CN205893062U - Hot bender of rotatory dislocation formula - Google Patents

Abstract

The utility model provides a hot bender of rotatory dislocation formula, the present invention comprises a machine frame (1), be provided with shaping district (2) and cooling space (3) in the frame, rotary device (4) in the middle of being provided with between shaping district and the cooling space, middle rotary device includes rotatable mould loading board (41) that the level set up, be equipped with two transfer station (411) on the mould loading board, the shaping district is provided with lower shaping elevating system (21) and last shaping elevating system (22) with the solid be connected together of frame respectively, the cooling space is provided with lower cooling device (31) and last cooling device (32) with the solid be connected together of frame respectively, the utility model provides a glass piece on two transfer stations carries out hot briquetting and cooling respectively simultaneously, convert a slice glass piece on, saved the time that short process of time spent cost in hot briquetting and the cooling in other words, shortened monolithic glass's production time, improve production efficiency, the promotion productivity.

Description

Rotary shifted formula hot-bending machine

Technical field

This utility model is related to 2d flat glass hot bending equipment, particularly, is related to one kind and 2d flat glass is passed through heating Form the rotary shifted formula hot-bending machine of 3d bend glass again with mould pressurizing.

Background technology

Existing glass bending equipment mostly is streamline processing, transports mould using conveying track, so that the mould of motion is held Carry sheet glass and sequentially pass through preheating zone, the thermal treatment zone, shaping area, cooling zone completing the processing of sheet glass, the heat of pipeline system Bender huge structure, equipment component is many, and maintenance workload is big, and the operation due to each block of glass is carried out in order successively, The technique progress of all online to other glass of the process time of any one block of glass and state has an impact, therefore, it is necessary to make every One block of glass can be precisely controlled the whole streamline of guarantee and normally run, and whole Pipeline control difficulty is big, working (machining) efficiency Relatively it is difficult to ensure card, monolithic glass high energy consumption.

Utility model content

This utility model purpose is to provide a kind of rotary shifted formula hot-bending machine, with solve in background technology propose ask Topic.

For achieving the above object, this utility model provides a kind of rotary shifted formula hot-bending machine, including frame 1, in frame It is provided with shaping area 2 and cooling zone 3, between shaping area and cooling zone, be provided with the middle rotary apparatuss being fixed together with frame 4, described middle rotary apparatuss include horizontally disposed rotatable mould loading plate 41 and turn for driven mold loading plate Dynamic rotary shaft 42, described mould loading plate is provided with two and is used for changing the transfer station of mould (51/52) position 411, two transfer station are located in shaping area and cooling zone respectively, and two transfer station are with regard to the rotational axis line of rotary shaft Symmetrical so that two transfer station can under the rotation of rotary shaft transposition；

Described shaping area is respectively arranged with the lower molding elevating mechanism 21 being fixed together with frame and upper molding elevator Structure 22, described cooling zone is respectively arranged with the lower chiller 31 being fixed together with frame and upper chiller 32, described under Molding elevating mechanism top is provided with liftable mould support top board 211, described lower chiller top be provided with liftable under Coldplate 311, all has the mistake passing through for mould support top board with lower coldplate at two on mould loading plate transfer station Hole, mould support top board is symmetrical with regard to the rotational axis line of rotary shaft with lower coldplate, and mould support top board is arrived with lower coldplate The distance of rotary shaft rotational axis line is equal to transfer station to the distance of rotary shaft rotational axis line so that mould loading plate stops While the position that a via is alignd with mould support top board, lower coldplate is alignd with another via, so that mould Tool loading plate and lower coldplate can independently rise and fall and by the mould jack-up in transfer station or by shaping mould Tool drop down onto transfer station, be provided with above mould loading plate with frame be connected for the mould to mould support top board jack-up The heating element heater of heating；

Described upper molding elevating mechanism bottom is provided with the liftable forming ejector pin 221 of be aligned mould support top board, molding The mould of mould support top board jack-up is pushed down after declining and is provided briquetting pressure to the glass pieces in mould by push rod；Institute State the liftable upper coldplate 321 that chiller bottom is provided with the lower coldplate of be aligned, upper coldplate decline after can with cold But the mould that top of the plate rises contacts and mould and glass pieces is cooled down.

