CN219308815U - A high-efficient recovery unit for support plate glass - Google Patents

Abstract

The utility model discloses a high-efficiency recovery device for carrier plate glass, which aims to solve the technical problems that in the prior art, due to the fact that vertically dropped glass occurs when waste is scrapped, gaps at accumulation positions become large, the capacity is reduced, the glass needs to be frequently taken out, and the working efficiency is reduced. The recycling device comprises a recycling shell, wherein the recycling shell is internally connected with a slope, the slope and the inner wall of the recycling shell are connected with a reticular grid plate, a transverse plate is arranged in the recycling shell, and a sliding groove is formed in one side of the transverse plate. This recovery unit, carrier plate glass can drive the quartering hammer down motion through diaphragm down motion when the hydraulic telescoping rod extends when sliding to the upper surface of netted grid tray through the oblique landslide, and when the quartering hammer down motion was to carrier plate glass's surface position, the quartering hammer vibration can be broken carrier plate glass, and carrier plate glass can fall into the bottom side of retrieving the shell through the breakage to can make the waste product volume increase that the recovery shell can hold.

Description

A high-efficient recovery unit for support plate glass

Technical Field

The utility model belongs to the technical field of recovery devices, and particularly relates to a high-efficiency recovery device for carrier glass.

Background

Defective products produced in the processing process of the carrier glass need to be recovered. The existing mode is generally that after defective products are detected in the detection link, the defective products are conveyed to a waste port through a belt for recovery treatment. In this process, the carrier glass does not have to lie flat at the bottom due to free falling, but can also fall vertically at the bearing place, so that the space at the bearing place becomes larger when the situation occurs, and the amount of waste products which can be accommodated is greatly reduced when the situation occurs more and more, so that the change of the recovery efficiency is low. In the using process of the existing recovery device, the following problems exist:

because the vertical glass that drops that can appear when the waste product is scrapped leads to the space grow of accumulation department, reduces the capacity, makes it need often take out, has reduced work efficiency.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a high-efficiency recovery device for carrier plate glass, which aims to solve the technical problems that in the prior art, due to the fact that vertically dropped glass occurs when waste is scrapped, the gap at the accumulation position is enlarged, the capacity is reduced, the carrier plate glass needs to be frequently taken out, and the working efficiency is reduced.

(2) Technical proposal

In order to solve the technical problems, the utility model provides the efficient recovery device for the carrier plate glass, which comprises a recovery shell and is characterized in that the inside of the recovery shell is connected with a slope, the slope and the inner wall of the recovery shell are connected with a net grid plate, a transverse plate is arranged in the recovery shell, a chute is formed in one side of the transverse plate, a sliding rail is connected with the inner wall of the recovery shell, which is close to the chute, a lifting mechanism is arranged between the recovery shell and the transverse plate, a breaking hammer is arranged in the transverse plate, a heating mechanism is arranged in the transverse plate, the breaking hammer is connected with an external controller, and thus the breaking hammer can be controlled to operate through the external controller, and the carrier plate glass can be broken through vibration during operation of the breaking hammer.

When the recovery device of the technical scheme is used, firstly unqualified carrier plate glass is conveyed to the inlet of the recovery shell through the belt, then the carrier plate glass can fall into the recovery shell, the carrier plate glass can slide to the upper surface of the mesh grid plate through a slope after entering the recovery shell, then a hydraulic telescopic rod can be operated, the hydraulic telescopic rod can extend when in operation, the hydraulic telescopic rod can drive the transverse plate to move downwards when in extension, the transverse plate can drive the chute to slide downwards on the surface of the sliding rail, the transverse plate can drive the breaking hammer to move downwards, and when the breaking hammer moves downwards to the surface position of the carrier plate glass, the breaking hammer can break the carrier plate glass, and the carrier plate glass which is fully broken can fall into the bottom side of the recovery shell through the mesh grid plate.

Preferably, the recycling shell and the inclined landslide are of an integrated structure, the sliding grooves and the sliding rails are provided with two groups, the transverse plates are in sliding connection with the sliding rails through the sliding grooves, the downward movement of the transverse plates can drive the sliding grooves to slide downwards on the surfaces of the sliding rails, and therefore the movement direction of the transverse plates can be limited.

Further, elevating system includes hydraulic telescoping rod, hydraulic telescoping rod installs the top at the diaphragm, hydraulic telescoping rod connects the inner wall at the recovery shell.

Furthermore, a telescopic structure is formed between the hydraulic telescopic rod and the transverse plate, the hydraulic telescopic rod can stretch when in operation, and the transverse plate can be driven to longitudinally move when the hydraulic telescopic rod stretches.

Still further, heating mechanism includes heating controller and heating wire, heating controller installs the bottom side at the diaphragm, one side of heating controller is connected with the heating wire, the heating wire cup joints the surface at the quartering hammer.

Furthermore, breaking hammer, heating controller and heating wire are provided with six groups in rectangular array distribution on the surface of diaphragm, heating controller can control heating wire to heat up, heating wire intensifies and can heat the breaking hammer, and glass is more fragile when breaking hammer heating can pass through the temperature.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, when the carrier plate glass slides to the upper surface of the net-shaped grid plate through the inclined landslide, the hydraulic telescopic rod can drive the breaking hammer to move downwards through the transverse plate when extending, and when the breaking hammer moves downwards to the surface position of the carrier plate glass, the breaking hammer can break the carrier plate glass, and the carrier plate glass can fall into the bottom side of the recovery shell after breaking, so that the waste amount which can be accommodated by the recovery shell can be increased.

