CN220977126U - Moving platform positioning mechanism of vacuum ion coating equipment - Google Patents

Abstract

The utility model relates to a mobile platform positioning mechanism of vacuum ion plating equipment, which relates to the field of vacuum plating and solves the problems that the positioning mode of the existing vacuum ion plating mobile platform is mainly a bolt mode, the bolt is characterized by simple structure and few components, when the mobile platform is loaded, whether the bolt is aligned to the upper part of a jack needs to be judged manually, and a rotating frame always needs to be judged manually in the sliding process so as to prevent falling, so that the efficiency is low, the human judgment error rate is high, the mobile platform is heavier, the mobile platform falls off due to the fact that the inertia passes through the jack, operators are easy to be injured by smashing, and products and the mobile platform are damaged. The technical characteristics include a base and a mobile platform. Convenient use, high utilization rate, relatively simple structure and convenient use.

Description

Moving platform positioning mechanism of vacuum ion coating equipment

Technical Field

The utility model relates to the technical field of vacuum coating, in particular to a mobile platform positioning mechanism of vacuum ion coating equipment.

Background

The positioning mode for the vacuum ion plating mobile platform at present is mainly a bolt mode, the bolt is characterized by simple structure and few components, but when loading the platform, whether the bolt is aligned to the upper part of the jack needs to be judged manually, and the rotating frame always needs to be judged manually in the sliding process so as to prevent falling, so that the efficiency is lower, the human judgment error rate is higher, and the mobile platform is heavier, once the mobile platform falls due to the fact that inertia is applied to the jack, operators are easy to be injured by smashing, and products and the mobile platform are damaged, so that the mobile platform positioning mechanism of the vacuum ion plating equipment is very desirable to solve the problem.

Disclosure of utility model

The utility model aims to solve the technical problems that the positioning mode of the existing vacuum ion plating mobile platform is mainly a bolt mode, the bolt is characterized by simple structure and few parts, when the mobile platform is loaded, whether the bolt is aligned to the upper part of a jack needs to be judged manually, and the rotating frame always needs to be judged manually in the sliding process so as to prevent falling, so that the efficiency is low, the human judgment error rate is high, the mobile platform is heavy, the mobile platform falls off due to the fact that the mobile platform passes through the jack by inertia, operators are easy to be injured by smashing, and products and the mobile platform are damaged.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

A mobile platform positioning mechanism of vacuum ion plating equipment comprises:

A base and a mobile platform;

the fixing structure is arranged on the side surface of the base and is used for fixing;

the limiting structure is arranged on the upper surface of the base and is used for limiting;

The resistance structure is arranged on the limiting structure and is used for increasing resistance;

The pressure sensing structure is arranged on the limiting structure and is used for sensing pressure;

The first positioning structure is arranged on the upper surface of the base and is used for positioning;

the second positioning structure is arranged on the upper surface of the base and is used for positioning.

Preferably, the fixing structure includes: two pairs of fixing rings and two pairs of fixing bolts;

The two pairs of fixed circular rings are arranged on the side surface of the base, and each fixed bolt is arranged on the corresponding fixed circular ring.

Preferably, the limiting structure includes: two pairs of limit shells;

The upper surface of the base is provided with two pairs of strip-shaped grooves, and each limiting shell is arranged at the corresponding strip-shaped groove.

Preferably, the resistance structure comprises: four pairs of anti-slip pads;

Each pair of anti-slip pads is arranged on the corresponding limiting shell.

Preferably, the pressure sensing structure includes: two pairs of fixing frames and two pairs of pressure sensors;

The inner lower surface of each limit shell is provided with a rectangular groove, each fixing frame is arranged at the corresponding rectangular groove, and each pressure sensor is arranged on the corresponding fixing frame.

Preferably, the first positioning structure includes: four pairs of first fixed support frames, four pairs of first electric control telescopic rods, four pairs of first connecting plates and four pairs of first limiting positioning blocks;

Four pairs of first square grooves are formed in the base, each first fixed supporting frame is arranged at the corresponding first square groove, each first electric control telescopic rod is arranged on the corresponding first fixed supporting frame, each first connecting plate is arranged on the telescopic end of the corresponding first electric control telescopic rod, each first limiting positioning block is arranged on the upper surface of the corresponding first connecting plate, and each pair of first limiting positioning blocks is matched with the corresponding limiting shell.

Preferably, the second positioning structure includes: four pairs of second fixed supporting frames, four pairs of second electric control telescopic rods, a second connecting plate and a blocking plate;

The base is provided with a strip-shaped opening, four pairs of second fixed support frames are arranged at the corresponding strip-shaped opening, each first electric control telescopic rod is arranged on the corresponding second fixed support frame, the second connecting plates are arranged on the four pairs of second electric control telescopic rod telescopic ends, and the blocking plates are arranged on the second connecting plates.

Preferably, a commercial power interface is arranged on the base, and a controller is arranged on the base.

