 7 which are symmetrically distributed, and the inner sides of the guide slots 7 are embedded with sliders 8, both of which form a sliding lifting structure, and 2 sliders 8 are symmetrically arranged on the lower part of the inner wall of the support ring 9, and the ground of the support ring 9 is fitted on the top of the turntable 1, the user lifts the pull rod 10 upwards, at this time, the pull rod 10 drives the support ring 9 to move upwards along the spacing column 6, the sliders 8 arranged on the support ring 9 slide in the guide slots 7 synchronously, the optical disc fitted on the top of the support ring 9 will move upwards synchronously, when the optical disc is positioned above the positioning lantern ring 5 and the spacing column 6, the optical disc can be taken out.

The bottom of the rotary table 1 is provided with grooves 11 which are distributed at equal angles, the grooves 11 are internally provided with switches 12 which are fixedly embedded on the rotary table 1, the switches 12 and the limiting columns 6 are coaxially arranged, the cross sections of the grooves 11 are of circular arc structures, the centers of circles of the cross sections of the grooves 11 are arranged on the axes of the limiting columns 6, the inner walls of the grooves 11 are provided with control balls 13 in a laminating manner, the outer walls of the control balls 13 are in contact with the switches 12, the control balls 13 are coaxially arranged at the tops of the push rods 14, the push rods 14 are slidably inserted into the inner sides of the outer cylinders 15, springs 16 which have elastic reset effects are fixedly connected between the bottom ends of the push rods 14 and the inner walls of the outer cylinders 15, the outer cylinders 15 are vertically arranged on the inner wall of the shell 4, the rotary table 1 can drive the grooves 11 arranged at the bottom to move at the same angle, so that the control balls 13 move out of the grooves 11, in the process, the rotary table 1 can apply downward pressure to the control balls 13, the control ball 13 drives the push rod 14 to compress the spring 16, after the rotary table 1 rotates for a certain angle, the position of the next groove 11 coincides with that of the control ball 13, the spring 16 pushes the push rod 14 upwards through the reset action, the push rod 14 drives the control ball 13 to enter the groove 11, the control ball 13 is in contact with a switch 12 arranged in the groove 11, the switch 12 sends an instruction to the rotary motor 2 at the moment, and the rotary motor 2 is turned off.

The working principle is as follows: when the supporting device with the automatic quantitative moving structure for the optical disk printing is used, firstly, referring to fig. 1-5, a user puts an optical disk into the inner side of the positioning sleeve ring 5, so that the optical disk is sleeved on the outer side of the limiting column 6, so that the optical disk is attached to the top of the supporting ring 9, then the rotating motor 2 is started, the turntable 1 arranged on the output shaft of the rotating motor 2 synchronously rotates, the positioning sleeve ring 5 arranged on the top of the turntable 1 drives the optical disk to synchronously move, because the bottom of the turntable 1 is provided with the grooves 11 which are distributed at equal angles, the grooves 11 are internally provided with the switches 12 which are fixedly embedded on the turntable 1, the cross sections of the grooves 11 are in circular arc structures, and the inner walls of the grooves 11 are attached with the control balls 13, at the moment, the grooves 11 at the bottom of the turntable 1 move by the same angle, so that the control balls 13 move out of the grooves 11, in the process, the turntable 1 applies downward pressure to the control balls 13, the control ball 13 drives the push rod 14 to move towards the inside of the outer cylinder 15, the push rod 14 compresses the spring 16, after the rotary table 1 rotates for a certain angle, the position of the next groove 11 coincides with that of the control ball 13, at the moment, the spring 16 pushes the push rod 14 upwards through the reset action, the push rod 14 drives the control ball 13 to enter the groove 11, so that the control ball 13 is contacted with a switch 12 arranged in the groove 11, at the moment, the switch 12 sends an instruction to the rotary motor 2, the rotary motor 2 is closed, the rotary table 1 stops rotating, at the moment, a spray head of an external printer starts to print 1 optical disc in the positioning lantern ring 5, after a period of time, the rotary motor 2 is restarted under the control of an internal program, and the next cycle is carried out;

