CN203728705U - Forming device used for processing toughened glass - Google Patents

Abstract

The utility model discloses a forming device used for processing toughened glass. The forming device comprises a rack, wherein a plurality of steel roller shafts and steel half axles used for conveying glass are horizontally arranged on the rack in parallel; the steel roller shafts and the steel half axles are driven by synchronous wheels to rotate; each of the steel roller shafts and the steel half axles is sleeved with high-temperature heat-insulation cloth; the steel half axles are divided into front half axles and rear half axles; an empty position is formed between the front half axles and the rear half axles; the rack is respectively equipped with an upper mould assembly and a lower mould assembly above and below the empty position; a sensor which is used for detecting a glass position, matched with the servo motor and used for carrying out positioning control on the glass is further arranged on the rack. The forming device disclosed by the utility model adopts the servo motor to control rotation of the synchronous wheels, and the servo motor and the sensor are matched for realizing positioning the glass, so that the glass can be precisely stopped on a needed position, and therefore, time for positioning the glass is short, and glass forming efficiency can be remarkably improved.

Description

A kind of for processing the shaped device of toughened glass

Technical field

The utility model relates to a kind of tempering apparatus, particularly a kind of shaped device of the tempering apparatus for processing profiled toughened glass, arch toughened glass and pot cover toughened glass.

Background technology

When processing toughened glass, can use tempering apparatus.Glass can enter into shaped device from annealing furnace the inside after out and carry out moulding, and shaped device becomes required shape by glass ware forming, and when glass rests on and carries out moulding on the shaped device at shaping station place, its location is very important.Existing tempering apparatus be in the frame of shaped device, arrange two can oscilaltion, for blocking the locating dowel of glass, the glass of annealing furnace heating is when arriving shaping station, first locating dowel is blocked positioning action by glass.Locating dowel wants frequent lifting to expend the regular hour, and after glass runs into locating dowel, can bump with locating dowel, so also can affect the surface quality of glass.

In addition, the roll shaft on the shaped device of some tempering apparatus is made with stupalith now, although stupalith can heat insulationly easily rupture, uses ceramic roll shaft, not only uneconomical but also be not durable.

Utility model content

In order to overcome the deficiencies in the prior art, the utility model provides the shaped device of the good product quality of a kind of accurate positioning, economy and durability, easy to use, processing.

The utility model solves the technical scheme that its technical problem adopts:

A kind of for processing the shaped device of toughened glass, comprise frame, in frame, horizontal Tile is provided with many for transmitting steel roll shaft and the steel semiaxis of glass, steel roll shaft and steel semiaxis are all by synchronizing wheel driven rotary, described synchronizing wheel is rotated by driven by servomotor, on described steel roll shaft and steel semiaxis, be all socketed with and prevent that it from touching the high temperature insulating cloth of glass, steel semiaxis is divided into half front axle and rear semiaxis, between half front axle and rear semiaxis, be formed with a room, frame directly over room and under be respectively arranged with upper die component and lower membrane module, in frame, be also provided with for detection of glass position and with servomotor and coordinate, glass is positioned to the sensor of control.

In the utility model, described upper die component comprises mold and the upper power set for driving mold to move, and described mold is fixedly mounted on patrix stand moving up and down.

In the utility model, described lower membrane module comprises bed die and the lower power set for driving bed die to move, and described bed die is coated with high temperature insulating cloth near one end of glass, and lower power set is fixedly mounted on counterdie stand.

In the utility model, described half front axle and rear semiaxis are movably connected in frame and all and can endwisely slip, and half front axle and rear semiaxis can be adjusted according to the size of bed die the size in room.

In the utility model, described half front axle and rear semiaxis are all sleeved in semiaxis mounting pipe, are provided with for accepting the bearing of steel semiaxis in semiaxis mounting pipe, and described semiaxis mounting pipe drives by synchronizing wheel.

