CN217807429U - Electromagnetic conveying and glass packaging combined device - Google Patents

Abstract

The utility model relates to an electromagnetism transports composite set with glass packing belongs to packing apparatus technical field. The utility model comprises a carrier plate glass, an electromagnetic conveying mechanism used for transferring the carrier plate glass from a processing area to a packing area, and a glass packing mechanism positioned below the electromagnetic conveying mechanism, wherein the electromagnetic conveying mechanism comprises an operation guide rail, a lifting device arranged on the operation guide rail, and an electromagnetic chuck hung on the lifting device; glass packagine machine constructs, including packing platform and packing paper, the packing platform is the cuboid setting, and packing paper is spread the back-off in packing platform surface. The utility model provides a support plate glass processing district shift to the packing district at every turn only can absorb a slice, and efficiency is lower, transports the problem that the frequency is low excessively, can have the packaging process concurrently when transporting. The utility model discloses can extensively apply to the packing apparatus occasion.

Description

Electromagnetic conveying and glass packaging combined device

Technical Field

The utility model relates to an electromagnetism transports composite set with glass packing belongs to packing apparatus technical field.

Background

The support plate glass has the characteristics of large area, light weight and thin thickness, the conventional support plate glass is conveyed to a packaging area by a processing area and needs to be sucked through a vacuum electromagnetic chuck, the electromagnetic chuck directly sucks the glass, the glass is often broken due to overlarge suction force, cracks and the like appear, or the electromagnetic chuck leaks the air and the glass falls and is broken. However, the prior art has the following drawbacks: the glass processing area of the support plate is transferred to the packaging area, only one piece of glass can be sucked at a time, the efficiency is low, the conveying frequency is too high, and therefore the reliability of the product quality in the production process is reduced.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned defect that prior art exists, the utility model provides an electromagnetism transports composite set with glass packing.

Electromagnetism transport and glass packaging's composite set, transport the mechanism including support plate glass, the electromagnetism that is used for transporting support plate glass to the packing district from the processing district to and be located the glass packagine machine of electromagnetism transport mechanism below and construct, wherein:

electromagnetism transport mechanism, including the operation guide rail, install the hoisting device on the operation guide rail to and hang the electromagnet on hoisting device, wherein:

the lifting device comprises an electric sliding block and a lifting mechanism, and the electric sliding block moves left and right along the running guide rail so as to drive the lifting mechanism on the electric sliding block to move;

the lifting mechanism comprises a lifting column, a fixed plate and support rods, the lifting column is positioned in the center of the upper surface of the fixed plate and movably arranged on the electric slider, the support rods are arranged at four end angles along the lower surface of the fixed plate, and the tail ends of the support rods are provided with electromagnetic chucks; a clip-shaped tray is adsorbed on the electromagnetic chuck; a carrier plate glass is stacked on the square tray;

glass packagine machine constructs, including packing platform and packing paper, the packing platform is the cuboid setting, and packing paper is spread the back-off in packing platform surface.

Preferably, the paper-clip tray moves to the upper part of the packing platform, the paper-clip tray falls to the bottom of the packing platform, and the conveyed carrier plate glass is omitted on the packing platform.

Preferably, the square hole area of the clip tray is larger than the cross-sectional area of the packing platform, so that the requirement of clip tray falling is met.

Preferably, the packing paper is a stack of packing paper, the stack of packing paper is folded to be completely matched with the packing platform and is laid on the packing platform in advance, and the carrier plate glass falls on the packing platform and then is unfolded from the lower part for packing.

Preferably, the electromagnetic chuck is electrified again to grab the clip-shaped tray, and meanwhile, the packaged carrier plate glass is lifted and conveyed to a transport vehicle.

Preferably, the four edges of the bottom of the packing paper are provided with elastic soft plastics, and the four side faces are directly transited to the front packing state from the inverted buckling state through the elastic soft plastics.

The utility model has the advantages that: the combined device for electromagnetic conveying and glass packaging solves the problems that the carrier plate glass has the characteristics of large area, light weight and thin thickness, the conventional carrier plate glass is conveyed to a packaging area from a processing area and needs to be absorbed by a vacuum electromagnetic chuck, the electromagnetic chuck directly absorbs the glass, the glass is broken due to overlarge absorption force, cracks appear in the glass, or the electromagnetic chuck leaks air, and the glass falls and is broken; the problem that a carrier plate glass processing area is transferred to a packaging area and only can absorb one piece at a time, efficiency is low, and conveying frequency is too low is solved, and the packaging process can be achieved during conveying.