referring to fig. 1-5, when a printed optical disc in the positioning collar 5 needs to be taken out, a user lifts the pull rod 10 upwards, because the vertical guide grooves 7 which are symmetrically distributed are formed in the side wall of the limiting column 6, and the sliding blocks 8 are embedded in the inner sides of the guide grooves 7, the two sliding blocks form a sliding lifting structure, and the 2 sliding blocks 8 are symmetrically installed at the lower part of the inner wall of the support ring 9, and the pull rod 10 is fixedly installed on the side wall of the support ring 9, at this time, the pull rod 10 drives the support ring 9 to move upwards along the limiting column 6, the sliding blocks 8 installed on the support ring 9 slide in the guide grooves 7 synchronously, the optical disc attached to the top of the support ring 9 moves upwards synchronously, and when the optical disc is located above the positioning collar 5 and the limiting column 6, the optical disc can be taken out.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. A receiving device for printing an optical disc having an automatic quantitative movement structure includes:

the rotary table (1) is fixedly connected with the end part of an output shaft of a rotary motor (2) at the center of the bottom surface of the rotary table, the rotary motor (2) is vertically arranged, the rotary motor (2) is fixedly arranged on a fixed support (3), and the fixed support (3) is fixedly connected to the bottom of the inner wall of a shell (4);

it is characterized by also comprising:

the positioning sleeve ring (5) is fixedly arranged at the edge of the upper surface of the turntable (1) and used for positioning the optical disk, a limiting column (6) is arranged on the inner side of the positioning sleeve ring (5) and is coaxially arranged with the positioning sleeve ring, and the bottom of the limiting column (6) is vertically arranged on the turntable (1);

support ring (9), its coaxial cover is established be used for supporting the CD on the lateral wall of spacing post (6), fixed mounting has pull rod (10) on the lateral wall of support ring (9), and pull rod (10) slide run through in the setting of position collar (5).

2. A receiving apparatus for printing an optical disc having an automatic quantitative movement structure according to claim 1, wherein: the locating sleeve ring (5) is in the top of carousel (1) is equiangular distribution has 8, and the lateral wall laminating of carousel (1) in the inner wall upper portion of casing (4) sets up to the top of locating sleeve ring (5) and the upper surface parallel and level of spacing post (6) set up so that the CD prints.

3. A receiving apparatus for printing an optical disc having an automatic quantitative movement structure according to claim 2, wherein: set up vertical guide slot (7) of symmetric distribution on the lateral wall of spacing post (6), and the inboard of guide slot (7) inlays and is equipped with slider (8), and both constitute sliding lifting structure to the inner wall lower part at support ring (9) is installed to 2 slider (8) symmetries, and the ground laminating of support ring (9) sets up in addition the top of carousel (1).

4. A receiving apparatus for printing an optical disc having an automatic quantitative movement structure according to claim 1, wherein: the bottom of the turntable (1) is provided with grooves (11) distributed at equal angles, a switch (12) fixedly embedded on the turntable (1) is arranged in each groove (11), and the switch (12) and the limiting column (6) are coaxially arranged.

5. A receiving apparatus for printing an optical disc having an automatic quantitative movement structure according to claim 4, wherein: the cross section of the groove (11) is of an arc-shaped structure, the circle center of the cross section of the groove (11) is located on the axis of the limiting column (6), a control ball (13) is attached to the inner wall of the groove (11), and the outer wall of the control ball (13) is in contact with the switch (12).

6. A receiving apparatus for printing an optical disc having an automatic quantitative movement structure according to claim 5, wherein: the control ball (13) is coaxially arranged at the top of the push rod (14), the push rod (14) is slidably inserted into the inner side of the outer cylinder (15), a spring (16) with an elastic reset effect is fixedly connected between the bottom end of the push rod (14) and the inner wall of the outer cylinder (15), and the outer cylinder (15) is vertically arranged on the inner wall of the shell (4).

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