CN222860553U - A stacking conveyor for glass transfer - Google Patents

Abstract

The utility model discloses a stacking conveyor for glass transfer. The stacking conveyor of the utility model comprises: a conveyor body; a conveying roller shaft, wherein a plurality of conveying roller shafts are arranged inside the conveyor body; and a limiting column, wherein the limiting column is located on the inner wall of the conveyor body. The utility model limits the four corners of the lifting frame by limiting rings and limiting columns, and controls four groups of electric cylinders by a controller, so that the lifting frame can be raised from the gaps between adjacent conveying roller shafts, thereby lifting the glass to suspend the conveying process of the glass. The device replaces the multiple chain-driven lifting methods of the existing structure with electric cylinders, limiting columns and limiting rings, thereby simplifying the lifting structure and reducing the parts required for lifting. The controller can individually control the electric cylinders that have been detected to be specifically damaged, thereby shortening the time required to check the damaged parts and improving the working efficiency of glass conveying and grinding.

Description

Lamination conveying frame for glass transit

Technical Field

The utility model relates to the technical field of laminated conveying frames, in particular to a laminated conveying frame for glass transfer.

Background

The production process of the glass comprises the steps of raw material preparation, stirring and melting, forming and cooling, surface treatment, inspection and packaging, wherein in the surface treatment, the whole glass is conveyed to polishing equipment in the previous process, four sides of the glass are polished, a lamination conveying frame is arranged at the front end of a polishing device, when the front end of the glass is still polished, the front end conveys one glass, the lamination conveying frame can lift the glass, so that the glass is integrally lifted, and after the glass is polished, the glass can be put down to be continuously conveyed for polishing, so that the glass can be polished orderly;

The existing lamination device is characterized in that a lifting frame is installed below a gap of a conveying roller shaft, a plurality of vertical chains are installed on the transmission frame to lift the lifting frame through mechanical transmission, and the transmission frame is in meshed connection transmission by a plurality of groups of rotating shafts and the chains, so that the lifting frame can lift glass under the transmission of a power source.

Disclosure of utility model

The utility model aims to provide a lamination conveying frame for glass transfer, which solves the problems in the prior art.

The laminated conveying frame for glass transfer comprises a conveying frame main body, a conveying roller shaft, a limiting column, a lifting frame, a limiting ring, a fixing sheet, an electric cylinder and a controller. The conveying roll shafts are arranged on the inner side of the conveying frame main body;

The device comprises a conveying frame main body, a limiting column, a lifting frame, limiting rings, fixing plates, a control main board and a controller, wherein the limiting column is arranged on the inner wall of the conveying frame main body, the conveying frame main body is provided with four groups of limiting columns, the lifting frame is arranged below a conveying roller shaft, the limiting rings are arranged at four corners of the outer wall of the lifting frame, the limiting rings are arranged on the outer wall of the limiting column, the fixing plates are connected to the bottom of the lifting frame by bolts, the top of an electric cylinder is arranged at the bottom of the fixing plates, the bottom of the electric cylinder is arranged at the bottom of the conveying frame main body, and the control main board is electrically connected with the driver.

Through adopting above-mentioned technical scheme, through spacing lifting frame four corners by spacing ring and spacing post, control four sets of electric cylinders by the controller, make lifting frame can rise in the adjacent conveying roller gap, thereby with glass can jack-up suspension glass's transport process, the device replaces the many chain transmission lifting modes of current structure through electric cylinder, spacing post and spacing ring, with lifting structure simplification, reduce the required part of lifting, but through the electric cylinder of controller individual control detection specific damage, thereby shorten the required time of investigation damage part, improve the work efficiency of polishing to glass transport.

Preferably, the carriage body includes:

The two fixing columns are positioned on the diagonal outer wall of the conveying frame main body;

The photoelectric sensor is positioned at the top of one of the fixed columns;

And the photoelectric receiver is positioned at the top of the other fixed column.