The utility model has the following beneficial effects:

The mobile platform positioning mechanism of the vacuum ion plating equipment can automatically lock the position, is very convenient, reduces unnecessary trouble, can also perform front-back left-right positioning, can prevent the danger caused by falling of the rotating frame, is full-reliable, convenient to use, high in utilization rate, relatively simple in structure and convenient to use.

Drawings

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

FIG. 1 is a schematic diagram of a mobile platform positioning mechanism of a vacuum ion plating apparatus according to the present utility model;

FIG. 2 is a front view of a positioning mechanism of a movable platform of a vacuum ion plating device according to the present utility model;

FIG. 3 is a front view of a mobile platform positioning mechanism of the vacuum ion plating apparatus of the present utility model;

Fig. 4 is a partial enlarged view of a moving platform positioning mechanism of the vacuum ion plating apparatus of the present utility model.

Reference numerals in the drawings denote:

the device comprises a base 10, a mobile platform 20, a fixed structure 30, a limiting structure 40, a resistance structure 50, a pressure sensing structure 60, a first positioning structure 70, a second positioning structure 80, a mains interface 90 and a controller 100;

a fixing ring 31 and a fixing bolt 32;

A limit housing 41;

a non-slip mat 51;

A holder 61 and a pressure sensor 62;

the first fixed support 71, the first electric control telescopic rod 72, the first connecting plate 73 and the first limiting and positioning block 74;

The second fixed support 81, the second electric control telescopic rod 82, the second connecting plate 83 and the blocking plate 84.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of the utility model; it should be noted that, for convenience of description, in the present utility model, a "left side" is a "first end", a "right side" is a "second end", an "upper side" is a "first end", and a "lower side" is a "second end" in the present view, and the description is for clearly expressing the technical solution, and should not be construed as unduly limiting the technical solution of the present utility model.

Referring to fig. 1-4, the moving platform positioning mechanism of the vacuum ion plating apparatus includes a base 10 and a moving platform 20, a fixing structure 30, the fixing structure 30 is mounted on a side surface of the base 10, the fixing structure 30 is used for fixing, a limiting structure 40, the limiting structure 40 is mounted on an upper surface of the base 10, the limiting structure 40 is used for limiting, a resistance structure 50 is mounted on the limiting structure 40, the resistance structure 50 is used for increasing resistance, a pressure sensing structure 60, the pressure sensing structure 60 is mounted on the limiting structure 40, the pressure sensing structure 60 is used for sensing pressure, a first positioning structure 70 is mounted on an upper surface of the base 10, the first positioning structure 70 is used for positioning, a second positioning structure 80 is mounted on an upper surface of the base 10, and the second positioning structure 80 is used for positioning.

The fixing structure 30 includes: two pairs of fixing rings 31 and two pairs of fixing bolts 32, the two pairs of fixing rings 31 are mounted on the side surface of the base 10, and each fixing bolt 32 is mounted on the corresponding fixing ring 31.

The limit structure 40 includes: two pairs of limit shells 41 are arranged on the upper surface of the base 10, and each limit shell 41 is arranged at the corresponding strip-shaped groove.

The resistance structure 50 includes: four pairs of anti-skid pads 51, each pair of anti-skid pads 51 being mounted on a corresponding limit housing 41.

The pressure sensing structure 60 includes: two pairs of fixing frames 61 and two pairs of pressure sensors 62, the lower surface in each limiting shell 41 is provided with a rectangular groove, each fixing frame 61 is installed at the corresponding rectangular groove, and each pressure sensor 62 is installed on the corresponding fixing frame 61.

The first positioning structure 70 includes: four pairs of first fixed support frames 71, four pairs of first electric control telescopic rods 72, four pairs of first connecting plates 73 and four pairs of first limiting positioning blocks 74 are arranged on the base 10, each first fixed support frame 71 is installed at the corresponding first square groove, each first electric control telescopic rod 72 is installed on the corresponding first fixed support frame 71, each first connecting plate 73 is installed on the telescopic end of the corresponding first electric control telescopic rod 72, each first limiting positioning block 74 is installed on the upper surface of the corresponding first connecting plate 73, and each pair of first limiting positioning blocks 74 is matched with the corresponding limiting shell 41.

The second positioning structure 80 includes: four pairs of second fixed support frames 81, four pairs of second electric control telescopic rods 82, second connecting plates 83 and blocking plates 84 are arranged on the base 10, the four pairs of second fixed support frames 81 are arranged at the corresponding strip-shaped openings, each first electric control telescopic rod 72 is arranged on the corresponding second fixed support frame 81, the second connecting plates 83 are arranged on the telescopic ends of the four pairs of second electric control telescopic rods 82, and the blocking plates 84 are arranged on the second connecting plates 83.

The base 10 is provided with a mains supply interface 90, and the base 10 is provided with a controller 100.

