CN218931963U - Glass loading machine - Google Patents

Abstract

The utility model belongs to the technical field of glass loading, in particular to a glass loading machine, which comprises a loading processing table, wherein a cutting mechanism for processing glass is arranged at the top of the loading processing table, a plurality of rotary loading rods are hinged to the loading processing table, sucking disc assemblies for fixing glass are arranged on the rotary loading rods, an end auxiliary loading assembly is arranged at the top of the rotary loading rods, and the end auxiliary loading assembly comprises a rotating frame, a bottom contact block and an angle clamping plate; the limiting concave cavity is clamped at the port position of the glass, the corner clamping plate is in sliding connection with the bottom contact block, the end face of the corner clamping plate is in contact with one side of the glass, which is far away from the sucker assembly, and the corner clamping plate is arranged in an inclined state, so that a supporting point can be conveniently provided for the glass.

Description

Glass loading machine

Technical Field

The utility model belongs to the technical field of glass loading, and particularly relates to a glass loading machine.

Background

Through putting the glass that will process on advancing the piece platform, when being located the mesa with glass, can cut glass through the cutting machine, take off the glass that processes from going out the piece platform and put on the glass frame can, in the in-process of glass of this transportation, through utilizing the inside vacuum of sucking disc, inside and outside pressure difference principle, inhale glass to the sucking disc to accomplish glass's last piece.

Through adopting the mode of sucking disc to fix last piece and lower piece with glass, glass need go up to the mesa from the glass frame on, perhaps go up on the glass frame from the mesa lower piece, often the sucking disc is fixed in glass's one side position department only, often lacks the steadiness to the support of glass upper plate.

Disclosure of Invention

Currently, there are many methods for controlling the flow of liquid. The utility model provides a glass loading machine, which has the characteristics that a supporting point can be conveniently provided for glass, and when a rotating frame is reset, an angle clamping plate can slide away from the glass along a cutting edge of the glass, the loading and unloading operations of the glass are not affected, and a supporting stable point is provided for the loading of the glass.

The utility model provides the following technical scheme: the utility model provides a glass loading machine, includes the processing platform of going up, it is equipped with the cutting mechanism who is used for processing glass to go up a processing bench top, just it has a plurality of rotatory piece pole to go up to articulate on the processing bench of piece, rotatory piece pole is gone up to have the sucking disc subassembly that is used for fixed glass on, rotatory piece pole top is equipped with the supplementary piece subassembly of going up of tip, the supplementary piece subassembly of going up of tip includes swivel mount, bottom contact block and angle clamping plate, the spacing cavity that is used for contacting with glass one end is offered to the bottom contact block, angle clamping plate with bottom contact block sliding connection, angle clamping plate terminal surface and glass keep away from one side of sucking disc subassembly contacts.

The rotary frame is hinged with the rotary upper sheet rod, and a driving mechanism for driving the rotary frame to move is arranged on the outer side of the rotary upper sheet rod.

The rotary frame is L-shaped, and the bottom contact block is fixedly connected with the rotary frame.

The bottom contact block is provided with a transition inclined plane, and the end face of the transition inclined plane is parallel to the angle clamping plate.

And one side of the angle clamping plate, which is far away from the limiting concave cavity, is fixedly connected with a telescopic column, and the telescopic column is in sliding connection with the bottom contact block.

The bottom contact block is provided with a telescopic hole, a spring is fixedly connected in the telescopic hole, and one end of the spring is fixedly connected with the telescopic column.

The beneficial effects of the utility model are as follows:

the auxiliary upper sheet assembly of tip through setting up includes swivel mount, bottom contact block and angle clamping plate, the spacing cavity that is used for contacting with glass one end is offered to the bottom contact block, through driving the swivel mount, can be located glass's one end position department with it to with spacing cavity clamping glass's port position department, angle clamping plate and bottom contact block sliding connection, angle clamping plate terminal surface contacts with one side that sucking disc subassembly was kept away from to glass, angle clamping plate is the inclination setting, not only can be convenient for provide the supporting point to glass, and reset when the swivel mount, can make angle clamping plate slide glass along a blade of glass, do not influence glass's upper sheet and lower sheet operation, provide the stable point of support to glass upper sheet.

