CN102701570B - A kind of glass die stamp device - Google Patents

Abstract

The invention discloses a kind of glass die stamp device, it comprises support, the upper surface of described support is provided with for carrying the pre-ceramic roller of glass and rear ceramic roller, forward and backward ceramic roller does not axially abut along it and is formed with a room, be provided with the dip mold that can vertically be elevated in described room, directly over dip mold, position is provided with the tempering mould suitable with dip mold; The right bit that described support is positioned at dip mold install be equipped with two that can vertically be elevated, for blocking the locating dowel of glass.Glass die stamp device of the present invention has abandoned the production model of conventional rotary kerosene annealing furnace, make material loading and blanking workman can away from heat district, and electric annealing furnace noise is little, improve the Working environment of workman greatly, meanwhile, this device only needs a set of dip mold and tempering mould, compared to multiple counterdies of circumferential array in conventional rotary kerosene annealing furnace, die needed quantity is little, and cost is low, and production efficiency is high.

Description

A kind of glass die stamp device

Technical field

The present invention relates to a kind of glass die stamp device, belong to the design and manufaction technical field of glass die stamp equipment specifically.

Background technology

In conventional art, the die stamp of glass is generally all completed in rotary kerosene annealing furnace, multiple counterdie has been circumferentially arranged in rotary kerosene annealing furnace, counterdie is around annealing furnace center rotating, after glass to be processed is placed on counterdie by workman by hand, glass ribbon is reached tempering temperature to heating zone heating by the counterdie around annealing furnace central axis, counterdie is rotated further the glass ribbon after by heating to patrix position, patrix falls glass compression moulding in counterdie, and the glass after shaping carries out quenching tempering by manual taking-up of workman.Workman is at material loading with when picking and placeing glass, heat in rotary kerosene annealing furnace constantly comes out, workman is in hot environment work, and kerosene annealing furnace noise is large, die needed (counterdie) quantity is many, cost is high, and need outfit 3 ~ 4 workmans just can complete the work such as material loading, blanking of glass, production efficiency is low.Though have linear pattern electricity annealing furnace in the market, this electric annealing furnace is used for heating and preheating glass, is generally applied in the occasion without the need to die stamp.

Summary of the invention

In order to overcome the deficiencies in the prior art, the invention provides a kind of glass die stamp device, coordinating electric annealing furnace to use in this device, the die stamp pattern of rotary kerosene annealing furnace can be abandoned, optimize the Working environment of workman, die needed quantity is few, and cost is low.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of glass die stamp device, it comprises support, the upper surface of described support is provided with for carrying the pre-ceramic roller of glass and rear ceramic roller, forward and backward ceramic roller does not axially abut along it and is formed with a room, be provided with the dip mold that can vertically be elevated in described room, directly over dip mold, position is provided with the tempering mould suitable with dip mold; The right bit that described support is positioned at dip mold install be equipped with two that can vertically be elevated, for blocking the locating dowel of glass.

As the improvement of technique scheme, all gussets of described dip mold around dip mold be provided with can vertically be elevated, for upwards glass being held up the lifting column to tempering mould position.

As the further improvement of technique scheme, described lifting column is four, and every two lifting columns are fixed on a batten, and batten is connected to the output terminal of cylinder, and cylinder is fixed on the program control adjustment platform in left and right.

Further, described tempering mould is fixedly mounted on the output terminal of the second cylinder, and the second cylinder is fixedly mounted on case, and case covers on support.

Further, described forward and backward ceramic roller is axial adjustable ceramic roller, and forward and backward ceramic roller is provided with sprocket wheel, and forward and backward ceramic roller is connected by the drive shaft be positioned on support by chain.

Further, described support is provided with second ceramic roller concordant with forward and backward ceramic roller, the second ceramic roller is positioned at the rear position of forward and backward ceramic roller along glass direct of travel, and the second ceramic roller axially runs through whole support along it.

Beneficial effect of the present invention: the present invention is by arranging at rack upper surface along its axial abutting before being formed with a room, rear ceramic roller, arranging in room can the dip mold of vertical lifting, directly over dip mold, position arranges tempering mould, and install in the right bit of dip mold can the locating dowel of vertical lifting, make device of the present invention in conjunction with after electric annealing furnace of the prior art, before the glass heated through electric annealing furnace enters into, location is kept out by locating dowel after on rear ceramic roller, then dip mold upwards rises and glass is pushed into compression moulding in tempering mould, glass after compression moulding along with dip mold fall and before falling back to, rear ceramic roller is output, glass die stamp device of the present invention abandoned conventional rotary kerosene annealing furnace production model, make material loading and blanking workman can away from heat district, and electric annealing furnace noise is little, improve the Working environment of workman greatly, simultaneously, this device only needs a set of dip mold and tempering mould, compared to multiple counterdies of circumferential array in conventional rotary kerosene annealing furnace, die needed quantity is little, cost is low, production efficiency is high.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described.

