CN115991389A - Glass feeding equipment - Google Patents

Abstract

The invention discloses glass feeding equipment which comprises a base, a bearing frame, supporting plates and a turnover assembly, wherein the bearing frame is slidably arranged on the base, the bearing frame is provided with a backup plate, the supporting plates are slidably arranged on the base, a plurality of supporting legs which are arranged at intervals in parallel are movably arranged on the bearing frame, the bottoms of the supporting legs are propped against the supporting plates, the supporting legs are provided with supporting surfaces, and the turnover assembly is arranged at one end of the base far away from the backup plate and is used for turning glass from the bearing frame to a horizontal state; according to the glass feeding equipment, the bearing frame capable of moving towards the glass overturning assembly is arranged, and the supporting legs are further arranged on the bearing frame, so that the angle of the supporting surface on the supporting legs is fixed, the inconvenience in fixing the angle of the glass placed on the bearing frame can be ensured, meanwhile, the glass is placed on the movable bearing frame, and extrusion force can be applied between the glass and the sucker, so that the glass adsorbing speed of the sucker is effectively improved, and the efficiency in glass feeding is further improved.

Description

Glass feeding equipment

Technical Field

The invention relates to the technical field of glass feeding equipment, in particular to glass feeding equipment.

Background

Glass need be handled through the multichannel process in the in-process of manufacturing, often need to transport glass from a process line to another process line, this in-process needs to use charging equipment in order to improve the efficiency of glass processing, current charging equipment is with glass on the carrier loader moves and carries on the processing bench through the sucking disc, because the fixed rocking arm of sucking disc is last, consequently can be circular motion along with the rotation of rocking arm, when glass put on the carrier loader simultaneously, glass's inclination is not fixed, there is sucking disc and the unable perpendicular butt joint of glass surface and leads to sucking disc and the unable problem of closely laminating of glass, can lengthen the time that the sucking disc adsorbed glass, cause glass's material loading efficiency to reduce, it needs to improve to be urgent.

Disclosure of Invention

In order to solve the technical problems in the background technology, the invention provides glass feeding equipment.

The invention provides glass feeding equipment, which comprises a base, a bearing frame, a supporting plate and a turnover assembly, wherein the bearing frame is slidably arranged on the base and is provided with a backup plate, the supporting plate is slidably arranged on the base, a plurality of supporting legs which are arranged at intervals in parallel are movably arranged on the bearing frame, the bottoms of the supporting legs are all abutted against the supporting plate, the supporting legs are provided with supporting surfaces, when a plurality of glass is respectively stacked on the supporting legs, the tops of the glass are abutted against the backup plate, the bottom end surface of the glass is abutted against the supporting surfaces, the turnover assembly is arranged at one end of the base far away from the backup plate and is used for turning the glass from the bearing frame to a horizontal state, the glass feeding equipment further comprises a first cylinder assembly and a second cylinder assembly, the first driving assembly is used for driving the bearing frame to be close to or far away from the turnover assembly, the second cylinder assembly is used for driving the supporting plate to be close to or far away from the turnover assembly, the turnover assembly is provided with a first station, the supporting plate is provided with a second station, when the supporting plate is in the second station, the turnover assembly is in contact with the glass and is fixed, and the end surface of the supporting leg of the glass close to the turnover assembly is coplanar with the end surface of the turnover assembly.

Preferably, the support leg is rotatably mounted on the carrier at an end remote from the flip assembly.

Preferably, the turnover assembly specifically comprises a mounting frame, a mounting plate, a sucker assembly and a third driving assembly, wherein the mounting frame is mounted on the base, the mounting plate is rotatably mounted on the mounting frame, the sucker assembly is mounted on the mounting plate, when the mounting plate is in a first station, the sucker assembly can be adsorbed and fixed on glass, the third driving assembly is mounted on the mounting frame, the output end of the third driving assembly is connected with the mounting plate, and the third driving assembly can drive the mounting plate to turn to a horizontal state from the first station.

Preferably, the base is provided with a guide groove, the bottom of the supporting plate is provided with an extension part, and the extension part is in fit sliding fit in the guide groove.

Preferably, when the glass is placed on the support legs and the bottom end faces are attached to the support surfaces, two adjacent glass side walls are attached to each other.

Preferably, each support sole end face is provided with a roller on one side close to the overturning assembly.

Preferably, the bottoms of the supporting feet are propped against the supporting plate, and particularly the rollers on the end surfaces of the supporting soles are propped against the supporting plate.

Preferably, the device further comprises a sliding rail, and the bearing frame is slidably mounted on the base through the sliding rail.

Preferably, rubber pads are arranged on the abutting surface of the backup plate and the glass and on the supporting surfaces.