None of the parts of the device are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the movement of the rotary upper blade in the present utility model;

FIG. 3 is a schematic view of an end auxiliary upper assembly according to the present utility model;

FIG. 4 is a schematic view of the structure of the corner clamping plate according to the present utility model;

in the figure: 1. a loading processing table; 11. a cutting mechanism; 12. rotating the upper sheet rod; 121. a suction cup assembly; 2. an end auxiliary loading assembly; 21. a rotating frame; 22. a driving mechanism; 23. a bottom contact block; 231. limiting the concave cavity; 232. a transition inclined plane; 233. a telescopic hole; 24. an angle clamping plate; 25. a telescopic column; 26. and (3) a spring.

Detailed Description

Referring to fig. 1-4, the present utility model provides the following technical solutions: including last piece processing platform 1, go up piece processing platform 1 top and be equipped with the cutting mechanism 11 that is used for processing glass, and it has a plurality of rotatory piece pole 12 to articulate on the processing platform 1 to go up, have the sucking disc subassembly 121 that is used for fixed glass on the rotatory piece pole 12, it is supplementary to go up piece subassembly 2 to be equipped with the tip on rotatory piece pole 12 top, the supplementary piece subassembly 2 of going up of tip includes swivel mount 21, bottom contact block 23 and angle clamping plate 24, spacing cavity 231 that is used for contacting with glass one end has been seted up to bottom contact block 23, angle clamping plate 24 and bottom contact block 23 sliding connection, angle clamping plate 24 terminal surface and glass keep away from one side of sucking disc subassembly 121 and contact.

In this embodiment: the cutting mechanism 11 for processing glass is arranged at the top of the upper sheet processing table 1, a plurality of rotary upper sheet rods 12 are hinged to the upper sheet processing table 1, sucker assemblies 121 for fixing glass are arranged on the rotary upper sheet rods 12, when the upper sheet is processed, the rotary upper sheet rods 12 are driven to be close to the glass on the glass frame, the glass is sucked by the sucker assemblies 121, then the rotary upper sheet rods 12 are parallel to a table top, namely the glass can be positioned on the table top, the glass is processed by the cutting mechanism 11, the technology is that in the prior art, the upper sheet assemblies 2 are assisted by the aid of the arranged end parts and comprise a rotary frame 21, a bottom contact block 23 and an angle clamping plate 24, the bottom contact block 23 is provided with a limit cavity 231 for contacting one end of the glass, a driving mechanism 22 is composed of a motor and a synchronous belt, the rotary frame 21 can be driven to rotate in a rotary ring mode when the rotary frame 21 is used, the rotary frame 21 is driven, the rotary frame 21 is positioned at one end position of the glass, accordingly the limit cavity 231 is clamped at the position of the glass, the corner clamping plate 24 is connected with the bottom contact block 23, the bottom contact block 23 is connected with the corner clamping plate 24, the corner clamping plate 24 is not contacted with the glass, and the glass can be supported by the glass clamping plate 24 in a sliding mode, and the corner clamping plate is not contacted with the glass clamping plate 24, and the glass is not contacted with the glass clamping plate and the glass clamping plate is not contacted with the glass.

The rotating frame 21 is hinged with the rotating upper sheet rod 12, and a driving mechanism 22 for driving the rotating frame 21 to move is arranged outside the rotating upper sheet rod 12; the driving mechanism 22 is composed of a motor and a synchronous belt, and can drive the rotating frame 21 to perform rotating ring movement, and the rotating frame 21 is used while the sucking disc assembly 121 is used.

The rotating frame 21 is L-shaped, and the bottom contact block 23 is fixedly connected with the rotating frame 21; when the rotating frame 21 is rotated, the position of the bottom contact block 23 can be made opposite to the position of one end of the glass.

The bottom contact block 23 is provided with a transition inclined plane 232, and the end surface of the transition inclined plane 232 is parallel to the angle clamping plate 24; the transition ramp 232 cooperates with the corner clamp plate 24 to facilitate the removal of the corner clamp plate 24 at a side location on the glass.