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation after the present invention hides case;

Fig. 3 is another angle schematic diagram (hiding tempering mould) of Fig. 2;

Fig. 4 is the component installation site structural representations such as lifting column in the present invention, dip mold, locating dowel;

Fig. 5 is the structural representation (hiding a tray) of discharging area;

Fig. 6 is another angle schematic diagram of Fig. 5;

Fig. 7 is the mounting structure schematic diagram of the 3rd ceramic roller in stand and upper frame;

Fig. 8 is the installation site schematic diagram of the present invention in whole glass manufacturing apparatus.

Embodiment

With reference to Fig. 1 ~ Fig. 8, a kind of glass die stamp device of the present invention, it comprises support 1, the upper surface of described support 1 is provided with pre-ceramic roller 2 and rear ceramic roller 3 for carrying glass, front and rear direction is vertical with glass direct of travel, forward and backward point of this place is what to judge with the visual angle shown in Fig. 2, and for different visual angles, forward and backward point has difference.The end of described forward and backward ceramic roller 2,3 is provided with sprocket wheel, forward and backward ceramic roller 2,3 is connected by the drive shaft be positioned on support 1 by chain, drive shaft is not shown in the drawings, drive shaft is provided with three sprocket wheels, two sprocket wheels being wherein positioned at two ends are connected with the sprocket wheel on forward and backward ceramic roller 2,3 respectively by chain, and another sprocket wheel is then connected with the motor on support 1 by chain.Described forward and backward ceramic roller 2,3 does not axially abut along it and is formed with a room, the dip mold 4 that can vertically be elevated is provided with in described room, dip mold 4 is fixed on the output terminal of the 3rd cylinder 41, the lifting of dip mold 4 is controlled by the 3rd cylinder 41, certainly, cylinder also can be changed to hydro-cylinder etc.Directly over described dip mold 4, position is provided with the tempering mould 5 suitable with dip mold 4, considering the glass of different model, they are highly different, can not produce with glass to make tempering mould 5 and interfere, described tempering mould 5 can be fixedly mounted on the output terminal of the second cylinder 51, second cylinder 51 is fixedly mounted on case 12, case 12 covers on support 1, the lifting of tempering mould 5 is controlled by the second cylinder 51, when glass enters shaping position, second cylinder 51 controls tempering mould 5 and falls to predeterminated position, glass lifts in tempering mould 5 by dip mold 4, case 12 serves and covers tempering mould 5, pre-ceramic roller 2, the effect of rear parts such as ceramic roller 3 grade, make whole die stamp device more attractive in appearance, it also avoid high temp glass heat towards periphery environment come out, affect Working environment, the right bit that described support 1 is positioned at dip mold 4 install be equipped with two that can vertically be elevated, for blocking the locating dowel 6 of glass, locating dowel 6 by pneumatic control its lifting, the position, right of dip mold 4 refers to and is positioned at the anterior position of dip mold 4 along glass direct of travel.

Glass die stamp device of the present invention is work like this: composition graphs 5, first by hand glass is picked and placeed stock shelf 9, rope on stock shelf 9 rolls and is delivered in electric annealing furnace 10 by glass, ceramic roller in electricity annealing furnace 10 drives glass to move, glass carries out preheating and heating in the process of movement, before after being heated to tempering temperature, glass is entered into by the output terminal of electric annealing furnace 10, rear ceramic roller 2, on 3, Qi Zhongqian, rear ceramic roller 2, 3 is contour with the ceramic roller in electric annealing furnace 10, considers to be in soft state, because of front by the glass after electric annealing furnace 10 heats, rear ceramic roller 2, be formed with a room between 3, the glass being heated to soft state is by before directly entering in electric annealing furnace 10, rear ceramic roller 2, transition may be caused on 3 steady not, therefore can arrange with front on described support 1, rear ceramic roller 2, before 3 concordant the second ceramic roller 8, second ceramic rollers 8 are positioned at, rear ceramic roller 2, 3 along the rear position of glass direct of travel, before the second ceramic roller 8 is positioned at, rear ceramic roller 2, 3 along the rear position of glass direct of travel refer to glass from electric annealing furnace 10 out after first enter on the second ceramic roller 8, before glass being transported to stably by the second ceramic roller 8, rear ceramic roller 2, on 3, by Fig. 2 view, before the second ceramic roller 8 should be positioned at, rear ceramic roller 2, the leftward position of 3, the second ceramic roller 8 axially runs through whole support 1, second ceramic roller 8 along it and axially runs through before whole support 1 refers to the second ceramic roller 8 does not exist along it, rear ceramic roller 2, 3 rooms formed, before directly entering into from electric annealing furnace 10 compared to the glass after heating, rear ceramic roller 2, on 3, before the glass after heating enters into after the second ceramic roller 8 again, rear ceramic roller 2, on 3, transition is more steady.

