CN111348410B - Method for placing temperable super-white glass in shatterproof mode through blanking - Google Patents

Abstract

The invention discloses a blanking breakage-proof placing method for producing temperable super-white glass, and particularly relates to a blanking breakage-proof placing device which comprises a conveying belt and a supporting frame for supporting the conveying belt, wherein two ends of a rotating shaft penetrating through the conveying belt are inserted into bearings of the supporting frame; cylinder drive cylinder pole extension, thereby it rises to drive first curb plate and second curb plate, let its surface with the transportation area flush, the riser passes through the rectangle piece and inserts in the spout, and a plurality of horizontal pole correspondence are taken and are put on the circular slot of roller bearing, glass places on the transportation area, transport to the roller bearing on, glass's one end is supported on the rubber pad at the riser, cylinder drive cylinder pole shortens, first curb plate and second curb plate slope, upwards drive the riser and extract from the spout, utilize the ascending drive glass of horizontal pole upwards to lift, accomplish glass's unloading, avoid the direct unloading of glass to cause the damage.

Description

Method for placing temperable super-white glass in shatterproof mode through blanking

Technical Field

The invention relates to a method for preventing glass from being broken during blanking, in particular to a method for preventing glass from being broken during production of temperable super white glass.

Background

The glass tempering is to form a compression stress layer on the surface of the glass and a tension stress layer inside the glass by a physical or chemical method, when the glass is acted by an external force, the compression stress layer can offset part of the tension stress, so that the glass is prevented from being broken, and the purpose of improving the strength of the glass is achieved.

The physically tempered glass is also called as quenched tempered glass. It firstly needs to heat the ordinary flat glass in a heating furnace to the temperature close to the softening temperature of the glass (about 600 ℃), at this time, the glass can still keep the original shape, but the particles in the glass have certain mobility, the structure adjustment is carried out to quickly eliminate the stress existing in the glass, then the glass is moved out of the heating furnace, and then high-pressure cold air is blown to the two sides of the glass by a multi-head nozzle to quickly and uniformly cool the glass, after the temperature is balanced, the surface of the glass generates compressive stress, and the inner layer generates tensile stress, namely the glass generates an internal stress which is uniformly and regularly distributed, so that the tensile strength of the glass as a brittle material is improved, and the bending resistance and the impact resistance of the glass are improved. And because this kind of glass is in the inside and is drawn, the stress state that the outside is compressed, once locally break, will take place stress release, the glass is broken into countless frits, these small pieces do not have sharp edges and corners, it is difficult to hurt people.

When carrying out the unloading to toughened glass, mostly adopt artifically, artifical efficiency is lower to operational environment temperature is higher, careless operation can cause the glass corner to take place to damage simultaneously.

Disclosure of Invention

The invention aims to provide a method for placing toughened ultra-white glass in a shatter-proof manner, which has the advantage of avoiding damage caused by direct blanking of the glass and solves the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a blanking breakage-proof placing method for production of temperable super-white glass and particularly relates to a blanking breakage-proof placing device, which comprises a conveying belt and a supporting frame for supporting the conveying belt, wherein two ends of a rotating shaft penetrating through the conveying belt are inserted into bearings of the supporting frame;

a first side plate and a second side plate are symmetrically welded on the side wall of the outer cover, a plurality of rows of rolling shafts penetrate through the first side plate and the second side plate, sliding grooves are formed in ports of the other sides of the first side plate and the second side plate in the height direction, and triangular reinforcing plates are welded at the bottoms of the first side plate and the second side plate;

the multi-row rolling shafts are provided with round grooves at equal intervals, a plurality of rows of transverse rods parallel to the first side plate and the second side plate are arranged on the round grooves, the other ends of the transverse rods are welded on vertical plates, rectangular blocks matched with the sliding grooves are symmetrically fixed on two side walls of each vertical plate, and the vertical plates are inserted into the sliding grooves through the rectangular blocks;

the triangular reinforcing plate is movably connected with one end of the cylinder rod through a rotating pin, the other end of the cylinder rod is inserted into the cylinder and stretches out and draws back in the cylinder, and a bolt penetrating through the bottom end of the cylinder is inserted into a bearing of the base; the method comprises the following steps:

s1: the cylinder drives the cylinder rod to extend, and one end of the cylinder is connected with the rotating pin of the triangular reinforcing plate, so that the first side plate and the second side plate are driven to ascend and are flush with the surface of the conveying belt;

s2: the vertical plate is inserted into the sliding groove through the rectangular block, and the plurality of cross rods are correspondingly placed on the circular groove of the rolling shaft;

s3: the glass is placed on the conveying belt and conveyed to the rolling shaft, the friction force is reduced by the rotation of the rolling shaft, and one end of the glass is abutted against the rubber pad of the vertical plate;

s4: the cylinder drives the cylinder rod to shorten, so that the first side plate and the second side plate are driven to descend, the first side plate and the second side plate incline, the vertical plate is driven to be pulled out from the sliding groove, the transverse rod rises to drive the glass to lift upwards, and the glass blanking is completed.

Further, the diameters of the first side arc plate and the second side arc plate are the same and larger than the diameter of the conveying belt rotating wheel.

Furthermore, the cross rod and the vertical plate are perpendicular to each other, the diameter of the cross rod is smaller than the depth of the circular groove, and a rubber pad is pasted on the surface of the vertical plate.

Further, the cylinder rod is driven by the cylinder, and the triangular reinforcing plate drives the first side plate and the second side plate to rotate around the first side arc plate and the second side arc plate.

Further, the length of the cross rod is larger than that of the glass, and the outer wall of the cross rod is also coated with a rubber sleeve.

Compared with the prior art, the invention has the beneficial effects that:

this but super white glass production of tempering is with unloading breakage-proof method of putting, cylinder drive cylinder pole extension, thereby drive first curb plate and second curb plate and rise, let its surface with the transportation area flush, the riser passes through the rectangular block and inserts in the spout, and a plurality of horizontal poles correspond to take and put on the circular slot of roller bearing, glass places on the transportation area, transport to on the roller bearing, glass's one end supports on the rubber pad of riser, cylinder drive cylinder pole shortens, first curb plate and second curb plate slope, upwards drive the riser and extract from the spout, utilize the horizontal pole to rise to drive glass and upwards lift, accomplish glass's unloading, avoid the direct unloading of glass to cause the damage.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an overall top view of the present invention;

FIG. 3 is a cross bar and roller connection of the present invention;

FIG. 4 is a perspective view of the glass of the present invention;

FIG. 5 is a drawing of the glass blanking of the present invention.

In the figure: 1. a conveyor belt; 11. a rotating shaft; 12. a first side arc plate; 13. a second side arc plate; 2. a support frame; 3. a housing; 31. a first side plate; 32. a second side plate; 4. a roller; 41. a circular groove; 5. a chute; 6. a triangular reinforcing plate; 61. a cylinder rod; 7. a cross bar; 71. a vertical plate; 711. a rectangular block; 8. a cylinder; 9. a base.

Detailed Description

The technical scheme in the embodiment of the invention will be made clear below by combining the attached drawings in the embodiment of the invention; fully described, it is to be understood that the described embodiments are merely exemplary of some, but not all, embodiments of the invention and that all other embodiments, which can be derived by one of ordinary skill in the art based on the described embodiments without inventive faculty, are within the scope of the invention.

Referring to fig. 1, a method for preventing breakage of blanking for manufacturing temperable super white glass includes a conveyor belt 1 and a support frame 2 supporting the conveyor belt 1, both ends of a rotation shaft 11 penetrating through the conveyor belt 1 are inserted into bearings of the support frame 2, the support frame 2 supports the conveyor belt 1 by the rotation shaft 11, after the conveyor belt 1 rotates, glass is placed on the conveyor belt 1, both ends of the rotation shaft 11 at the rear side of the conveyor belt 1 are respectively fixed with a first side arc plate 12 and a second side arc plate 13, the diameters of the first side arc plate 12 and the second side arc plate 13 are the same and are larger than the diameter of a rotating wheel of the conveyor belt 1, the first side arc plate 12 and the second side arc plate 13 can rotate around the conveyor belt 1, an outer cover 3 sleeved on the outer portion of the conveyor belt 1 is welded on the arc edges of the first side arc plate 12 and the second side arc plate 13, the outer cover 3 rotates along with the rotation of the first side arc plate 12 and the second side arc plate 13, the horizontal plane of the outer cover 3 is, the glass transport on the conveyor belt 1 is not affected.