According to the glass feeding equipment, the bearing frame capable of moving towards the glass overturning assembly is arranged, the supporting legs are further arranged on the bearing frame, and as the angle of the supporting surface on the supporting legs is fixed, when the glass is stacked, the bottom end surface of the glass is placed on the supporting surface, so that inconvenience in fixing the angle of the glass placed on the bearing frame can be ensured, the glass placed on the angle can be kept perpendicular to the angle of the sucker when the sucker is in a first station, the glass can be tightly attached to the surface of the glass when the sucker adsorbs the glass, meanwhile, the glass is placed on the movable bearing frame, when the sucker adsorbs the glass, the bearing frame approaches the sucker, a pressing force can be applied between the glass and the sucker, and therefore the glass adsorption speed of the sucker is effectively improved, and the glass feeding efficiency is further improved.

Drawings

FIG. 1 is a schematic diagram of a glass feeding apparatus according to the present invention;

FIG. 2 is a schematic view of a glass loading apparatus according to the present invention;

fig. 3 is another state diagram of a glass loading device according to the present invention.

Detailed Description

As shown in fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a glass feeding apparatus according to the present invention.

Referring to fig. 1-2, a glass loading device according to the present invention is provided, wherein a base 1, a carrier 2, a supporting plate 3 and a turnover assembly 5 are provided, the carrier 2 is slidably mounted on the base 1, the carrier 2 is provided with a backup plate 21, the supporting plate 3 is slidably mounted on the base 1, the carrier 2 is movably mounted with a plurality of supporting legs 6 arranged at intervals in parallel, the bottoms of the plurality of supporting legs 6 are all abutted against the supporting plate 3, the supporting legs 6 are provided with supporting surfaces 61, when a plurality of glass are respectively stacked on the plurality of supporting legs 6, the top of the glass abuts against the backup plate 21, the bottom end surface of the glass is attached to the supporting surfaces 61, the turnover assembly 5 is mounted at one end of the base 1 away from the backup plate 21 for turning the glass from the carrier 2 to a horizontal state, the glass loading device further comprises a first cylinder assembly and a second cylinder assembly 4, the first driving assembly drives the carrier 2 to approach or separate from the turnover assembly 5, the second cylinder assembly 4 is used for driving the supporting plate 3 to approach or separate from the turnover assembly 5, the turnover assembly 5 has a first station, the supporting plate 3 has a second station, and the supporting plate 3 has a coplanar end surface with the supporting legs 6, when the second supporting plate 3 is in contact with the turnover assembly 5 and the end surface of the glass is in contact with the turnover assembly 5.

When the equipment is specifically used, the bearing frame 2 slides on the base 1 to enable the bearing frame to be far away from the overturning assembly 5, glass is respectively and correspondingly stacked on the supporting legs 6, the bottom end surface of the glass is abutted against the supporting surface 61, during feeding, the supporting plate 3 is driven to move to a second station through the second cylinder assembly 4, the overturning assembly 5 is adjusted to a first station, the glass is enabled to be abutted against and fixed on the overturning assembly 5 through the bearing frame 2, when the overturning assembly 5 finishes glass fixation, the supporting plate 3 is driven to be far away from the first station again by the second cylinder assembly 4, the supporting legs 6 of the glass fixed on the overturning assembly 5 are separated from the supporting plate 3 to overturn, at the moment, the supporting legs 6 are separated from the glass, the bearing frame 2 is driven to be far away from the overturning assembly 5 by the first cylinder assembly, when the supporting plate 3 is moved to an original position, the bearing frame 2 and the supporting plate 3 are moved relatively, and the turned supporting feet 6 slide onto the supporting plate 3 again to finish resetting, finally the turning component 5 drives the fixed glass to turn, the glass is turned to a horizontal state to finish feeding of the glass, and then the steps are repeated to feed the second glass, the equipment can ensure that the angle of the glass placed on the bearing frame 2 is inconvenient to fix because the bottom end surface of the glass is placed on the supporting surface 61 when the glass is stacked due to the fact that the angle of the supporting surface 61 on the supporting feet 6 is fixed, the glass placed on the angle can be kept perpendicular to the angle of the turning component 5 when the turning component 5 is in the first station, so that the glass can be tightly attached to the surface of the glass when the turning component 5 adsorbs the glass, meanwhile the glass is placed on the movable bearing frame 2, the bearing frame 2 approaches to the turning component 5 when the turning component 5 takes the glass, the extrusion force between the glass and the turnover assembly 5 can be given, so that the glass feeding speed is effectively improved, and the efficiency during glass feeding is further improved.

Referring to fig. 2, in the specific structural design, one end of the supporting leg 6 far away from the turnover assembly 5 is rotatably mounted on the carrier 2, when the supporting plate 3 and the carrier 2 slide relatively, the supporting piece 6 is separated from the support of the supporting plate 3, so that turnover and glass separation occur, and when the carrier 2 moves away from the turnover assembly 5 relative to the supporting plate 3, the supporting leg 6 can be ensured to slide onto the supporting plate 3 again to restore to the original state.

