CN215325829U - Thermos cup film feed mechanism - Google Patents

Abstract

The utility model discloses a vacuum cup film feeding mechanism which comprises a supporting bottom plate, a film feeding rotary disk, a film lifting supporting plate, a film feeding rotary motor and a film feeding lifting motor, wherein a plurality of film size adjusting rods are arranged on the film feeding rotary disk, film size adjusting holes matched with the film size adjusting rods are formed in the film lifting supporting plate, adjusting rod locking nuts are arranged at the bottoms of the film size adjusting rods, each film lifting supporting plate corresponds to at least three film size adjusting rods, and the film feeding lifting motor is connected with the film lifting supporting plate through a film lifting transmission guide assembly. The vacuum cup bottom sheet feeding device can store more vacuum cup bottom sheets in a limited storage space, improves the bottom sheet feeding efficiency, adopts the structure of the bottom sheet size adjusting rod and the bottom sheet size adjusting hole, can adjust the specification of the bottom sheet lifting support plate at any time according to the size of the vacuum cup bottom sheets, and can be applied to various vacuum cup bottom sheets with different specifications, thereby reducing the bottom sheet feeding cost.

Description

Thermos cup film feed mechanism

Technical Field

The utility model relates to vacuum cup processing equipment, in particular to a vacuum cup bottom sheet feeding mechanism.

Background

In the processing process of the vacuum cup, a getter needs to be welded on the bottom sheet of the vacuum cup, and a special bottom sheet feeding mechanism needs to be adopted for feeding the bottom sheet; at present, the storage space of a conventional vacuum cup bottom sheet feeding mechanism is limited, so that more vacuum cup bottom sheets are difficult to store at one time, and the vacuum cup bottom sheet feeding mechanism needs to be stopped frequently to discharge materials, so that the bottom sheet feeding efficiency is influenced; moreover, the specification of the film supporting plate can not be adjusted according to the size of the film, the vacuum cup films with different specifications need to adopt the film supporting plates with different specifications, and the film feeding cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects and shortcomings in the prior art, and provides a vacuum cup material taking and welding mechanism which adopts a vacuum cup material taking and welding mechanism that a plurality of vacuum cup lifting support plates are designed on a vacuum cup material feeding rotary disk to rotate and alternately feed materials, more vacuum cup negative films can be stored in a limited material storage space, more vacuum cup negative films can be fed by starting up at one time, the material feeding efficiency is improved, meanwhile, the vacuum cup material taking and welding mechanism adopts a structure of a negative film size adjusting rod and a negative film size adjusting hole, the specification of the negative film lifting support plate can be adjusted at any time according to the size of the vacuum cup negative films, one set of negative film lifting support plate can be applied to the vacuum cup negative films with various specifications, and the material feeding cost of the negative films is reduced.

The technical scheme of the utility model is as follows: the utility model provides a thermos cup film feed mechanism, includes supporting baseplate, film feed rotary disk, a plurality of film lifting supporting plates, drive film feed rotary disk pivoted film feed rotary motor and the film feed lifting motor of drive film lifting supporting plate lift, be equipped with a plurality of film size adjusting rods on the film feed rotary disk, be equipped with the film size regulation hole of cooperation film size adjusting rod on the film lifting supporting plate, the bottom of film size adjusting rod is equipped with regulation pole lock nut, and every film lifting supporting plate corresponds three piece at least film size adjusting rods, film feed lifting motor passes through film lift transmission guide assembly and is connected with film lifting supporting plate.

The utility model adopts a structure that a plurality of film lifting support plates are designed on a film feeding rotating disc to rotate and alternately feed, more vacuum cup films can be stored in a limited storage space, more vacuum cup films can be fed by starting up at one time, the film feeding efficiency is improved, and meanwhile, the specification of the film lifting support plates can be adjusted at any time according to the size of the vacuum cup films by adopting the structure of the film size adjusting rods and the film size adjusting holes, so that one set of film lifting support plates can be applied to various vacuum cup films with different specifications, and the film feeding cost is reduced.

Preferably, film feed rotating electrical machines pass through a motor frame and install on supporting baseplate, the center bottom of film feed rotary disk is equipped with the pivot, film feed rotating electrical machines passes through the shaft coupling and connects the pivot, be equipped with rotating electrical machines original point detection sensor between shaft coupling and the pivot.

The structure ensures firm and reliable installation of the film feeding rotating motor and ensures that the film feeding rotating motor drives the film feeding rotating disk to rotate more stably and reliably.

Preferably, the film lifting supporting plate is connected with the film lifting transmission guide assembly through a film lifting rod, the film lifting transmission guide assembly comprises a film lifting driving synchronous belt connected to a film feeding lifting motor and a film lifting guide rod installed on the supporting bottom plate, the top of the film lifting rod is connected with the film lifting supporting plate, and the bottom of the film lifting rod is connected with the film lifting driving synchronous belt through a sliding block.

