Heating component for 3D glass heat benders
Technical field
A kind of glass bending thermomechanical components are the utility model is related to, are heated specifically for the mould in 3D glass heat benders.
Background technology
With bend glass moulding it is prevailing, the usage amount of 3D glass heat benders is also stepped up, for 3D glass
The requirement of hot-bending machine is also more and more;In the prior art, the heating component in 3D glass heats bender is direct using single group heater
The mode of mould is heated, which one side efficiency is low, and on the other hand easily generation heating is too fast causes what glass breakage ruptured
Phenomenon;At the same time, the mode of existing infrared heat pipes heat, heat loss is big, high energy consumption, and energy waste situation is also more serious.
Utility model content
Technical problem to be solved in the utility model is to be directed to above-mentioned deficiency of the prior art, discloses a kind of use
In the heating component of 3D glass heat benders, its heating arrangement is reasonable, and energy consumption is low, efficiency high, does not easily cause the glass of heating process
Damage.
Technical scheme is used by the utility model solves its technical problem:Heating group for 3D glass heat benders
Part, comprising line slideway, the line slideway is arranged on track base, and sliding block is arranged on line slideway, rotary cylinder installation
On sliding block, rod for stiring materials left end is arranged on rotary cylinder, the output that rod for stiring materials right-hand member passes through connecting rod and material toggling linear electric motors
Axis connection, the material toggling linear electric motors are rack-mount, and the top of framework is symmetrically installed two heating components;It is respectively left to add
Hot component and right heating component;Left jacking cylinder is arranged on left cylinder installing plate, and left heating bottom plate is arranged on framework, left top
Seat up on the piston rod of left jacking cylinder and left jacking seat is in left heating bottom plate, left heating slide plate passes through left heating
Support column is arranged on left heating bottom plate;Left side mould to be heated is arranged on left jacking seat;Right jacking cylinder is arranged on the right side
On cylinder mounting plate, right heating bottom plate is arranged on framework, and right jacking seat is arranged on the piston rod of right jacking cylinder and right top
Seat up in right heating bottom plate, right heating slide plate is arranged on right heating bottom plate by right heating support column, and right side is to be heated
Mould be arranged on it is right jacking seat on;Left caching bottom plate is arranged on framework, and left caching slide plate is installed by left caching support column
On left caching bottom plate, the mould for being used to cache in left side is arranged on left caching slide plate, and right caching bottom plate is arranged on framework,
Right caching slide plate is arranged on right caching bottom plate by right caching support column, and the mould for being used to cache on right side is arranged on right caching
On slide plate, it is provided with described rod for stiring materials for stirring left heating slide plate, left caching slide plate, right heating slide plate and right caching slide plate
Side shift fork;
The heating component includes heating plate and is fixed on the reflecting plate of heating plate surrounding;The reflecting plate is even width
And end to end stripe board annular in shape;The mold heat to be added in left side and the standby mold heat on right side are placed in after being jacked completely
The inside of the heating component of correspondence position;Warming plate is further fixed in the heating plate;
As a kind of preferred embodiment of the present utility model:Set in obtuse angle between the reflecting plate and heating plate;Institute
It is flexibility to state heating plate and reflecting plate.
As a kind of preferred embodiment of the present utility model:The warming plate is fixed on heating plate relative to reflecting plate
Opposite side, warming plate cover the whole side of heating plate;The warming plate is cystosepiment.
As a kind of preferred embodiment of the present utility model:Also include right guide pin bushing, right guide pillar, left guide pin bushing and left guide pillar,
Two left guide pillar tops are arranged on left jacking seat, and the left guide pin bushing is arranged on left cylinder installing plate and left guide pin bushing is installed
On left guide pillar, two right guide pillar tops are arranged on right jacking seat, and the right guide pin bushing is arranged on right cylinder installing plate
And right guide pin bushing is arranged on right guide pillar.