Preferably, described heating element heater is high-frequency electromagnetic induction heating coil, and described mould support top board will become after rising Pattern tool heads into and carries out sensing heating in high-frequency electromagnetic induction heating coil.

Further, described lower molding elevating mechanism is provided with the horizontal adjustment for making mould support top board holding level Bolt 212.

Further, described mould support top board is provided with the thermocouple a213 for detecting mould heating-up temperature, Described lower coldplate is provided with the thermocouple b312 for detecting mould chilling temperature.

Preferably, the type of cooling of described upper coldplate and lower coldplate is water-cooled, and recirculated water cooling pipeline is arranged on In coldplate and lower coldplate.

Further, described frame is provided with seal box 6, and described shaping area, cooling zone and mould loading plate are arranged at In seal box.

The transparent automatically-controlled door 61 of be aligned cooling zone and/or shaping area is provided with described seal box.

Beneficial effect: this utility model by rotatable mould loading plate make mould shaping area and cooling zone it Between switch, mould loading plate is provided with two for picking and placeing the transfer station of workpiece, and a transfer station is in execution hot briquetting While operation, another transfer station can perform refrigerating work procedure, and the sheet glass on two stations is heated into respectively simultaneously Type and cooling, convert in a sheets, are equivalent to and save used time shorter operation in hot briquetting and cooling and spent Time, shorten the production time of monolithic glass, improve production efficiency, lift production capacity.

In addition to objects, features and advantages described above, this utility model also has other purposes, feature and excellent Point.Below with reference to figure, this utility model is described in further detail.

Brief description

The accompanying drawing constituting the part of the application is used for providing further understanding to of the present utility model, of the present utility model Schematic description and description is used for explaining this utility model, does not constitute to improper restriction of the present utility model.In accompanying drawing In:

Fig. 1 is the hot-bending machine overall structure diagram of this utility model preferred embodiment；

Fig. 2 is shaping area and the cooling zone external structure schematic diagram of this utility model preferred embodiment；

Fig. 3 is the middle rotary device structure schematic diagram of this utility model preferred embodiment；

Fig. 4 is the lower molding elevating mechanism schematic diagram of this utility model preferred embodiment；

Fig. 5 is the upper molding elevating mechanism schematic diagram of this utility model preferred embodiment；

Fig. 6 is the lower chiller structural representation of this utility model preferred embodiment；

Fig. 7 is the upper chiller structural representation of this utility model preferred embodiment.

In figure: 1- frame, 2- shaping area, molding elevating mechanism under 21-, 211- mould support top board, 212- horizontal adjustment Bolt, 22- upper molding elevating mechanism, 221- forming ejector pin, 213- thermocouple a, 3- cooling zone, chiller under 31-, under 311- Coldplate, the upper chiller of 312- thermocouple b, 32-, the upper coldplate of 321-, rotary apparatuss in the middle of 4-, 41- mould loading plate, 411- transfer station, 42- rotary shaft, 51- mould a, 52- mould b, 6- seal box, 61- automatically-controlled door.

Specific embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail, but this utility model can be according to power Profit requires the multitude of different ways limiting and covering to implement.

