CN219928966U - Glass transfer structure - Google Patents

Abstract

The utility model relates to the technical field of transfer, and discloses a glass transfer structure, which comprises a synchronous belt conveyor for conveying glass, an A conveyor and a B conveyor for sorting glass, wherein the A conveyor and the B conveyor are arranged at two sides of the tail end of the synchronous belt conveyor, a transfer assembly for guiding the glass into the A conveyor and the B conveyor is arranged at the bottom of the tail end of the synchronous belt conveyor, and the transfer assembly comprises a support plate arranged at the bottom of the tail end of the synchronous belt conveyor. This glass shifts structure drives the roller conveyor through elevating gear and rises to jack-up glass on the hold-in range conveyer, later roller conveyor positive and negative transport can be with glass conveying to A conveyer and B conveyer on, so with the glass of flaw and qualified glass separation, so glass shifts simply and the cost input is low.

Description

A glass transfer structure

Technical field

The utility model relates to the field of transfer technology, specifically a glass transfer structure.

Background technique

During the glass processing process, glass products need to be transported from one processing equipment to another. This process also requires the use of professional equipment and tools to detect the quality of the glass, so as to screen out defective glass from the conveying equipment. Therefore, transfer equipment is needed to introduce defective glass and qualified glass into different conveying equipment respectively. However, the existing transfer equipment picks up and sorts through manipulators. This equipment costs a lot and is not conducive to the development of small enterprises. In view of this problem, we propose a glass transfer structure.

Utility model content

In view of the above-mentioned deficiencies in the prior art, the present utility model provides a glass transfer structure.

The utility model provides the following technical solution: a glass transfer structure, including a synchronous belt conveyor for transporting glass and glass sorting A conveyors and B conveyors arranged on both sides of the end of the synchronous belt conveyor. The synchronous belt conveyor The bottom of the end of the machine is equipped with a transfer assembly for introducing glass into conveyor A and conveyor B. The transfer assembly includes a support plate installed at the bottom of the end of the synchronous belt conveyor. The support plate is equipped with a roller conveyor for conveying glass. Machine, the bottom end of the support plate is equipped with a lifting device for pushing the roller conveyor to move up and down, and the roller conveyor drives the glass to lift up and transport it to the A conveyor and the B conveyor.

Preferably, the roller conveyor performs forward and reverse conveying in the direction of the A conveyor and the B conveyor.

Preferably, the conveying surfaces of the A conveyor and the B conveyor are kept parallel, and the conveying surface of the synchronous belt conveyor is lower than the conveying surfaces of the A conveyor and the B conveyor.

Preferably, the frame at the bottom of the roller conveyor is slidingly connected to the support plate through several sets of guide posts.

Preferably, when the lifting device is not activated, the roller conveyor shrinks in the gap between the synchronous belt conveyors, and the glass can move to the synchronous belt conveyor directly above the roller conveyor.

Preferably, the lifting device is one of a pneumatic cylinder, an electric cylinder and a hydraulic cylinder.

Compared with the existing technology, this utility model has the following beneficial effects:

This glass transfer structure drives the roller conveyor to rise through the lifting device, thereby lifting the glass on the synchronous belt conveyor. Afterwards, the roller conveyor can transport the glass to conveyor A and conveyor B in forward and reverse directions, so that the defective glass can be transported to conveyor A and conveyor B. Glass and qualified glass are separated, so glass transfer is simple and cost-effective.

Description of the drawings

Figure 1 is a schematic structural diagram of the utility model;

Figure 2 is a schematic diagram of the transfer assembly of the present invention.

In the picture: 1. Synchronous belt conveyor; 2. A conveyor; 3. B conveyor; 4. Transfer assembly; 41. Support plate; 42. Roller conveyor; 43. Lifting device; 44. Guide column.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the present disclosure clearer, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below in conjunction with the accompanying drawings of the embodiments of the present disclosure. In order to maintain the following description of the embodiments of the present disclosure For clarity and conciseness, this disclosure omits detailed descriptions of known functions and components to avoid unnecessarily obscuring the concepts of the invention.

Referring to Figure 1-2, a glass transfer structure includes a synchronous belt conveyor 1 for conveying glass and glass sorting A conveyor 2 and B conveyor 3 arranged on both sides of the end of the synchronous belt conveyor 1, as described The bottom of the end of the synchronous belt conveyor 1 is installed with a transfer assembly 4 that introduces glass into the A conveyor 2 and the B conveyor 3. The synchronous belt conveyor 1 transports the glass, and the glass moves to just above the transfer assembly 4 to stop conveying, and then transfers Component 4 lifts the glass and introduces it into conveyor A 2 and conveyor B 3 for transfer, and the defective glass and qualified glass are exported respectively.