In the utility model, the two ends of described steel roll shaft are all connected with synchronizing wheel by roll shaft mounting pipe, be provided with for accepting the bearing of steel roll shaft, and steel roll shaft can endwisely slip in roll shaft mounting pipe in roll shaft mounting pipe.

The beneficial effects of the utility model are: on steel roll shaft of the present utility model and steel semiaxis, be all set with high temperature insulating cloth, can prevent itself and glass contact and make glass chilling, therefore can not have influence on upper die component and the moulding of lower membrane module to glass; Meanwhile, the utility model is provided with steel roll shaft and steel semiaxis, has solved a difficult problem for ceramic roll shaft and ceramic semiaxis easy fracture.In addition, the utility model adopts servomotor to control synchronizing wheel and rotates, servomotor coordinates to realize the location of glass together with sensor, after sensor detects glass arrival preposition, servomotor is controlled synchronizing wheel and is stopped operating, can make glass accurately rest on desired position, so the location of glass institute's time spent is very short, the efficiency of glass ware forming can be significantly improved.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Fig. 1 is structural representation of the present utility model;

Fig. 2 is vertical view of the present utility model.

Embodiment

As shown in Fig. 1 ~ Fig. 2, a kind ofly for processing the shaped device of toughened glass, comprise frame 1, in frame 1, horizontal Tile is provided with many for transmitting steel roll shaft 11 and the steel semiaxis of glass 50.As preferably, the two ends of described steel roll shaft 11 are all connected with synchronizing wheel 12 by roll shaft mounting pipe 9, be provided with for accepting the bearing of steel roll shaft, and steel roll shaft can endwisely slip in roll shaft mounting pipe 9 in roll shaft mounting pipe 9.Steel roll shaft 11 and steel semiaxis are all by synchronizing wheel 12 driven rotary, described synchronizing wheel 12 drives rotation by servomotor 13, on described steel roll shaft 11 and steel semiaxis, be all socketed with and prevent that it from touching the high temperature insulating cloth 2 of glass 50, can prevent that like this steel roll shaft 11 from directly contacting with glass 50 with steel semiaxis and making glass 50 chillings.Steel semiaxis is divided into half front axle 31 and rear semiaxis 32, between half front axle 31 and rear semiaxis 32, be formed with a room 4, frame 1 directly over room 4 and under be respectively arranged with upper die component 5 and lower membrane module 6, described upper die component 5 comprises mold 51 and the upper power set 52 for driving mold 51 to move, and described mold 51 is fixedly mounted on patrix stand 53 moving up and down.Described lower membrane module 6 comprises bed die 61 and the lower power set 62 for driving bed die 61 to move, and described bed die 61 is coated with high temperature insulating cloth 2 near one end of glass 50, and lower power set 62 is fixedly mounted on counterdie stand 63.The setting of high temperature insulating cloth 2 can not have influence on the moulding of upper die component 5 and 6 pairs of glass 50 of lower membrane module; In frame 1, be also provided with and for detection of glass 50 positions and with servomotor 13, coordinate the sensor 7 that glass 50 is positioned.As preferably, described half front axle 31 and rear semiaxis 32 are movably connected in frame 1 and all and can move axially, described half front axle 31 and rear semiaxis 32 are installed in semiaxis mounting pipe 8, in semiaxis mounting pipe 8, be provided with for accepting the bearing of half front axle 31 and rear semiaxis 32, so half front axle 31 and rear semiaxis 32 also can rotate.All steel roll shaft 11 and steel semiaxis all drive by synchronizing wheel 12, and are driven by servomotor 13.Because half front axle 31 and rear semiaxis 32 can endwisely slip, so the size in room 4 is also adjustable, to facilitate bed die 61 to move upward, the glass 50 that needs moulding is pressed onto to the interior mold cavity forming of mold 51 behind room.In addition, the location of glass 50 adopts sensor 7 and servomotor 13 cooperations to realize.