As a kind of preferred embodiment of the present utility model:The upper surface of the left heating bottom plate and right heating bottom plate is opened
If a circle locating slot, the lower edge of the reflecting plate of the heating component are embedded in the locating slot.
As a kind of preferred embodiment of the present utility model:The piston rod rotation of the rotary cylinder is passed through branch
Assembly flange on frame, piston-rod end are connected by universal driving shaft with described rod for stiring materials;The material toggling linear electric motors are fixedly mounted
On support;The linkage board of the axial direction perpendicular to telescopic shaft is installed with the telescopic shaft of material toggling linear electric motors;It is described
One end of rod for stiring materials is rotatably installed in the bearing installed on the linkage board;The other end of described rod for stiring materials and rotary cylinder
Piston rod connects.
The utility model has advantages below compared with prior art:
The disclosed heating component for being used for 3D glass heat benders of the utility model, it (is connected by material toggling component with rod for stiring materials
The part connect) realize stirring for mould, the left and right heated will be needed by jacking component (component that jacking cylinder connects)
The standby hot mould of two positions, which jacks up, enters heating component heating;After being heated to certain temperature, by four groups of positions after falling
A station is stirred, carries out two moulds heating of next group, after the mould of last time heating is jacked up again after then falling again
Secondary heating, avoid glass breakage caused by the heating once overheated.Heating component of the present utility model, by the reflecting plate of ring-type
The opposing seal environment of heating process is formed, makes the heating chamber that closing is formed between mould, heating plate and reflecting plate, warming plate energy
Temperature leak is enough prevented, and then heat transfer is lifted the efficiency of heating surface and effect to mould inside.
Specifically, the utility model needs the glass and heat-bending glass mould of hot bending using two heating component heating, make
The glass and heat-bending glass mould for needing hot bending are warming up to design temperature in first heating component (right heating component), then stop
Only heat by heat leak into the glass and heat-bending glass mould for needing hot bending, recycle material toggling component to need the glass of hot bending
And heat-bending glass mould pushes to position (left heating component) heating of second heating component, avoids one-time heating too fast
It is too quickly to cause glass rupture and non-uniform temperature.
Brief description of the drawings
Fig. 1 is a kind of structural representation of embodiment of the present utility model;
Fig. 2 is a kind of structural representation of embodiment of material toggling component of the present utility model;
Fig. 3 is mplifying structure schematic diagram at Fig. 2 A;
Fig. 4 is mplifying structure schematic diagram at Fig. 2 C;
Fig. 5 is the assembly structure diagram of jacking cylinder of the present utility model.
Description of reference numerals:
1- track bases, 2- line slideways, 3- rotary cylinders, 4- sliding blocks, 5- rod for stiring materials, 6- frameworks, 7- reflecting plates, 8- heating
Plate, the left heating slide plates of 9-, 10- warming plates, the left caching slide plates of 11-, the right heating slide plates of 12-, the right heating generators of 13-, 14- are right slow
Deposit slide plate, 15- material toggling linear electric motors, 16- supports, the right caching bottom plates of 17-, the right heating bottom plates of 18-, the right jacking cylinders of 19-, 20-
Left caching bottom plate, the left jacking cylinders of 21-, the left heating bottom plates of 22-, 23- shift forks;31- locating slots, 32- moulds, 33- jacking seats,
34- guide pin bushings, 35- guide pillars, 36- cylinder mounting plates;
101- assembly flanges, 102- supports, 103- universal driving shafts, 104- sliding blocks;
201- linkage boards, 202- telescopic shafts, 203- bearings.
Embodiment
The utility model is described in detail shown each embodiment below in conjunction with the accompanying drawings, but it should explanation,
These embodiments are not limitation of the utility model, and those of ordinary skill in the art are according to these embodiment institute works
Energy, method or equivalent transformation or replacement in structure, are belonged within the scope of protection of the utility model.