Referring to fig. 2-3, a first side plate 31 and a second side plate 32 are symmetrically welded to a side wall of the outer cover 3, the first side plate 31 and the second side plate 32 rotate synchronously with the outer cover 3, a plurality of rows of rollers 4 penetrate through the first side plate 31 and the second side plate 32, the rollers 4 rotate on the first side plate 31 and the second side plate 32 to reduce friction force of glass movement, a chute 5 is formed in ports at the other side of the first side plate 31 and the second side plate 32 along the height direction, and a triangular reinforcing plate 6 is welded to bottoms of the first side plate 31 and the second side plate 32; equidistant processing circular slot 41 on multirow roller bearing 4, take the horizontal pole 7 that multirow and first curb plate 31 and second curb plate 32 paralleled on the circular slot 41, the other end of a plurality of horizontal poles 7 all welds on riser 71, the symmetry is fixed with the rectangular block 711 with 5 looks adaptations of spout on the both sides wall of riser 71, riser 71 inserts in the spout 5 through rectangular block 711, horizontal pole 7 and riser 71 both are mutually perpendicular, the diameter of horizontal pole 7 is less than the degree of depth of circular slot 41, riser 71's the rubber pad of pasting on the surface, glass and riser 71 emergence contact can be avoided to the rubber pad, thereby destroy glass's edge.

Referring to fig. 4-5, the triangular reinforcing plate 6 is movably connected to one end of the cylinder rod 61 through a rotating pin, the other end of the cylinder rod 61 is inserted into the cylinder 8 and extends and retracts in the cylinder 8, a pin penetrating through the bottom end of the cylinder 8 is inserted into a bearing of the base 9, the cylinder rod 61 is driven by the cylinder 8, the triangular reinforcing plate 6 drives the first side plate 31 and the second side plate 32 to rotate around the first side arc plate 12 and the second side arc plate 13, the cylinder 8 drives the cylinder rod 61 to shorten, so as to drive the first side plate 31 and the second side plate 32 to descend, the first side plate 31 and the second side plate 32 incline, the vertical plate 71 is upwards driven to be pulled out from the chute 5, the cross rod 7 is lifted upwards to drive glass to be lifted upwards, blanking of the glass is completed, and the vertical plate 71 can be pulled out outwards.

The method comprises the following steps: the cylinder 8 drives the cylinder rod 61 to extend, and one end of the cylinder 8 is connected with the rotating pin, and the other end of the cylinder rod 61 is connected with the rotating pin of the triangular reinforcing plate 6, so that the first side plate 31 and the second side plate 32 are driven to ascend and are flush with the surface of the conveyor belt 1;

step two: the vertical plates 71 are inserted into the sliding grooves 5 through the rectangular blocks 711, a plurality of cross rods 7 are correspondingly placed on the circular grooves 41 of the rollers 4, the length of each cross rod 7 is larger than that of glass, and the outer walls of the cross rods 7 are also coated with rubber sleeves;

step three: the glass is placed on the conveyer belt 1 and conveyed to the roller 4, the friction force is reduced by the rotation of the roller 4, and one end of the glass is propped against the rubber pad of the vertical plate 71;

step four: the cylinder 8 drives the cylinder rod 61 to shorten, so that the first side plate 31 and the second side plate 32 are driven to descend, the first side plate 31 and the second side plate 32 incline, the vertical plate 71 is driven to be pulled out from the chute 5, the glass is driven to be lifted upwards by the lifting of the cross rod 7, and the blanking of the glass is completed.

In conclusion, according to the blanking breakage-proof placement method for producing the temperable super-white glass, the cylinder 8 drives the cylinder rod 61 to extend, so as to drive the first side plate 31 and the second side plate 32 to ascend, so as to be flush with the surface of the conveying belt 1, the vertical plate 71 is inserted into the chute 5 through the rectangular block 711, the plurality of cross rods 7 are correspondingly placed on the circular groove 41 of the roller 4, the glass is placed on the conveying belt 1 and conveyed onto the roller 4, one end of the glass is abutted against the rubber pad of the vertical plate 71, the cylinder 8 drives the cylinder rod 61 to shorten, the first side plate 31 and the second side plate 32 incline, the vertical plate 71 is upwards driven to be pulled out from the chute 5, the cross rods 7 ascend to drive the glass to ascend, the blanking of the glass is completed, and the damage caused by the direct blanking of.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (5)