During work, glass 50 in annealing furnace after heating enters shaping station moulding, the servomotor 13 of shaped device is controlled synchronizing wheel 12 and is rotated, synchronizing wheel 12 drives steel roll shaft 11 and steel Semi-shaft rotary to transfer and transmits glass 50, after sensor 7 detects glass 50 and reaches preposition, servomotor 13 is controlled synchronizing wheel 12 and is stopped operating, glass 50 accurately rests on desired position, then going up power set 52 and lower power set 62 drives respectively mold 51 to move downward with bed die 61 to move upward, mold 51 coordinates glass 50 is pressed into required shape with bed die 61, then bed die 61 declines, glass 50 falls back to again on half front axle 31 and rear semiaxis 32, after this servomotor 13 drives again synchronizing wheel 12, steel semiaxis and 11 rotations of steel roll shaft, glass 50 is sent to blanking station.The utility model can be located accurately to glass 50, and institute's time spent is very short, and glass 50 shaping efficiencies are high; Meanwhile, on steel roll shaft 11 and steel semiaxis, be socketed with high temperature insulating cloth 2, can carry out heat insulation durable in use again to the glass 50 of high temperature.

The above, be better embodiment of the present utility model, but the utility model is not limited to above-described embodiment, as long as it reaches technique effect of the present utility model with any same or similar means, within all should falling into protection domain of the present utility model.

Claims (6)

1. one kind for processing the shaped device of toughened glass, it is characterized in that: comprise frame (1), the upper horizontal Tile of frame (1) is provided with many for transmitting steel roll shaft (11) and the steel semiaxis of glass (50), steel roll shaft (11) and steel semiaxis are all by synchronizing wheel (12) driven rotary, described synchronizing wheel (12) drives rotation by servomotor (13), on described steel roll shaft (11) and steel semiaxis, be all socketed with and prevent that it from touching the high temperature insulating cloth (2) of glass (50), steel semiaxis is divided into half front axle (31) and rear semiaxis (32), between half front axle (31) and rear semiaxis (32), be formed with a room (4), frame (1) directly over room (4) and under be respectively arranged with upper die component (5) and lower membrane module (6), in frame (1), be also provided with for detection of glass (50) position and with servomotor (13) and coordinate, glass (50) is positioned to the sensor (7) of control.

2. according to claim 1 a kind of for processing the shaped device of toughened glass, it is characterized in that: described upper die component (5) comprises mold (51) and for driving the mobile upper power set (52) of mold (51), described mold (51) is fixedly mounted on patrix stand moving up and down (53).

3. according to claim 1 a kind of for processing the shaped device of toughened glass, it is characterized in that: described lower membrane module (6) comprises bed die (61) and the lower power set (62) for driving bed die (61) to move, described bed die (61) is coated with high temperature insulating cloth (2) near one end of glass (50), and lower power set (62) is fixedly mounted on counterdie stand (63).

4. according to claim 3 a kind of for processing the shaped device of toughened glass, it is characterized in that: described half front axle (31) and rear semiaxis (32) are movably connected in frame (1) above and all can endwisely slip, half front axle (31) and rear semiaxis (32) can be adjusted according to the size of bed die (61) size in room (4).

5. according to claim 4 a kind of for processing the shaped device of toughened glass, it is characterized in that: described half front axle (31) and rear semiaxis (32) are all sleeved in semiaxis mounting pipe (8), in semiaxis mounting pipe (8), be provided with for accepting the bearing of steel semiaxis, described semiaxis mounting pipe (8) drives by synchronizing wheel (12).

6. according to claim 1 a kind of for processing the shaped device of toughened glass, it is characterized in that: the two ends of described steel roll shaft (11) are all connected with synchronizing wheel (12) by roll shaft mounting pipe (9), in roll shaft mounting pipe (9), be provided with for accepting the bearing of steel roll shaft (11), steel roll shaft (11) can endwisely slip in roll shaft mounting pipe (9).