Referring to a kind of rotary shifted formula hot-bending machine of Fig. 1～Fig. 7, including frame 1, frame is provided with shaping area 2 with cold But area 3, are provided with the middle rotary apparatuss 4 being fixed together with frame, middle rotary apparatuss bag between shaping area and cooling zone Include horizontally disposed rotatable mould loading plate 41 and the rotary shaft 42 rotating for driven mold loading plate, mould carries Plate is provided with two and is used for changing the transfer station 411 of mould (51/52) position, and two transfer station are located at molding respectively In area and cooling zone, and two transfer station with regard to rotary shaft rotational axis line symmetrical so that two transfer station can be in rotation Transposition under the rotation of rotating shaft；

Shaping area is respectively arranged with the lower molding elevating mechanism 21 being fixed together with frame and upper molding elevating mechanism 22, Cooling zone is respectively arranged with the lower chiller 31 being fixed together with frame and upper chiller 32, lower molding elevating mechanism top Portion is provided with liftable mould support top board 211, and lower chiller top is provided with liftable lower coldplate 311, and mould carries All have the via passing through with lower coldplate for mould support top board at two transfer station on plate, mould support top board with Coldplate is symmetrical with regard to the rotational axis line of rotary shaft, mould support top board and lower coldplate to rotary shaft rotational axis line away from So that mould loading plate stops at a via and mould support with a distance from equal to transfer station to rotary shaft rotational axis line While the position of top board alignment, lower coldplate is alignd with another via, so that mould loading plate and lower coldplate can Independently rise and fall and drop down onto transfer station by the mould jack-up in transfer station or by mould, mould holds It is provided with the heating element heater for the mould heating to mould support top board jack-up being connected with frame above support plate；

Upper molding elevating mechanism bottom is provided with the liftable forming ejector pin 221 of be aligned mould support top board, forming ejector pin After decline, the mould of mould support top board jack-up is pushed down and provide briquetting pressure to the glass pieces in mould；Upper cooling Bottom of device is provided with the liftable upper coldplate 321 of the lower coldplate of be aligned, and upper coldplate can be with lower coldplate jack-up after declining Mould contact and mould and glass pieces are cooled down.

In the present embodiment, heating element heater is high-frequency electromagnetic induction heating coil (not shown), on mould support top board After rising, mould is headed into and in high-frequency electromagnetic induction heating coil, carry out sensing heating.

In the present embodiment, lower molding elevating mechanism is provided with the horizontal adjustment spiral shell for making mould support top board holding level Bolt 212.

In the present embodiment, mould support top board is provided with the thermocouple a213 for detecting mould heating-up temperature, under Coldplate is provided with the thermocouple b312 for detecting mould chilling temperature.

In the present embodiment, the type of cooling of upper coldplate and lower coldplate is water-cooled, and recirculated water cooling pipeline is arranged on In coldplate and lower coldplate.

In the present embodiment, frame is provided with seal box 6, and shaping area, cooling zone and mould loading plate are arranged at seal box Interior.

In the present embodiment, seal box is provided with the transparent automatically-controlled door 61 of be aligned cooling zone.

Work process of the present utility model approximately as:

Automatically-controlled door 61 is opened, lower coldplate 311 is upward through via and extends above mould loading plate 41, will install glazier The mould a51 of part is placed on lower coldplate 311, and lower coldplate 311 declines, and mould a51 falls mould loading plate On 41, rotary shaft 42 rotates, and one end that mould loading plate 41 is loaded with mould a51 goes to shaping area 2, mould loading plate simultaneously 41 other ends go to cooling zone 1, and mould support top board 211 rises, and mould is sent in high frequency heating coil and begins to warm up, After the completion of heating, forming ejector pin 221 declines, and starts down-pressing forming, and pressurize, after the completion of pressurize mould support top board 211 with become Type push rod 221 is return in situ, and mould 5 falls back on mould loading plate 41 again, during heating pressurize, then cold But the mould b52 installing glass pieces is placed in area, and rotary shaft 42 rotates again, and mould a51 goes to cooling zone, is inciting somebody to action The good sheet glass of hot briquetting is delivered to the mould b52 also charging being completed while cooling zone and is delivered to the thermal treatment zone, lower cooling Plate 311 rises, upper coldplate 321 is dropped to and fitted with mould 5 surface, begins to cool down, after cooling finishes, upper coldplate 321 risings can be taken off mould a51, completes the processing of a sheet glass.And the now another sheet glass in mould b52 It has been basically completed hot briquetting operation, be equivalent to the time having saved an operation.