Through adopting above-mentioned technical scheme, when grinding device opens photoelectric sensor and photoelectric receiver when polishing, the light that photoelectric sensor sent can be carried out diagonal receipt by photoelectric receiver, can lead to light by refracting when glass moves, makes the unable receipt signal of photoelectric receiver, can carry out lifting by controller control jar and stop glass and carry to realize automatic discernment control jar and lifting frame and carry out the work of controlling glass.

Preferably, the photoelectric sensor is located at the glass moving front end of the conveying frame body, the photoelectric receiver is located at the glass moving rear end of the conveying frame body, and light rays emitted by the photoelectric sensor are close to the top of the conveying roller shaft.

Through adopting above-mentioned technical scheme, through the design of this structure, can launch light and accept when no glass passes by, when glass carries the process, be close to the conveying roller top position and guarantee that light can be blocked scattered light by thinner glass to carry out the lifting by controller control jar, improve device response glass's sensitivity.

Preferably, a plurality of groups of lifting plates are arranged at the top of the lifting frame, and the lifting plates are positioned in gaps between adjacent conveying roller shafts.

Through adopting above-mentioned technical scheme, through connect multiunit lifting plate in the gap of adjacent conveying roller at the top of lifting frame, when the lifting frame was jacked, the accessible lifting plate top carried out the multiple spot position lifting to glass, when guaranteeing that glass can be stabilized the lifting, still can not influence the normal operating of conveying roller.

Preferably, the lifting frame comprises:

The rubber strips are positioned at the tops of the lifting plates, and the rubber strips are arranged at the tops of each group of lifting plates.

Through adopting above-mentioned technical scheme, through pasting the rubber strip to the lifting board, frictional force when can increasing lifting glass, make glass can stably stop at the top of rubber strip, lead to glass to remove on the lifting board top because of the inertia that glass removed when avoiding lifting glass.

Preferably, the height of the lifting plate on the lifting frame is larger than the diameter of the conveying roller shaft.

Through adopting above-mentioned technical scheme, through being greater than the diameter of carrying the roller with lifting board height, can make lifting board top be higher than the top of carrying the roller after the lifting frame by the lifting to guarantee to jack-up glass and leave the conveying roller and stop carrying.

Preferably, the carriage body includes:

enclose and keep off, enclose and keep off the top that is located carriage main part both sides.

Through adopting above-mentioned technical scheme, enclose the fender through the installation and can block the inside conveying glass of carriage main part, the security when improving conveying glass, the original transmission frame cancellation in top of carriage main part can reduce the volume of original device simultaneously, reduces the space that the device occupy the workshop.

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

(1) Four corners of the lifting frame are limited by the limiting rings and the limiting columns, the four groups of electric cylinders are controlled by the controller, so that the lifting frame can be lifted from gaps of adjacent conveying roller shafts, the glass can be jacked to suspend the conveying process of the glass, the device replaces a plurality of chain transmission lifting modes of the existing structure through the electric cylinder, the limiting column and the limiting ring, simplifies the lifting structure, reduces parts required by lifting, and can independently control and detect the electric cylinder with specific damage through the controller, thereby shortening the time required by checking the damaged parts and improving the work efficiency of conveying and polishing glass;

(2) When the former glass is polished in the polishing device, the photoelectric sensor and the photoelectric receiver are started by the existing controller, light emitted by the photoelectric sensor can be diagonally received by the photoelectric receiver, and when the glass moves, the light can be refracted, so that the photoelectric receiver can not receive signals, and the controller can control the electric cylinder to lift and stop the glass to carry out conveying work, so that the automatic identification control of the electric cylinder and the lifting frame to control the glass are realized.

Drawings

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

FIG. 2 is a schematic view of a connection structure of a lifting frame according to the present utility model;

FIG. 3 is a top view of the structure of the utility model for connecting the lifting frame with the electric cylinder;

fig. 4 is a schematic view of the overall structure of the device of the present utility model.