Enter into completely after on forward and backward ceramic roller 2,3 until glass, locating dowel 6 upwards rises under pneumatic and blocks glass, realize the location to glass, the direction of arrow in Fig. 2 represents the travel direction of glass, now glass is just in time positioned at position directly over dip mold 4, dip mold 4 rises and by glass roof in tempering mould 5 under the driving of the 3rd cylinder 41, by the mating reaction of dip mold 4 and tempering mould 5 by glass compression moulding, locating dowel 6 drops to the upper surface not exposing forward and backward ceramic roller 2,3 simultaneously.

In order to avoid glass is breakked away because of action of gravity directly to during upper jack-up by dip mold 4, preferably described dip mold 4 all gussets around dip mold 4 be provided with can vertically be elevated, for upwards glass being held up to the lifting column 7 of tempering mould 5 position.Lifting column 7 can be three or four, after glass abuts location by locating dowel 6, lifting column 7 first rises glass picking-up to tempering mould 5 position, then dip mold 4 rises again and to be pressed to glass under the effect of the 3rd cylinder 41, in the process of compression moulding, lifting column 7 falls to the upper surface lower than forward and backward ceramic roller 2,3, because lifting column 7 is positioned at all sides of dip mold 4, relative to dip mold 4, the possibility of the sideslip directly brought by dip mold 4 jack-up glass effectively can be avoided.

Consider that the glass of different model plays size and has difference, for adapting to this needs, described lifting column 7 is four, and every two lifting columns 7 are fixed on a batten 71, and batten 71 is connected to the output terminal of cylinder 72, and cylinder 72 is fixed on the program control adjustment platform 73 in left and right.For the glass of different size, come the position of adjusting cylinders 72 in pre-ceramic roller 2 axis, make the glass for different model size by the program control adjustment platform 73 in left and right, what lifting column 7 can both be reliable upwards holds up glass to tempering mould 5 position.

Glass after shaping falls along with the whereabouts of dip mold 4, and when dip mold 4 drops down onto the upper surface being positioned at forward and backward ceramic roller 2,3, formed glass has dropped on forward and backward ceramic roller 2,3, and is driven into discharging area 11 by forward and backward ceramic roller 2,3.Discharging area 11 comprises a rotary seat 111, all sides of the rotating disk 112 on rotary seat 11 are evenly provided with three racks 113, rotating disk 112 is for having shaping station, three station rotary dishes of air-cooled station and conveying belt station, shaping station is positioned at the discharge port of glass die stamp device of the present invention, when a rack 113 is positioned at shaping station, all the other two racks 113 lay respectively at air-cooled station and conveying belt station, through the glass of glass die stamp device institute of the present invention compression moulding by front, rear ceramic roller 2, 3 are delivered directly on rack 113, consider that repressed shaping glass is still be in hot mastication state, be transitioned on rack 113 can not deform in order to ensure the glass after shaping, can a stand 114 be set in shaping station position, stand 114 is connected with the upper frame 115 that can vertically be elevated by cylinder, the upper surface of upper frame 115 is provided with the 3rd ceramic roller 116, rack 113 is provided with for article groove 1133 by the 3rd ceramic roller 116, rack 113 is lower than front, rear ceramic roller 2, the height of 3, when glass die stamp device does not export glass, 3rd ceramic roller 116 is lower than the height of rack 113, when a rack 113 is in shaping station and is positioned at the discharge port of glass die stamp device of the present invention, cylinder promotes upper frame 115 and drives the 3rd ceramic roller 116 to rise to front through after article groove 1133, rear ceramic roller 2, 3 positions flushed, 3rd ceramic roller 116 self rotates under the driving of motor simultaneously, like this, rear ceramic roller 2, glass after shaping can well be transitioned on the 3rd ceramic roller 116 by 3, all be transitioned into after on the 3rd ceramic roller 116 until glass, 3rd ceramic roller 116 declines, when the 3rd ceramic roller 116 is brought down below the height of rack 113, glass has just dropped on rack 113, thus before can effectively avoiding, rear ceramic roller 2, 3 when being delivered directly to glass on rack 113, send sliding friction between glass and rack 113 to cause glass to produce being out of shape.