In summary, the fixing structure 30 on the side surface of the base 10 is used for fixing, the limit structure 40 on the upper surface of the base 10 is used for limiting, the resistance structure 50 on the limit structure 40 is used for increasing resistance, the pressure sensing structure 60 on the limit structure 40 is used for sensing pressure, the first positioning structure 70 on the upper surface of the base 10 is used for positioning, the second positioning structure 80 on the upper surface of the base 10 is used for positioning, firstly, the base 10 is fixed at a preset position through the fixing ring 31 and the fixing bolt 32, then the power supply is connected through the mains interface 90 on the base 10, the controller 100 on the base 10 is opened, the movable platform 20 is pushed onto the base 10, wheels on the movable platform 20 are moved into the limit shell 41, the anti-skid pads 51 in the limit shell 41 are increased, meanwhile, the wheels on the movable platform 20 are moved to the pressure sensor 62 on the fixing frame 61, when the pressure sensor 62 on the fixing frame 61 senses pressure and feeds back to the controller 100 on the base 10, the controller 100 on the base 10 controls the first electric control expansion link 72 on the first fixed support frame 71 to enable the first electric control block 72 on the first connection block 73 to lift the first electric control block 74 on the first electric control block 74, and simultaneously the second electric control block 82 on the base 10 are controlled to lift the second electric block 82, thus the electric control block 82 on the second electric control block 82 is conveniently.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the invention.

Claims (8)

1. Moving platform positioning mechanism of vacuum ion coating equipment, its characterized in that includes:

A base (10) and a mobile platform (20);

A fixing structure (30), wherein the fixing structure (30) is arranged on the side surface of the base (10), and the fixing structure (30) is used for fixing;

The limiting structure (40) is arranged on the upper surface of the base (10), and the limiting structure (40) is used for limiting;

a resistance structure (50), the resistance structure (50) being mounted on the limit structure (40) and the resistance structure (50) being for increasing resistance;

A pressure sensing structure (60), the pressure sensing structure (60) being mounted on the limit structure (40), and the pressure sensing structure (60) being for sensing pressure;

the first positioning structure (70), the first positioning structure (70) is installed on the upper surface of the base (10), and the first positioning structure (70) is used for positioning;

And the second positioning structure (80) is arranged on the upper surface of the base (10), and the second positioning structure (80) is used for positioning.

2. The mobile platform positioning mechanism of a vacuum ion plating apparatus according to claim 1, wherein the fixing structure (30) comprises: two pairs of fixing rings (31) and two pairs of fixing bolts (32);

Two pairs of fixed circular rings (31) are arranged on the side surface of the base (10), and each fixed bolt (32) is arranged on the corresponding fixed circular ring (31).

3. The mobile platform positioning mechanism of a vacuum ion plating apparatus according to claim 1, wherein the limit structure (40) comprises: two pairs of limit housings (41);

two pairs of strip-shaped grooves are formed in the upper surface of the base (10), and each limiting shell (41) is installed at the corresponding strip-shaped groove.

4. A mobile platform positioning mechanism for a vacuum ion plating apparatus according to claim 3 wherein the resistance structure (50) comprises: four pairs of anti-slip pads (51);

each pair of anti-slip pads (51) is mounted on the corresponding limit housing (41).

5. A mobile platform positioning mechanism for a vacuum ion plating apparatus according to claim 3, wherein said pressure sensing structure (60) comprises: two pairs of fixing frames (61) and two pairs of pressure sensors (62);

Rectangular grooves are formed in the inner lower surface of each limiting shell (41), each fixing frame (61) is installed at the corresponding rectangular groove, and each pressure sensor (62) is installed on the corresponding fixing frame (61).

6. A mobile platform positioning mechanism for a vacuum ion plating apparatus according to claim 3 wherein the first positioning structure (70) comprises: four pairs of first fixed support frames (71), four pairs of first electric control telescopic rods (72), four pairs of first connecting plates (73) and four pairs of first limiting positioning blocks (74);

Four pairs of first square grooves are formed in the base (10), each first fixed supporting frame (71) is installed at the corresponding first square groove, each first electric control telescopic rod (72) is installed on the corresponding first fixed supporting frame (71), each first connecting plate (73) is installed on the telescopic end of the corresponding first electric control telescopic rod (72), each first limiting positioning block (74) is installed on the upper surface of the corresponding first connecting plate (73), and each pair of first limiting positioning blocks (74) is matched with the corresponding limiting shell (41).

7. The mobile platform positioning mechanism of a vacuum ion plating apparatus according to claim 6, wherein the second positioning structure (80) comprises: four pairs of second fixed supporting frames (81), four pairs of second electric control telescopic rods (82), a second connecting plate (83) and a blocking plate (84);

The base (10) is provided with a strip-shaped opening, four pairs of second fixed support frames (81) are arranged at the corresponding strip-shaped opening, each first electric control telescopic rod (72) is arranged on the corresponding second fixed support frame (81), the second connecting plates (83) are arranged at the telescopic ends of the four pairs of second electric control telescopic rods (82), and the blocking plates (84) are arranged on the second connecting plates (83).

8. The mobile platform positioning mechanism of a vacuum ion plating device according to claim 1, wherein a commercial power interface (90) is arranged on the base (10), and a controller (100) is arranged on the base (10).