The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for this For the technical staff in field, this utility model can have various modifications and variations.All of the present utility model spirit and principle Within, any modification, equivalent substitution and improvement made etc., should be included within protection domain of the present utility model.

Claims (7)

1. a kind of rotary shifted formula hot-bending machine, it is characterised in that including frame (1), frame is provided with shaping area (2) and cooling Area (3), is provided with the middle rotary apparatuss (4) being fixed together with frame, described middle rotation between shaping area and cooling zone Device includes horizontally disposed rotatable mould loading plate (41) and the rotary shaft rotating for driven mold loading plate (42), described mould loading plate is provided with two transfer station (411) being used for changing mould (51/52) position, two Transfer station is located in shaping area and cooling zone respectively, and two transfer station are symmetrical with regard to the rotational axis line of rotary shaft, make Two transfer station can under the rotation of rotary shaft transposition；

Described shaping area is respectively arranged with the lower molding elevating mechanism (21) being fixed together with frame and upper molding elevating mechanism (22), described cooling zone is respectively arranged with the lower chiller (31) being fixed together with frame and upper chiller (32), institute State lower molding elevating mechanism top and be provided with liftable mould support top board (211), described lower chiller top is provided with and can rise The lower coldplate (311) of fall, all has at two on mould loading plate transfer station for mould support top board and lower coldplate The via passing through, mould support top board and lower coldplate are symmetrical with regard to the rotational axis line of rotary shaft, mould support top board with The distance of coldplate to rotary shaft rotational axis line is equal to transfer station to the distance of rotary shaft rotational axis line so that mould holds While support plate stops at the position that a via is alignd with mould support top board, lower coldplate is alignd with another via, from And make mould loading plate and lower coldplate can independently rise and fall and by the mould jack-up in transfer station or Mould is dropped down onto transfer station, be provided with above mould loading plate with frame be connected for mould support top board jack-up The heating element heater of mould heating；

Described upper molding elevating mechanism bottom is provided with the liftable forming ejector pin (221) of be aligned mould support top board, and molding pushes away The mould of mould support top board jack-up is pushed down after declining and is provided briquetting pressure to the glass pieces in mould by bar；Described Upper chiller bottom is provided with the liftable upper coldplate (321) of the lower coldplate of be aligned, upper coldplate decline after can with cold But the mould that top of the plate rises contacts and mould and glass pieces is cooled down.

2. a kind of rotary shifted formula hot-bending machine according to claim 1 is it is characterised in that described heating element heater is high-frequency electrical Magnetic induction heating coil, described mould support top board after rising heads into mould in high-frequency electromagnetic induction heating coil and carries out Sensing heating.

3. a kind of rotary shifted formula hot-bending machine according to claim 1 is it is characterised in that on described lower molding elevating mechanism It is provided with the horizontal adjustment bolt (212) for making mould support top board holding level.

4. a kind of rotary shifted formula hot-bending machine according to claim 1 is it is characterised in that set on described mould support top board There is the thermocouple a (213) for detecting mould heating-up temperature, described lower coldplate is provided with cold for detecting mould But the thermocouple b (312) of temperature.

5. a kind of rotary shifted formula hot-bending machine according to claim 1 is it is characterised in that upper coldplate and lower coldplate The type of cooling is water-cooled, and recirculated water cooling pipeline is arranged in coldplate and lower coldplate.

6. a kind of rotary shifted formula hot-bending machine according to any one in Claims 1 to 5 is it is characterised in that described machine Frame is provided with seal box (6), and described shaping area, cooling zone and mould loading plate are arranged in seal box.

7. a kind of rotary shifted formula hot-bending machine according to claim 6 it is characterised in that be provided with described seal box right The transparent automatically-controlled door (61) of quasi- cooling zone and/or shaping area.