Also a cylinder 117 can be set at the conveying belt station of rotating disk 112, rack 113 is by a U-shaped frame 1131 and be hinged on U-shaped frame 1131, under the promotion of cylinder 117, the side of its contiguous rotary seat 111 can the tray 1132 of upwards lifting upset, the articulated position of tray 1132 along rotating disk 112 direction dorsad away from the center line of tray 113, the bottom side of U-shaped frame 1131 is along being provided with for shelving tray 1132, what prevent the side of the contiguous rotary seat 111 of tray 1132 from overturning downwards presents a theatrical performance as the last item on a programme 1134, by the articulated position of tray 1132 along rotating disk 112 direction dorsad away from the center line of tray 113 and present a theatrical performance as the last item on a programme 1134 setting, avoid tray 1132 upset occurs under gravity and affects it and normally work, when rotating disk 112 is by when bringing to conveying belt station through the glass of quenching tempering by air-cooled station, cylinder 117 action promotes the side upwards lifting upset 45° angle of the contiguous rotary seat 111 of tray 1132, makes glass landing on tray 1132 on product conveying belt.

Certainly, also can directly by artificial manual, glass after shaping be picked and placeed on rack 2, in a word, glass die stamp device of the present invention has abandoned the production model of conventional rotary kerosene annealing furnace, make heating zone and shaping area separately, instead of a body of heater is arranged in as conventional rotary kerosene annealing furnace, avoid, blanking workman work in high temperature environments, well improve the Working environment of workman, simultaneously, glass die stamp device of the present invention only needs a dip mold 4 and a tempering mould 5, compared to some counterdies of circumference distribution in conventional rotary kerosene annealing furnace, reduce number of molds greatly, save the production cost of enterprise, in addition, the Energy in use amount of electricity annealing furnace 10 is little, noise is low, further improve the Working environment of workman, this shaped device is easy to realize the automatization of glass cutting stock after coordinating with the discharging area 11 with the 3rd ceramic roller 116 mentioned above, production efficiency is high.

As the improvement of above-mentioned embodiment, described forward and backward ceramic roller 2,3 is axial adjustable ceramic roller, namely forward and backward ceramic roller 2,3 is axially scalable along it, makes the room size that formed by forward and backward ceramic roller 2,3 adjustable, to adapt to the size of different dip mold.

The above, just better embodiment of the present invention, but the present invention is not limited to above-described embodiment, as long as it reaches technique effect of the present invention with any same or similar means, all should fall within protection scope of the present invention.

Claims (4)

1. a glass die stamp device, is characterized in that: comprise support (1), described support

(1) upper surface is provided with pre-ceramic roller (2) and rear ceramic roller (3) for carrying glass,

Forward and backward ceramic roller (2,3) does not axially abut along it and is formed with a room, in described room

Be provided with the dip mold (4) that can vertically be elevated, position directly over dip mold (4)

Be provided with the tempering mould (5) suitable with dip mold (4); Under described support (1) is positioned at

Pressing mold (4) is provided with two along the anterior position of glass direct of travel and can be vertically elevated

, for blocking the locating dowel (6) of glass; Described support (1) is provided with and forward and backward pottery

The second ceramic roller (8) that porcelain roller (2,3) is concordant, the second ceramic roller (8) is positioned at forward and backward

Ceramic roller (2,3) is along the rear position of glass direct of travel, and the second ceramic roller (8) is along it

Axially run through whole support (1); Described tempering mould (5) is fixedly mounted on the output terminal of the second cylinder (51), and the second cylinder (51) is fixedly mounted on case (12), and case (12) covers on support (1).

2. a kind of glass die stamp device according to claim 1, is characterized in that: institute

The all gussets stating dip mold (4) around dip mold (4) be provided with can vertically be elevated,

For upwards glass being held up the lifting column (7) to tempering mould (5) position.

3. a kind of glass die stamp device according to claim 2, is characterized in that: institute

Stating lifting column (7) is four, and every two lifting columns (7) are fixed on a batten (71),

Batten (71) is connected to the output terminal of cylinder (72), and it is program control that cylinder (72) is fixed on left and right

Regulate on platform (73).

4. a kind of glass die stamp device according to claim 1, is characterized in that: institute

State forward and backward ceramic roller (2,3) for axial adjustable ceramic roller, forward and backward ceramic roller (2,3)

On sprocket wheel is installed, forward and backward ceramic roller (2,3) by chain connect by being positioned at support (1)

On drive shaft.