The transfer assembly 4 includes a support plate 41 installed at the bottom of the end of the synchronous belt conveyor 1. The support plate 41 is provided with a roller conveyor 42 for transporting glass. The roller conveyor 42 faces the A conveyor 2 and Conveyor B carries out forward and reverse transportation in 3 directions. The bottom end of the support plate 41 is equipped with a lifting device 43 for pushing the roller conveyor 42 to move up and down. The roller conveyor 42 drives the glass to lift up and transport it to A. Machine 2 and B conveyor 3, and the frame at the bottom of the roller conveyor 42 is slidingly connected to the support plate 41 through several sets of guide posts 44, and the roller conveyor 42 is lifted up by the lifting device 43, so that the glass on the roller conveyor 42 Disengage from the synchronous belt conveyor 1, and then drive the roller conveyor 42 to convey forward and reverse, so that the glass on it is conveyed to the A conveyor 2 or the B conveyor 3.

The conveying surfaces of the A conveyor 2 and the B conveyor 3 remain parallel, and the conveying surface of the synchronous belt conveyor 1 is lower than the conveying surfaces of the A conveyor 2 and the B conveyor 3, so the roller conveyor 42 drives the glass to lift Finally, the conveying surface of the roller conveyor 42 needs to be kept parallel to the conveying surfaces of the A conveyor 2 and the B conveyor 3, so that the glass can be conveyed thereto.

When the lifting device 43 is not started, the roller conveyor 42 shrinks in the gap between the synchronous belt conveyors 1, and the glass can move to the synchronous belt conveyor 1 directly above the roller conveyor 42, making it convenient for the roller conveyor 42 to be hidden. In the synchronous belt conveyor 1, and when necessary, it is introduced from the gap of the synchronous belt conveyor 1 to lift the glass, so as to separate from the synchronous belt conveyor 1 and facilitate transfer.

The lifting device 43 is one of a pneumatic cylinder, an electric cylinder and a hydraulic cylinder.

The above embodiments are only exemplary embodiments of the present invention and are not used to limit the present utility model. The protection scope of the present utility model is defined by the claims. Those skilled in the art can make various modifications or equivalent substitutions to the present utility model within the essence and protection scope of the utility model. Such modifications or equivalent substitutions should also be regarded as falling within the protection scope of the utility model.

Claims (6)

1. A glass transfer structure comprising a synchronous belt conveyor (1) for conveying glass, characterized in that: the glass conveying device is characterized in that an A conveyor (2) and a B conveyor (3) for glass sorting are arranged on two sides of the tail end of the synchronous belt conveyor (1), a transfer assembly (4) for guiding glass into the A conveyor (2) and the B conveyor (3) is arranged at the bottom of the tail end of the synchronous belt conveyor (1), the transfer assembly (4) comprises a supporting plate (41) arranged at the bottom of the tail end of the synchronous belt conveyor (1), a roller conveyor (42) for conveying glass is arranged on the supporting plate (41), a lifting device (43) for pushing the roller conveyor (42) to move up and down is arranged at the bottom end of the supporting plate (41), and the roller conveyor (42) drives the glass to jack up and convey the glass onto the A conveyor (2) and the B conveyor (3).

2. A glass transfer structure according to claim 1, wherein: the roller conveyor (42) conveys forward and backward in the direction of the A conveyor (2) and the B conveyor (3).

3. A glass transfer structure according to claim 1, wherein: the conveying surfaces of the conveyor A (2) and the conveyor B (3) are kept parallel, and the conveying surface of the synchronous belt conveyor (1) is lower than the conveying surfaces of the conveyor A (2) and the conveyor B (3).

4. A glass transfer structure according to claim 1, wherein: the frame at the bottom of the roller conveyor (42) is connected with the supporting plate (41) in a sliding way through a plurality of groups of guide posts (44).

5. A glass transfer structure according to claim 1, wherein: when the lifting device (43) is not started, the roller conveyor (42) is contracted in a gap between the synchronous belt conveyors (1), and glass can move onto the synchronous belt conveyor (1) right above the roller conveyor (42).

6. A glass transfer structure according to claim 1, wherein: the lifting device (43) is one of an air cylinder, an electric cylinder and a hydraulic cylinder.