Drawings

Fig. 1 is one of the state diagrams of the present invention.

Fig. 2 is a second state diagram of the present invention.

Fig. 3 is a schematic view of the structure of the wrapping paper.

Fig. 4 is a diagram showing a variation of the conveying process of the electromagnetic chuck.

In the figure: 1. running the guide rail; 2. an electric slider; 3. a lifting column; 4. a fixing plate; 5. a support bar; 6. an electromagnetic chuck; 7. a clip-shaped tray; 8. a carrier plate glass; 9. a packaging platform; 10. and (7) packaging paper.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example (b):

the to-be-solved technical problem of the utility model is: firstly, conventional support plate glass transports the packing district by the processing district and need absorb through vacuum electromagnet, and electromagnet directly inhales glass on, often because too big glass that causes of suction falls crackle etc. appear, perhaps electromagnet leaks gas glass and drops and break into pieces the problem of phenomenon. Secondly, the problem that the reliability of the product quality in the production process is reduced because the processing area of the carrier plate glass 8 is transferred to the packaging area and only one piece can be absorbed each time, the efficiency is lower, and the conveying frequency is too high is shown in figure 1,

in combination with the carrier plate glass conveying process shown in fig. 1 and the carrier plate glass packaging process shown in fig. 2, the utility model comprises a carrier plate glass 8, an electromagnetic conveying mechanism for transferring the carrier plate glass 8 from the processing area to the packaging area, and a glass packaging mechanism located below the electromagnetic conveying mechanism.

Electromagnetism transport mechanism, including operation guide rail 1, install the hoisting device on operation guide rail 1 to and hang electromagnet 6 on hoisting device, wherein:

the lifting device comprises an electric sliding block 2 and a lifting mechanism, wherein the electric sliding block 2 moves left and right along the running guide rail 1 so as to drive the lifting mechanism on the electric sliding block to move;

the lifting mechanism comprises a lifting column 3, a fixed plate 4 and a support rod 5, wherein the lifting column 3 is positioned in the center of the upper surface of the fixed plate 4 and is movably arranged on the electric slide block 2, the support rod 5 is arranged at four end angles along the lower surface of the fixed plate 4, and an electromagnetic chuck 6 is arranged at the tail end of the support rod 5; a square tray 7 is adsorbed on the electromagnetic chuck 6; a carrier plate glass 8 is stacked on the square tray 7;

glass packagine machine constructs, including packing platform 9 and packing paper 10, packing platform 9 is the cuboid setting, and packing paper 10 is spread and is reversed in packing platform 9 surface. The packaging platform 9 is a platform for integrally packaging the carrier plate glass.

The clip tray 7 moves above the packing platform 9, the clip tray 7 falls to the bottom of the packing platform 9, and the conveyed carrier plate glass 8 is left on the packing platform 9. The square hole area of the paper clip tray 7 is larger than the cross-sectional area of the packing platform 9, and the requirement of falling of the paper clip tray 7 is met.

The electromagnetic chuck 6 is electrified again to grab the clip-shaped tray 7, and simultaneously, the packaged carrier plate glass 8 is supported and conveyed to a transport vehicle. The electromagnetic chuck 6 has electromagnetic attraction after being electrified, and the magnetic force is increased or reduced along with the current.

As shown in fig. 3, the packing paper 10 is a stack of packing paper 10, which is folded to be completely matched with the packing platform 9, laid on the packing platform 9 in advance, and the carrier plate glass 8 falls on the packing platform 9 and then is unfolded from below to be packed. The four edges of the bottom of the packaging paper 10 are provided with elastic soft plastics, and the four side faces are directly transited to a front packaging state from a reverse buckling state through the elastic soft plastics. The packaging paper 10 is a special foldable packaging paper 10, can be folded to be completely matched with the packaging platform 9, is laid on the packaging platform 9 in advance, and can be unfolded from the lower part after glass falls on the platform.