Referring to fig. 3, it should be noted that, the overturning assembly 5 specifically includes a mounting frame 51, a mounting plate 52, a suction cup assembly, and a third driving assembly, the mounting frame 51 is mounted on the base 1, the mounting plate 52 is rotatably mounted on the mounting frame 51, the suction cup assembly is mounted on the mounting plate 52, when the mounting plate 52 is at the first station, the suction cup assembly can be adsorbed and fixed on the glass, the third driving assembly is mounted on the mounting frame 51, and the output end of the third driving assembly is connected with the mounting plate 52, and the third driving assembly can drive the mounting plate 52 to overturn from the first station to the horizontal state.

Preferably, the base 1 is provided with a guide groove 11, the bottom of the supporting plate 3 is provided with an extension part 31, and the extension part 31 is in fit sliding fit in the guide groove 11, so that the supporting plate 3 can be prevented from moving in the width direction, and the equipment can be used more stably.

When the glass is placed on the supporting legs 6 and the bottom end faces are attached to the supporting faces 61, two adjacent glass side walls are attached to each other, the distance between the two adjacent supporting legs 6 can be reasonably controlled during structural design, and the two adjacent glass can be attached to each other after being placed on the supporting legs 6, so that the glass is prevented from being damaged due to relative sliding in the carrying process.

In a further embodiment, the bottom end surface of each supporting leg 6 is provided with a roller on the side close to the overturning assembly 5, and the bottoms of the supporting legs 6 are abutted against the supporting plate 3, specifically, the rollers on the bottom end surfaces of the supporting legs 6 are abutted against the supporting plate 3.

When the concrete structure design, still include the slide rail, bear frame 2 through slide rail slidable mounting on base 1, all be provided with the rubber pad on backup plate 21 and the glass support surface and on a plurality of holding surfaces 61, prevent that glass from carrying out the collision with backup plate 21 or holding surface 61 and causing the damage in-process.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (9)

1. The utility model provides a glass material loading equipment, a serial communication port, including base (1), carrier (2), fagging (3), upset subassembly (5), carrier (2) slidable mounting is on base (1), have backup plate (21) on carrier (2), fagging (3) slidable mounting is on base (1), movable mounting has a plurality of parallel interval arrangement's supporting legs (6) on carrier (2), the bottom of a plurality of supporting legs (6) all supports and leans on fagging (3), support surface (61) have on supporting legs (6), when a plurality of glasses stack respectively on a plurality of supporting legs (6), the top of glass supports and leans on plate (21), the bottom face of glass is in contact with supporting surface (61), upset subassembly (5) are installed in the one end of base (1) that keeps away from backup plate (21), be used for overturn glass from carrier (2) to the horizontality, second cylinder subassembly (4), first drive subassembly drive carrier (2) is close to or keep away from upset subassembly (5), second cylinder subassembly (4) are used for driving second fagging (3) and keep away from station (5) when station (3) are in the station, station (5) is in the station is kept away from station (5), the end face of the supporting leg (6) close to the turnover component (5) of the glass is coplanar with the end face of the supporting plate (3) close to the turnover component (5).

2. Glass loading device according to claim 1, characterized in that the end of the support foot (6) remote from the tilting assembly (5) is rotatably mounted on the carrier (2).

3. The glass loading device according to claim 1, wherein the turnover assembly (5) specifically comprises a mounting frame (51), a mounting plate (52), a sucking disc assembly and a third driving assembly, the mounting frame (51) is mounted on the base (1), the mounting plate (52) is rotatably mounted on the mounting frame (51), the sucking disc assembly is mounted on the mounting plate (52), when the mounting plate (52) is in the first station, the sucking disc assembly can be adsorbed and fixed on glass, the third driving assembly is mounted on the mounting frame (51), the output end of the third driving assembly is connected with the mounting plate (52), and the third driving assembly can drive the mounting plate (52) to turn from the first station to the horizontal state.

4. Glass loading device according to claim 1, characterized in that the base (1) is provided with a guiding groove (11), the bottom of the stay plate (3) is provided with an extension (31), and the extension (31) is adapted to be slidingly mounted in the guiding groove (11).

5. Glass loading apparatus according to claim 1, characterized in that when glass is placed on the support feet (6) and the bottom end surface is in abutment with the support surface (61), adjacent glass side walls are in abutment with each other.

6. Glass loading device according to claim 2, characterized in that the side of the bottom end surface of each support foot (6) close to the tilting assembly (5) is provided with a roller.

7. Glass loading device according to claim 6, characterized in that the bottoms of the support feet (6) are each against the support plate (3), in particular the rollers on the bottom end faces of the support feet (6) are against the support plate (3).

8. Glass loading device according to claim 1, further comprising a sliding rail, by means of which the carrier (2) is slidingly mounted on the base (1).

9. Glass loading device according to claim 1, characterized in that rubber pads are provided on both the abutment surface of the backup plate (21) against the glass and on the plurality of support surfaces (61).

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