CN220012790U - Vertical workpiece rotating frame for vacuum overturning coating - Google Patents

Abstract

The utility model provides a vertical workpiece rotating frame for vacuum overturning coating, which comprises the following components: the device comprises a rotating base, a planetary gear set, a track frame, a rotating mechanism, a supporting seat and a vertical carrier. The workpiece rotating frame is driven by a transmission shaft, and the transmission shaft is coaxially fixed with the central gear and the rotating mechanism to drive the central gear and the rotating mechanism to rotate. The boss is fixed on the boss gear, realizes through the cooperation of planet wheel that boss gear and boss rotate. The work piece revolving rack is provided with the track frame, and the circumference track on the track frame cooperates with the rotation wheel in the slewing mechanism, is provided with the face groove that trades on the track frame simultaneously, can take place to contact when boss and rotation wheel rotate simultaneously to the face groove that trades, and the boss will rotate wheel one end jack-in and trade the face groove in, makes the rotation wheel upset, realizes the automatic face that trades of vertical carrier in the vacuum coating process.

Description

Vertical workpiece rotating frame for vacuum overturning coating

Technical Field

The utility model relates to the field of vacuum ion coating, in particular to a vertical workpiece rotating frame for vacuum overturning coating.

Background

In the vacuum coating process, the same film is required to be coated on the front and back planes of the same workpiece, and in order to achieve the aim, the common method is that after one surface of the workpiece is coated successfully, a coating rotating frame and the workpiece are taken out of a vacuum chamber, the workpiece is manually taken down, turned over and mounted, and then the workpiece is put into the vacuum chamber for secondary coating; the film plating process obviously has the defects of complicated process flow, high production cost and extremely difficult guarantee of film quality.

In the vacuum turnover coating workpiece rotating frame disclosed in the patent CN208008887U, a workpiece is horizontally and transversely placed, and the workpiece is turned over by rotating a rotating mechanism during working, so that turnover coating is realized; however, in the batch coating, the defects of high cost and low production benefit caused by low single batch exist.

Disclosure of Invention

In order to solve the above problems, the present utility model provides a vertical workpiece turret for vacuum roll-over coating, comprising: the device comprises a rotating base, a planetary gear set, a track frame, a rotating mechanism, a supporting seat and a vertical carrier.

Further, the rotating frame base comprises a transmission shaft, a lower shell, an upper shell and a limiting groove; the edge of the lower shell is provided with a plurality of limit grooves which are in interference fit with the outer edges of the surface changing grooves on the track frame and used for fixing the track frame.

Further, the vertical workpiece rotating frame is driven by a transmission shaft, and the transmission shaft is coaxially fixed with the central gear and the rotating mechanism to drive the central gear and the rotating mechanism to rotate.

Further, a circular channel is formed between the upper shell of the rotating frame base and the end cover of the supporting seat and is used for driving the vertical carrier to do circular motion by the rotating wheels.

Further, the vertical workpiece rotating frame is provided with a planetary gear set, a boss is fixed on a boss gear of the planetary gear set, and the boss is in interference fit with the boss gear and rotates along with the rotation of the boss gear.

Further, the protruding end of the boss can be in contact with the rotating wheel above the boss, and the lower end can smoothly turn over when the rotating wheel surface is turned over.

Further, a rotating wheel in the rotating mechanism is driven by the rotating frame, and a mounting hole on a mounting column of the rotating wheel is matched with an inserted link of the vertical carrier frame and used for fixing the lower part of the vertical carrier frame. The upper part of the vertical carrier is matched with a rotating sleeve in the fixed frame.

Further, a fixing groove is formed in the side face of the vertical carrier and used for fixing a workpiece needing to be turned over.