Drawings

FIG. 1 is a schematic view of the structure of an embodiment of the device of the present utility model;

FIG. 2 is a side cross-sectional view of one embodiment of the apparatus of the present utility model;

FIG. 3 is a front cross-sectional view of one embodiment of the apparatus of the present utility model;

fig. 4 is a schematic view of a crushing structure of an embodiment of the apparatus of the present utility model.

The marks in the drawings are: 1. recovering the shell; 2. a slope is inclined; 3. a mesh grid; 4. a cross plate; 5. a chute; 6. a slide rail; 7. a hydraulic telescopic rod; 8. a breaking hammer; 9. a heating controller; 10. and heating the wire.

Detailed Description

This embodiment is a high-efficient recovery unit for support plate glass, its structure schematic diagram is as shown in fig. 1-4, this recovery unit is including retrieving shell 1, the internally connected of retrieving shell 1 has oblique landslide 2, oblique landslide 2 is connected with netted grid tray 3 with the inner wall of retrieving shell 1, the inside of retrieving shell 1 is provided with diaphragm 4, spout 5 has been seted up to one side of diaphragm 4, be close to the recovery shell 1 inner wall of spout 5 and be connected with slide rail 6, install elevating system between retrieving shell 1 and the diaphragm 4, the internally mounted of diaphragm 4 has quartering hammer 8, the internally mounted of diaphragm 4 has heating mechanism.

Wherein, retrieve between shell 1 and the oblique landslide 2 as an organic whole structure, spout 5 and slide rail 6 are provided with two sets of, and diaphragm 4 constitutes sliding connection through spout 5 and slide rail 6, and elevating system includes hydraulic telescoping rod 7, and hydraulic telescoping rod 7 installs at the top of diaphragm 4, and hydraulic telescoping rod 7 connects the inner wall at retrieving shell 1, constitutes extending structure between hydraulic telescoping rod 7 and the diaphragm 4.

In addition, the heating mechanism includes heating controller 9 and heating wire 10, and heating controller 9 installs the bottom side at diaphragm 4, and one side of heating controller 9 is connected with heating wire 10, and heating wire 10 cup joints the surface at breaking hammer 8, and breaking hammer 8, heating controller 9 and heating wire 10 are provided with six groups in rectangular array distribution on the surface of diaphragm 4.

Working principle: when the device of the technical scheme is used, firstly unqualified carrier plate glass is conveyed to the inlet of the recovery shell 1 through the belt, then the carrier plate glass can fall into the recovery shell 1, the carrier plate glass can slide to the upper surface of the reticular grid plate 3 through the inclined slide 2 after entering the recovery shell 1, then the hydraulic telescopic rod 7 can be operated, the hydraulic telescopic rod 7 can be extended when operated, the transverse plate 4 can be driven to move downwards when the hydraulic telescopic rod 7 extends, the transverse plate 4 can be driven to move downwards to drive the chute 5 to slide downwards on the surface of the sliding rail 6, the transverse plate 4 can be driven to move downwards by the transverse plate 4, meanwhile, the heating controller 9 can control the heating wire 10 to heat the breaking hammer 8, when the breaking hammer 8 moves downwards to the surface position of the carrier plate glass, the breaking hammer 8 can break the carrier plate glass, and the fully broken carrier plate glass can fall into the bottom side of the recovery shell 1 through the reticular grid plate 3.

All technical features in the embodiment can be freely combined according to actual needs.

The foregoing embodiments are preferred embodiments of the present utility model, and in addition, the present utility model may be implemented in other ways, and any obvious substitution is within the scope of the present utility model without departing from the concept of the present utility model.

Claims (6)

1. A high-efficient recovery unit for support plate glass, this recovery unit includes recovery shell (1), its characterized in that, the internally connected of recovery shell (1) has oblique landslide (2), the inner wall of oblique landslide (2) and recovery shell (1) is connected with netted grid tray (3), the inside of recovery shell (1) is provided with diaphragm (4), spout (5) have been seted up to one side of diaphragm (4), are close to spout (5) recovery shell (1) inner wall connection has slide rail (6), install elevating system between recovery shell (1) and diaphragm (4), internally mounted of diaphragm (4) has quartering hammer (8), the internally mounted of diaphragm (4) has heating mechanism.

2. The efficient recovery device for the carrier glass according to claim 1, wherein an integrated structure is formed between the recovery shell (1) and the inclined slide (2), two groups of sliding grooves (5) and sliding rails (6) are arranged, and the transverse plates (4) are in sliding connection with the sliding rails (6) through the sliding grooves (5).

3. An efficient recovery device for carrier glass according to claim 1, characterized in that the lifting mechanism comprises a hydraulic telescopic rod (7), the hydraulic telescopic rod (7) is mounted on the top of the transverse plate (4), and the hydraulic telescopic rod (7) is connected to the inner wall of the recovery housing (1).

4. A high-efficiency recovery device for carrier glass according to claim 3, characterized in that a telescopic structure is formed between the hydraulic telescopic rod (7) and the transverse plate (4).

5. The efficient recovery device for the carrier glass according to claim 1, wherein the heating mechanism comprises a heating controller (9) and heating wires (10), the heating controller (9) is arranged on the bottom side of the transverse plate (4), one side of the heating controller (9) is connected with the heating wires (10), and the heating wires (10) are sleeved on the surface of the breaking hammer (8).

6. The efficient recovery device for the carrier glass according to claim 5, wherein six groups of breaking hammers (8), heating controllers (9) and heating wires (10) are distributed on the surface of the transverse plate (4) in a rectangular array.

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