In the figure, 1, a conveying frame main body; 2, a conveying roll shaft, 3, a limit column, 4, a lifting frame, 5, a limit ring, 6, a fixing sheet, 7, an electric cylinder, 8, a rubber strip, 9, a fixing column, 10, a photoelectric sensor, 11, a photoelectric receiver, 12, a controller and 13, and a fence.

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, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model is described in further detail below with reference to fig. 1-4.

Referring to fig. 1 to 4, in one embodiment, the present utility model provides a lamination carrier for glass transfer, the lamination carrier includes:

The conveying frame body 1 is used for conveying glass and can lift the glass to stop conveying;

the conveying roller shafts 2 are arranged on the inner side of the conveying frame main body 1, and the conveying roller shafts 2 can continuously and forwards convey glass conveyed from the front end to the polishing device for polishing;

The limiting columns 3 are positioned on the inner wall of the conveying frame main body 1, four groups of limiting columns 3 are arranged on the inner wall of the conveying frame main body 1, and four limiting columns 3 can limit four corners of the lifting structure, so that the glass can be stably and horizontally lifted;

The lifting frame 4 is positioned below the conveying roller shaft 2, and when the lifting frame 4 is lifted, glass conveyed on the conveying roller shaft 2 can be jacked up and lifted;

The limiting rings 5 are positioned at four corners of the outer wall of the lifting frame 4, the limiting rings 5 are arranged on the outer wall of the limiting column 3, the limiting rings 5 are fixedly connected to the four corners of the lifting frame 4, and the limiting rings 5 are inserted into the limiting column 3, so that the limiting of the four corners of the lifting frame 4 can only vertically move along the direction of the limiting column 3;

the fixing piece 6 is connected to the bottom of the lifting frame 4 by bolts;

The top of the electric cylinder 7 is positioned at the bottom of the fixing piece 6, the top of the electric cylinder 7 can be fixed at the bottom of the lifting frame 4 by using bolts through two fixing holes on the fixing piece 6, the bottom of the electric cylinder 7 is arranged at the bottom of the conveying frame main body 1, the bottom of the electric cylinder 7 is fixed at the bottom of the conveying frame main body 1, and the bottom of the electric cylinder 7 is supported so as to jack up the lifting frame 4;

The controller 12, the controller 12 comprises control mainboard and driver, control mainboard and driver electric connection, the controller 12 sends the signal by control mainboard, controls four electric jar 7 flexible by the driver to reach horizontal stable removal lifting frame 4.

Referring to fig. 2 and 4, the carriage body 1 includes:

the fixing columns 9 are arranged on the diagonal outer walls of the conveying frame main body 1, and the fixing columns 9 are used for fixing the detection structure at a proper position;

The photoelectric sensor 10 is positioned at the top of one of the fixed columns 9;

The photoelectric receiver 11, photoelectric receiver 11 is located the top of another fixed column 9, when grinding device opens photoelectric sensor 10 and photoelectric receiver 11 when polishing, the light that photoelectric sensor 10 sent can be discerned by photoelectric receiver 11 diagonal receipt, and can lead to light to be refracted when glass moves, make photoelectric receiver 11 unable receive the signal, can carry out lifting by control cylinder 7 by controller 12 and stop glass and carry, thereby realize automatic discernment control cylinder 7 and lifting frame 4 and carry out the transportation work of control glass, photoelectric sensor 10 is located the glass of carriage main part 1 and removes the front end, can send the light signal at the front end and receive for the rear structure, judge whether there is glass to pass through, photoelectric receiver 11 is located the glass of carriage main part 1 and remove the rear end, be used for accepting the signal that the front end sent and discern, and the light that photoelectric sensor 10 sent is close to the top of carrying roller 2, be close to carrying roller 2 top position assurance light can be blocked scattered light by thinner glass, with lifting roller 7 is controlled by the controller 12, thereby improve the sensitivity of device response glass, the top of lifting frame 4 has the multiunit roller, and the adjacent lifting plate 2 is located the lifting plate when the lifting frame 2 can not be carried out the lifting, the lifting in the lifting frame 2, the adjacent lifting plate can be carried out the lifting gap when lifting frame 2 is in the lifting frame is at the lifting position 2.