A telescopic column 25 is fixedly connected to one side, far away from the limit concave cavity 231, of the angle clamping plate 24, the telescopic column 25 is in sliding connection with the bottom contact block 23, a telescopic hole 233 is formed in the bottom contact block 23, a spring 26 is fixedly connected in the telescopic hole 233, and one end of the spring 26 is fixedly connected with the telescopic column 25; the angle grip block 24 can change the position under the connection of flexible post 25 and spring 26, make the size of spacing cavity 231 can change, be convenient for angle grip block 24 is limited glass under the application of force of spring 26, under the effect of the application of angle grip block 24, its area of contact with glass is little, can be difficult to wearing and tearing glass, and when making angle grip block 24 leave on the glass, angle grip block 24 terminal surface can slide glass along a blade of glass, and glass's one side position plays the effect of mill face simultaneously.

The working principle and the using flow of the utility model are as follows: when the glass is loaded, the upper sheet rod 12 is driven to rotate so as to be close to the glass on the glass frame, the glass is sucked by the sucking disc component 121, then the upper sheet rod 12 is rotated to be parallel to the table surface, namely, the glass can be positioned on the table surface, the glass is processed by the cutting mechanism 11, in the process, the limiting concave cavity 231 used for being contacted with one end of the glass is formed in the bottom contact block 23, the driving mechanism 22 consists of a motor and a synchronous belt, the rotating frame 21 can be driven to move in a rotating ring, the sucking disc component 121 is used, the rotating frame 21 is driven to be positioned at one end of the glass, the limiting concave cavity 231 is clamped at the end position of the glass, the corner clamping plate 24 is connected with the bottom contact block 23 in a sliding mode, the end face of the corner clamping plate 24 is contacted with one side of the glass, which is far away from the sucking disc component 121, the corner clamping plate 24 is arranged in an inclined state, a supporting point can be conveniently provided for the glass, and when the rotating frame 21 is reset, the corner clamping plate 24 can slide off the glass along one side of the glass, the upper sheet and the lower sheet of the glass can not influence the upper sheet and the glass can be stably supported by the operation point.

Claims (6)

1. The utility model provides a glass mascerating machine, includes mascerating processing platform (1) on, mascerating processing platform (1) top is equipped with cutting mechanism (11) that are used for processing glass, just it has a plurality of rotatory piece pole (12) to articulate on processing platform (1) on, rotatory piece pole (12) are last to have sucking disc subassembly (121) that are used for fixed glass, its characterized in that: the rotary upper sheet rod (12) top is equipped with tip auxiliary upper sheet subassembly (2), tip auxiliary upper sheet subassembly (2) include swivel mount (21), bottom contact block (23) and angle clamping plate (24), spacing cavity (231) that are used for contacting with glass one end are seted up to bottom contact block (23), angle clamping plate (24) with bottom contact block (23) sliding connection, angle clamping plate (24) terminal surface and glass keep away from one side of sucking disc subassembly (121) contacts.

2. A glass sheet loading machine as in claim 1 wherein: the rotating frame (21) is hinged with the rotating upper sheet rod (12), and a driving mechanism (22) for driving the rotating frame (21) to move is arranged on the outer side of the rotating upper sheet rod (12).

3. A glass sheet loading machine as in claim 1 wherein: the rotating frame (21) is L-shaped, and the bottom contact block (23) is fixedly connected with the rotating frame (21).

4. A glass sheet loading machine as in claim 1 wherein: the bottom contact block (23) is provided with a transition inclined plane (232), and the end surface of the transition inclined plane (232) is parallel to the angle clamping plate (24).

5. A glass sheet loading machine as in claim 1 wherein: and one side, far away from the limit concave cavity (231), of the angle clamping plate (24) is fixedly connected with a telescopic column (25), and the telescopic column (25) is in sliding connection with the bottom contact block (23).

6. A glass sheet loading machine as in claim 5 wherein: the bottom contact block (23) is provided with a telescopic hole (233), a spring (26) is fixedly connected in the telescopic hole (233), and one end of the spring (26) is fixedly connected with the telescopic column (25).

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