The structure ensures that the lifting of the film lifting motor driving the film lifting supporting plate is more stable and reliable.

Preferably, the bottom of film lift drive hold-in range is connected with film feed elevator motor through lower band pulley, slider sliding connection is on film lift guide bar, the top of film lift guide bar is equipped with spacing, the top of film lift drive hold-in range is passed through last band pulley and is connected with spacing.

The structure ensures that the motion of the bottom sheet lifting motor driving the bottom sheet lifting driving synchronous belt is more stable and reliable.

Preferably, the bottom sheet lifting rod is connected with the bottom sheet feeding rotating disk through a guide bearing, and the sliding block is connected to the bottom sheet lifting guide rod in a sliding mode through a sliding bearing.

The structure ensures that the lifting of the film lifting rod and the lifting of the sliding block are stable and reliable.

Preferably, a lifting motor origin detection sensor and a lifting motor limit detection sensor which are matched with the film feeding lifting motor are arranged on the supporting bottom plate.

The structure ensures that the action of the film feeding lifting motor is safer and more reliable.

Preferably, the number of the bottom plate lifting support plates is four, the four bottom plate lifting support plates are uniformly distributed on the bottom plate feeding rotating disc, and each bottom plate lifting support plate corresponds to the three bottom plate size adjusting rods.

This configuration further ensures the negative loading efficiency.

The utility model adopts a structure that a plurality of film lifting support plates are designed on a film feeding rotating disc to rotate and alternately feed, more vacuum cup films can be stored in a limited storage space, more vacuum cup films can be fed by starting up at one time, the film feeding efficiency is improved, and meanwhile, the specification of the film lifting support plates can be adjusted at any time according to the size of the vacuum cup films by adopting the structure of the film size adjusting rods and the film size adjusting holes, so that one set of film lifting support plates can be applied to various vacuum cup films with different specifications, and the film feeding cost is reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a side schematic view of the present invention;

in the figure, 1, a supporting bottom plate, 2, a bottom plate feeding rotating disc, 3, a bottom plate lifting supporting plate, 4, a bottom plate feeding rotating motor, 5, a bottom plate feeding lifting motor, 6, a bottom plate size adjusting rod, 7, a bottom plate size adjusting hole, 8, an adjusting rod locking nut, 9, a motor frame, 10, a rotating shaft, 11, a coupler, 12, a rotating motor origin detection sensor, 13, a bottom plate lifting rod, 14, a bottom plate lifting driving synchronous belt, 15, a bottom plate lifting guide rod, 16, a sliding block, 17, a limiting frame, 18, a guide bearing, 19, a sliding bearing, 20, a vacuum cup bottom plate, 21, a lifting motor origin detection sensor and 22, a lifting motor limit detection sensor are arranged.

Detailed Description

The present invention will be described in further detail with reference to the attached drawings, but the present invention is not limited thereto.

As shown in figures 1 and 2, the vacuum cup bottom sheet feeding mechanism comprises a supporting bottom plate 1, a bottom sheet feeding rotating disk 2, four bottom sheet lifting support plates 3 used for placing vacuum cup bottom sheets 20, a bottom sheet feeding rotating motor 4 driving the bottom sheet feeding rotating disk 2 to rotate and a bottom sheet feeding lifting motor 5 driving the bottom sheet lifting support plates 3 to lift, twelve bottom sheet size adjusting rods 6 are arranged on the bottom sheet feeding rotating disk 2, bottom sheet size adjusting holes 7 matched with the bottom sheet size adjusting rods 6 are formed in the bottom sheet lifting support plates 3, adjusting rod locking nuts 8 are arranged at the bottoms of the bottom sheet size adjusting rods 6, each bottom sheet lifting support plate corresponds to three bottom sheet size adjusting rods, and the bottom sheet feeding lifting motor 5 is connected with the bottom sheet lifting support plates 3 through bottom sheet lifting transmission guide assemblies. The film feeding rotating motor 4 is installed on the supporting base plate 1 through a motor frame 9, a rotating shaft 10 is arranged at the bottom of the center of the film feeding rotating disk 2, the film feeding rotating motor 4 is connected with the rotating shaft 10 through a coupler 11, and a rotating motor origin detection sensor 12 is arranged between the coupler 11 and the rotating shaft 10. The film lifting supporting plate 3 is connected with a film lifting transmission guide assembly through a film lifting rod 13, the film lifting transmission guide assembly comprises a film lifting driving synchronous belt 14 connected to a film feeding lifting motor 5 and a film lifting guide rod 15 installed on the supporting bottom plate 1, the top of the film lifting rod 13 is connected with the film lifting supporting plate 3, and the bottom of the film lifting rod 13 is connected with the film lifting driving synchronous belt 14 through a sliding block 16. The bottom of the film lifting driving synchronous belt 14 is connected with the film feeding lifting motor 5 through a lower belt wheel, the sliding block 16 is connected on the film lifting guide rod 15 in a sliding mode, the top of the film lifting guide rod 15 is provided with a limiting frame 17, and the top of the film lifting driving synchronous belt 14 is connected with the limiting frame 17 through an upper belt wheel. The film lifting rod 13 is connected with the film feeding rotating disk 2 through a guide bearing 18, and the slide block 16 is connected on the film lifting guide rod 15 through a slide bearing 19 in a sliding way. The supporting bottom plate 1 is provided with a lifting motor origin detection sensor 21 and a lifting motor limit detection sensor 22 which are matched with the film feeding lifting motor 5. The four bottom plate lifting supporting plates are uniformly distributed on the bottom plate feeding rotating disc 2.