The utility model discloses a use as follows: as shown in fig. 4, after being powered on, the electromagnetic chuck 6 can lift the clip tray 7 with the carrier plate glass by the electric lifting device and transport the clip tray along the running rail 1 to the packing platform 9. When the carrier plate glass is completely supported by the packing platform 9, the power supply is cut off and the clip tray 7 falls down. At this time, the laid packing paper 10 is unwound and packed. And electrifying again after packaging is finished, grabbing the square-shaped tray 7 by the electromagnetic disc, and simultaneously supporting the packaged carrier plate glass to be conveyed to a transport vehicle.

The combined device for electromagnetic conveying and glass packaging solves the problems that the carrier plate glass 8 has the characteristics of large area, light weight and thin thickness, the conventional carrier plate glass is conveyed to a packaging area from a processing area and needs to be absorbed by a vacuum electromagnetic chuck, the electromagnetic chuck directly absorbs the glass, the glass is often broken due to overlarge absorption force, cracks appear in the glass, or the electromagnetic chuck air leakage glass falls and is broken; the problem that the processing area of the carrier plate glass 8 is transferred to the packaging area and only one piece of glass can be sucked at each time, the efficiency is low, and the conveying frequency is too high is solved, and the packaging process can be realized while the glass is conveyed.

The utility model discloses can extensively apply to the packing apparatus occasion.

The above-mentioned matters which are not mentioned are common technical means in the art, and are most typically described in the textbook "single chip microcomputer principle and its application" published by the university press of Qinghua, 2012, so that the above description and the accompanying drawings sufficiently illustrate the embodiments of the present invention to enable those skilled in the art to practice them.

Claims (6)

1. A combined electromagnetic conveyance and glass packing apparatus, comprising a carrier plate glass (8), an electromagnetic conveyance mechanism for transferring the carrier plate glass (8) from a processing area to a packing area, and a glass packing mechanism located below the electromagnetic conveyance mechanism, wherein:

electromagnetism transport mechanism, including operation guide rail (1), install hoisting device on operation guide rail (1) to and hang electromagnet (6) on hoisting device, wherein:

the lifting device comprises an electric sliding block (2) and a lifting mechanism, wherein the electric sliding block (2) moves left and right along the running guide rail (1) so as to drive the lifting mechanism positioned on the electric sliding block to move;

the lifting mechanism comprises a lifting column (3), a fixed plate (4) and support rods (5), wherein the lifting column (3) is positioned in the center of the upper surface of the fixed plate (4) and movably arranged on the electric sliding block (2), the support rods (5) are arranged at four end angles along the lower surface of the fixed plate (4), and the tail ends of the support rods (5) are provided with electromagnetic chucks (6); a clip-shaped tray (7) is adsorbed on the electromagnetic chuck (6); a carrier plate glass (8) is stacked on the square-shaped tray (7);

glass packagine machine constructs, including packing platform (9) and packing paper (10), packing platform (9) are the cuboid setting, and packing paper (10) are spread and are reversed in packing platform (9) surface.

2. The combination electromagnetic conveyance and glass packing device according to claim 1, wherein the paper-clip tray (7) is moved above the packing platform (9), the paper-clip tray (7) falls to the bottom of the packing platform (9), and the conveyed carrier glass (8) is left on the packing platform (9).

3. The combination electromagnetic conveyance and glass packaging apparatus according to claim 2, wherein the square hole area of the clip tray (7) is larger than the cross-sectional area of the packaging platform (9), so as to meet the requirement of dropping the clip tray (7).

4. A combined electromagnetic conveying and glass packing device according to claim 2, characterized in that the packing paper (10) is a stack of packing paper (10) which is folded to completely fit the packing platform (9), laid on the packing platform (9) in advance, and the carrier glass (8) is dropped onto the packing platform (9) and then the packing package is unfolded from below.

5. A combined electromagnetic conveyance and glass packing apparatus according to claim 4, wherein the electromagnetic chuck (6) again electrically grips the clip tray (7) and simultaneously lifts the packed carrier glass (8) for conveyance to a transport vehicle.

6. A combined electromagnetic conveyance and glass packaging apparatus according to claim 4, wherein the bottom four edges of the packaging paper (10) are provided with a resilient soft plastic material, and the four sides are directly transited from the inverted state to the front packaging state via the resilient soft plastic material.

Images