Referring to fig. 2 and 4, the lifting frame 4 includes:

Rubber strip 8, rubber strip 8 is located the top of lifting plate, and every group lifting plate top all has rubber strip 8, frictional force when can increasing lifting glass, make glass can stably stop at the top of rubber strip 8, lead to glass to remove on lifting plate top because of the inertia that glass removed when avoiding lifting glass, lifting plate height on the lifting frame 4 is greater than the diameter of carrying roller 2, lifting plate height is greater than the diameter of carrying roller 2, can make lifting plate top be higher than the top of carrying roller 2 after lifting frame 4 is lifted, thereby guarantee that can jack-up glass leaves carrying roller 2 and stop carrying, conveying frame main part 1 includes:

enclose and keep off 13, enclose and keep off 13 and be located the top of carriage main part 1 both sides, install and enclose and keep off 13 and can block the inside conveying glass of carriage main part 1, the security when improving conveying glass, the original transmission frame cancellation in the top of carriage main part 1 can reduce the volume of original device simultaneously, reduces the space that the device occupy the workshop.

When the rear end polishing device is used, the controller 12 starts the photoelectric sensor 10 and the photoelectric receiver 11, light emitted by the photoelectric sensor 10 can be received diagonally by the photoelectric receiver 11, the light can be refracted when the glass moves, the photoelectric receiver 11 can not receive signals, the four groups of electric cylinders 7 can be controlled to extend by the controller 12, four corners of the lifting frame 4 are limited by the limiting rings 5 and the limiting columns 3, and the lifting plate of the lifting frame 4 can be lifted from a gap between adjacent conveying roller shafts 2, so that the glass can be jacked to pause the conveying process of the glass.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

Claims (7)

1. A lamination conveying frame for glass transfer is characterized in that the lamination conveying frame comprises:

a carriage body;

the conveying roll shafts are arranged on the inner side of the conveying frame main body;

The limiting columns are positioned on the inner wall of the conveying frame main body, and four groups of limiting columns are arranged on the inner wall of the conveying frame main body;

The lifting frame is positioned below the conveying roller shaft;

The limiting rings are positioned at four corners of the outer wall of the lifting frame, and are arranged on the outer wall of the limiting column;

the fixing piece is connected to the bottom of the lifting frame by using a bolt;

The top of the electric cylinder is positioned at the bottom of the fixing sheet, and the bottom of the electric cylinder is positioned at the bottom of the conveying frame main body;

the controller is composed of a control main board and a driver, and the control main board is electrically connected with the driver.

2. The laminated carrier for glass transition as claimed in claim 1, wherein the carrier body comprises:

The two fixing columns are positioned on the diagonal outer wall of the conveying frame main body;

The photoelectric sensor is positioned at the top of one of the fixed columns;

And the photoelectric receiver is positioned at the top of the other fixed column.

3. The laminated conveyor frame for glass transition according to claim 2, wherein the photoelectric sensor is positioned at the glass moving front end of the conveyor frame body, the photoelectric receiver is positioned at the glass moving rear end of the conveyor frame body, and light rays emitted by the photoelectric sensor are close to the top of the conveying roller shaft.

4. The laminated conveying frame for glass transfer according to claim 1, wherein a plurality of groups of lifting plates are arranged on the top of the lifting frame, and the lifting plates are positioned in gaps between adjacent conveying roll shafts.

5. The lamination carriage for glass transition according to claim 4, wherein the lifting frame comprises:

The rubber strips are positioned at the tops of the lifting plates, and the rubber strips are arranged at the tops of each group of lifting plates.

6. The laminated sheet conveying frame for glass transfer as in claim 4, wherein the height of the lifting plate on the lifting frame is larger than the diameter of the conveying roller shaft.

7. The laminated carrier for glass transition as claimed in claim 1, wherein the carrier body comprises:

enclose and keep off, enclose and keep off the top that is located carriage main part both sides.