Drawings

Fig. 1 is an overall three-dimensional schematic diagram of the novel vacuum turnover coating vertical workpiece turret, labeled: the rotary rack comprises a rotary rack base (1), a transmission shaft (101), a lower shell (102), an upper shell (103), a supporting seat (5), an end cover (501), a fixed rack (502), a rotary sleeve (502 a), a vertical carrier (6), an inserting rod (601), a fixed groove (602) and a circular channel (7);

fig. 2 is a three-dimensional schematic of the lower housing, labeled: a limit groove (102 a) and a gear rack (104);

fig. 3 is a schematic three-dimensional structure of the interior of the lower housing, labeled: the planet wheel set (2), a sun gear (201), a boss (202), a boss gear (203), an orbit frame (3), a circumferential orbit (301) and a surface changing groove (302);

fig. 4 is a schematic three-dimensional structure of the lower housing when the boss and the rotating wheel are about to contact with each other to turn over the converting station, and is marked as: the rotating mechanism (4) comprises a rotating wheel (401) and a rotating frame (402);

fig. 5 is a three-dimensional schematic of a rotating wheel, labeled: roller grooves (401 a), mounting posts (401 b) and mounting holes (401 c).

Description of the embodiments

The utility model is described in further detail below with reference to the attached drawings and detailed description:

as shown in fig. 1-5, a vertical workpiece turret for vacuum roll-over coating, comprising: the device comprises a rotating frame base (1), a planetary gear set (2), a track frame (3), a rotating mechanism (4), a supporting seat (5) and a vertical carrier (6).

The rotating frame base (1) comprises a transmission shaft (101), a lower shell (102), an upper shell (103) and a gear rack (104).

A circular channel (7) is formed between the upper shell (103) of the rotating frame base (1) and the end cover (501) of the supporting seat (5), and the circular channel is used for driving the vertical carrier (6) to do circular motion by the rotating wheel (401) in the film coating process.

Preferably, a plurality of limit grooves (102 a) are arranged on the lower shell (102) of the rotating frame base (1) and are in interference fit with the surface changing grooves (302) on the track frame (3) so as to fix the track frame (3).

The transmission shaft (101) is coaxially fixed with the sun gear (201) and the rotating mechanism (4), the sun gear (201) and the rotating mechanism (4) are driven to rotate, and the sun gear (201) drives the boss gear (203) on the gear frame (104) to rotate.

A boss (202) is fixed on a boss gear (203) of the planetary gear set (2), the protruding end of the boss (202) can be in contact with a rotating wheel (401) above the boss (203), and the lower end of the boss can be smoothly turned over when the rotating wheel (401) turns over.

The rotating wheel (401) in the rotating mechanism (4) is driven by the rotating frame (402), and a mounting hole (401 c) is arranged on a mounting column (401 b) of the rotating wheel (401) and is in interference fit with the inserted link (601) of the vertical carrier (6).

Preferably, a fixing groove (602) is arranged on the side surface of the vertical carrier (6) and is used for fixing a workpiece needing to be turned over.

Specifically, the workflow of the present embodiment is: the workers sequentially put the workpieces into the fixing grooves (602) of the vertical carrier (6). The transmission shaft (101) of the rotating frame base (1) starts to rotate under the action of the power system, and simultaneously drives the sun gear (201) and the rotating frame (402) to rotate. Under the action of the planetary gear set (3), the sun gear (201) drives the boss gear (203) and a boss (202) on the boss gear to start rotating. At the same time, the roller groove (401 a) of the rotating wheel (401) starts to move along the circumferential track (301) on the track frame (3) under the drive of the rotating frame (402). When the rotating wheel (401) and the boss (202) meet at the surface changing groove (302) of the track frame (3), one end of the rotating wheel (401) is in contact with the protruding end of the boss (202), one end of the boss (202) which is in contact with the rotating wheel (401) is pushed into the surface changing groove (302), and meanwhile the other end of the rotating wheel (401) passes over the lower end of the boss (202) and returns to the circumferential track (301) on the track frame (3) again to continue to do circular motion. The vertical carrier (6) can change the surface along with the overturning of the rotating wheel (401) and rotate along the circular channel (7), and finally, the aim of automatically overturning the workpiece in the vacuum coating process is fulfilled.