1. A blanking breakage-proof placing method for production of temperable super-white glass and particularly relates to a blanking breakage-proof placing device, which comprises a conveying belt (1) and a supporting frame (2) for supporting the conveying belt (1), wherein two ends of a rotating shaft (11) penetrating through the conveying belt (1) are inserted into bearings of the supporting frame (2), two ends of the rotating shaft (11) at the rear side of the conveying belt (1) are respectively fixed with a first side arc plate (12) and a second side arc plate (13), and arc edges of the first side arc plate (12) and the second side arc plate (13) are welded with an outer cover (3) sleeved outside the conveying belt (1);

a first side plate (31) and a second side plate (32) are symmetrically welded on the side wall of the outer cover (3), a plurality of rows of rolling shafts (4) penetrate between the first side plate (31) and the second side plate (32), a sliding groove (5) is formed in the port of the other side of the first side plate (31) and the port of the other side of the second side plate (32) along the height direction, and a triangular reinforcing plate (6) is welded at the bottom of the first side plate (31) and the bottom of the second side plate (32);

round grooves (41) are machined at equal intervals on the multiple rows of rolling shafts (4), multiple rows of transverse rods (7) parallel to the first side plate (31) and the second side plate (32) are overlapped on the round grooves (41), the other ends of the transverse rods (7) are welded on a vertical plate (71), rectangular blocks (711) matched with the sliding grooves (5) are symmetrically fixed on two side walls of the vertical plate (71), and the vertical plate (71) is inserted into the sliding grooves (5) through the rectangular blocks (711);

the triangular reinforcing plate (6) is movably connected with one end of a cylinder rod (61) through a rotating pin, the other end of the cylinder rod (61) is inserted into the cylinder (8) and stretches out and draws back in the cylinder (8), and a bolt penetrating through the bottom end of the cylinder (8) is inserted into a bearing of the base (9); the method is characterized by comprising the following steps:

s1: the cylinder (8) drives the cylinder rod (61) to extend, and one end of the cylinder (8) is connected with the rotating pin, and the other end of the cylinder rod (61) is connected with the rotating pin of the triangular reinforcing plate (6), so that the first side plate (31) and the second side plate (32) are driven to ascend and are flush with the surface of the conveying belt (1);

s2: the vertical plate (71) is inserted into the sliding groove (5) through the rectangular block (711), and the plurality of cross rods (7) are correspondingly placed on the circular groove (41) of the roller (4);

s3: the glass is placed on the conveying belt (1) and conveyed to the roller (4), the friction force is reduced by the rotation of the roller (4), and one end of the glass is abutted against the rubber pad of the vertical plate (71);

s4: the air cylinder (8) drives the air cylinder rod (61) to be shortened, so that the first side plate (31) and the second side plate (32) are driven to descend, the first side plate (31) and the second side plate (32) are inclined, the vertical plate (71) is driven upwards to be pulled out from the sliding groove (5), the transverse rod (7) is lifted to drive the glass to be lifted upwards, and the glass blanking is completed.

2. The method for placing the temperable super-white glass in the shatterproof manner for the blanking according to claim 1, which is characterized in that: the diameters of the first side arc plate (12) and the second side arc plate (13) are the same and are larger than the diameter of the rotating wheel of the conveyer belt (1).

3. The method for placing the temperable super-white glass in the shatterproof manner for the blanking according to claim 1, which is characterized in that: the cross rod (7) is perpendicular to the vertical plate (71), the diameter of the cross rod (7) is smaller than the depth of the circular groove (41), and a rubber pad is adhered to the surface of the vertical plate (71).

4. The method for placing the temperable super-white glass in the shatterproof manner for the blanking according to claim 1, which is characterized in that: the cylinder rod (61) is driven by the cylinder (8), and the triangular reinforcing plate (6) drives the first side plate (31) and the second side plate (32) to rotate around the first side arc plate (12) and the second side arc plate (13).

5. The method for placing the temperable super-white glass in the shatterproof manner for the blanking according to claim 1, which is characterized in that: the length of the cross rod (7) is larger than that of the glass, and the outer wall of the cross rod (7) is also coated with a rubber sleeve.

Images