The working process of the utility model is as follows: after the vacuum cup bottom sheets are manually placed into a bottom sheet feeding bin (on four bottom sheet lifting support plates), starting the vacuum cup, connecting a bottom sheet lifting rod fixed at the bottom of the first bottom sheet lifting support plate with a sliding block, and enabling a bottom sheet feeding lifting motor to act to push the vacuum cup bottom sheets on the bottom sheet lifting support plate one by one to a bottom sheet suction position to be removed by a bottom sheet suction mechanism; when all the vacuum cup bottom sheets on the first bottom sheet lifting supporting plate are completely pushed up, the bottom sheet feeding rotating motor acts to drive the bottom sheet feeding rotating disk to rotate, so that the bottom sheet lifting rod fixed at the bottom of the second bottom sheet lifting supporting plate is connected with the sliding block, the bottom sheet feeding lifting motor acts, and the like, and the vacuum cup bottom sheets on all the bottom sheet lifting supporting plates are completely pushed up and then finished or the machine is stopped.

The bottom of the film lifting rod and the sliding block can be automatically connected (the rotation of the film feeding rotating disc can not only enable the bottom of the film lifting rod to automatically separate from the sliding block, but also enable the bottom of the film lifting rod to automatically buckle into the sliding block); the bottom of the film lifting rod can be separated from or fixed with the sliding block manually.

The utility model adopts a structure that a plurality of film lifting support plates are designed on a film feeding rotating disc to rotate and alternately feed, more vacuum cup films can be stored in a limited storage space, more vacuum cup films can be fed by starting up at one time, the film feeding efficiency is improved, and meanwhile, the specification of the film lifting support plates can be adjusted at any time according to the size of the vacuum cup films by adopting the structure of the film size adjusting rods and the film size adjusting holes, so that one set of film lifting support plates can be applied to various vacuum cup films with different specifications, and the film feeding cost is reduced.

Claims (7)

1. The utility model provides a thermos cup film feed mechanism which characterized in that: the film feeding rotary disk is provided with a plurality of film size adjusting rods, the film lifting support plate is provided with film size adjusting holes matched with the film size adjusting rods, the bottom of each film size adjusting rod is provided with an adjusting rod locking nut, each film lifting support plate corresponds to at least three film size adjusting rods, and the film feeding lifting motor is connected with the film lifting support plate through a film lifting transmission guide assembly.

2. A vacuum cup substrate feeding mechanism according to claim 1, characterized in that: the film feeding rotating motor is installed on the supporting bottom plate through a motor frame, a rotating shaft is arranged at the bottom of the center of the film feeding rotating disk, the film feeding rotating motor is connected with the rotating shaft through a coupler, and a rotating motor origin detection sensor is arranged between the coupler and the rotating shaft.

3. A vacuum cup substrate feeding mechanism according to claim 1, characterized in that: the film lifting supporting plate is connected with the film lifting transmission guide assembly through a film lifting rod, the film lifting transmission guide assembly comprises a film lifting driving synchronous belt connected to a film feeding lifting motor and a film lifting guide rod installed on a supporting bottom plate, the top of the film lifting rod is connected with the film lifting supporting plate, and the bottom of the film lifting rod is connected with the film lifting driving synchronous belt through a sliding block.

4. A vacuum cup substrate feeding mechanism according to claim 3, characterized in that: the bottom of film lift drive hold-in range is connected with film feed elevator motor through band pulley down, slider sliding connection is on film lift guide bar, the top of film lift guide bar is equipped with spacing, the top of film lift drive hold-in range is passed through the band pulley and is connected with spacing.

5. A vacuum cup substrate feeding mechanism according to claim 4, characterized in that: the film lifting rod is connected with the film feeding rotating disc through a guide bearing, and the sliding block is connected to the film lifting guide rod in a sliding mode through a sliding bearing.

6. A vacuum cup substrate feeding mechanism according to claim 1, characterized in that: and a lifting motor origin detection sensor and a lifting motor limit detection sensor which are matched with the film feeding lifting motor are arranged on the supporting bottom plate.

7. A vacuum cup substrate feeding mechanism according to claim 1, characterized in that: the number of the negative lifting support plates is four, the four negative lifting support plates are uniformly distributed on the negative feeding rotating disc, and each negative lifting support plate corresponds to three negative size adjusting rods.

Images