The beneficial effects of the utility model are as follows: when the same film is plated on the front and back planes of the same workpiece, after one surface of the workpiece is plated successfully, the workpiece can be turned over in the vacuum chamber through one key (or instruction), and then the same film is plated on the other surface of the workpiece. The film plating process flow is simple to operate, and is particularly beneficial to ensuring the quality of the film; in the batch coating, the single batch yield can be adjusted according to the size of the workpiece, so that the cost is optimized and the production benefit is improved.

The above is only one of the preferred embodiments of the present utility model, and all modifications, improvements, equivalents or equivalent arrangements which fall within the spirit and principles of the utility model are intended to be included within the scope of the present patent claims.

Claims (8)

1. A vertical work piece revolving rack for vacuum upset coating film, its characterized in that: comprises a rotating frame base (1), a planetary gear set (2), a track frame (3), a rotating mechanism (4), a supporting seat (5) and a vertical carrier (6); the rotating frame base (1) comprises a transmission shaft (101), a lower shell (102), an upper shell (103) and a gear rack (104); wherein the lower shell (102) comprises a limit groove (102 a); the planetary gear set (2) comprises a sun gear (201), a boss (202) and a boss gear (203); the track frame (3) comprises a circumferential track (301) and a surface changing groove (302); the rotating mechanism (4) comprises a rotating wheel (401) and a rotating frame (402); the rotating wheel (401) comprises a roller groove (401 a), a mounting column (401 b) and a mounting hole (401 c); the supporting seat (5) comprises an end cover (501), a fixing frame (502) and a rotating sleeve (502 a); the vertical carrier (6) comprises a inserted link (601) and a fixing groove (602).

2. A vertical workpiece turret for vacuum roll-over coating as recited in claim 1, wherein: a plurality of limit grooves (102 a) are formed in the lower shell (102) of the rotating frame base (1) and are matched with face changing grooves (302) in the track frame (3), and the track frame (3) is fixed.

3. A vertical workpiece turret for vacuum roll-over coating as recited in claim 1, wherein: a circular channel (7) is formed between the upper shell (103) of the rotating frame base (1) and the end cover (501) of the supporting seat (5) and is used for driving the vertical carrier (6) to do circular motion by the rotating wheel (401).

4. A vertical workpiece turret for vacuum roll-over coating as recited in claim 1, wherein: the workpiece rotating frame is driven by a transmission shaft (101), and the transmission shaft (101) is coaxially fixed with the sun gear (201) and the rotating mechanism (4) to drive the sun gear (201) and the rotating mechanism (4) to rotate.

5. A vertical workpiece turret for vacuum roll-over coating as recited in claim 1, wherein: a boss (202) is fixed on a boss gear (203) of the planetary gear set (2), the protruding end of the boss (202) is used for being in contact with a rotating wheel (401), and the lower end of the boss is convenient for the rotating wheel (401) to turn over smoothly when the rotating wheel turns over.

6. A vertical workpiece turret for vacuum roll-over coating as recited in claim 1, wherein: the circumferential track of the track frame (3) is provided with a plurality of surface changing grooves for enabling the rotating wheel (401) to be in contact with the boss (202) and turning the surface at the position.

7. A vertical workpiece turret for vacuum roll-over coating as recited in claim 1, wherein: the rotating wheel (401) in the rotating mechanism (4) is driven by the rotating frame (402), and the mounting hole (401 c) on the mounting column (401 b) of the rotating wheel (401) is matched with the inserted link (601) of the vertical carrier (6).

8. A vertical workpiece turret for vacuum roll-over coating as recited in claim 1, wherein: the side of the vertical carrier (6) is provided with a fixing groove (602) for fixing a workpiece to be turned over.