As shown in Fig. 1~5, it illustrates specific embodiment of the utility model;As illustrated, disclosed in the utility model
For the heating component of 3D glass heat benders, comprising line slideway 2, the line slideway 2 is arranged on track base 1, and sliding block 4 is pacified
On line slideway, rotary cylinder 3 is arranged on sliding block 4, and the left end of rod for stiring materials 5 is arranged on rotary cylinder 3, and rod for stiring materials 5 is right
Pacified by connecting rod (shaft coupling can also be made) and the output axis connection of material toggling linear electric motors 15, the material toggling linear electric motors 15 at end
On support 16, the top of framework 6 is symmetrically installed two heating components;Respectively left heating component and right heating component;It is left
Jacking cylinder 21 is arranged on left cylinder installing plate (because the structure of left and right cylinder part is the same, therefore left cylinder installing plate
All it is the cylinder mounting plate 36 shown in Fig. 5 with right cylinder installing plate;The describing mode of remaining part is identical) on, left heating bottom plate
22 are arranged on framework 6, and left jacking seat is arranged on the piston rod of left jacking cylinder 21 and left jacking seat is located at left heating bottom plate
In 22, left heating slide plate 9 is arranged on left heating bottom plate 22 by left heating support column;Left side mould 32 to be heated is arranged on
On left jacking seat;Right jacking cylinder 19 is arranged on right cylinder installing plate, and right heating bottom plate 18 is arranged on framework 6, right jacking
Seat is arranged on the piston rod of right jacking cylinder 19 and right jacking seat is in right heating bottom plate 18, and right heating slide plate 12 passes through the right side
Heat support column to be arranged on right heating bottom plate 18, right side mould 32 to be heated is arranged on right jacking seat;Left caching bottom plate
20 are arranged on framework 6, and left caching slide plate 11 is arranged on left caching bottom plate 20 by left caching support column, and left side is used to delay
The mould 32 (mould for being used to cache refers to need the mould heated next time) deposited is arranged on left caching slide plate 20, right caching
Bottom plate 17 is arranged on framework 6, and right caching slide plate 14 is arranged on right caching bottom plate 17 by right caching support column, the use on right side
It is arranged on right caching slide plate 20, is provided with described rod for stiring materials 5 for stirring left heating slide plate 9, Zuo Huan in the mould of caching
Deposit the shift fork 23 of the side of slide plate 11, right heating slide plate 12 and right caching slide plate 14;
The heating component includes heating plate 8 and is fixed on the reflecting plate 7 of the surrounding of heating plate 8;The reflecting plate 7 is width
Uniform and end to end stripe board annular in shape;After the mold heat to be added in left side and the standby mold heat on right side are jacked completely
It is placed in the inside (being the restriction to locations of structures herein) of the heating component of correspondence position;It is further fixed on protecting in the heating plate 8
Warm plate 10;
Preferably, as shown in Figure 1:Set in obtuse angle between the reflecting plate 7 and heating plate 8;The heating plate 8 and reflection
Plate 7 is flexibility.Obtuse angle structure can allow mould stretch into and to exit process more smooth;Flexible structure can be with even closer
Coordinate, it is strong to form more closed heating;Electric heating coil is disposed with heating plate.
Preferably, as shown in Figure 1:The warming plate 10 is fixed on the opposite side of heating plate 8 relative to reflecting plate 7, insulation
Plate 10 covers the whole side of heating plate 8;The warming plate 10 is cystosepiment.The design of warming plate can substantially reduce heat stream
Lose, reduce energy consumption.
Preferably, as shown in Figure 5:Also include right guide pin bushing, right guide pillar, left guide pin bushing and left guide pillar, two left guide pillar tops
End is arranged on left jacking seat, and the left guide pin bushing is arranged on left cylinder installing plate and left guide pin bushing is arranged on left guide pillar, two
The right guide pillar top is arranged on right jacking seat, and the right guide pin bushing is arranged on right cylinder installing plate and right guide pin bushing is arranged on the right side
On guide pillar.The structure of guide pin bushing guide pillar make it that lifting process is more steady, precisely.
Preferably, as shown in Figure 5:The upper surface of the left heating bottom plate and right heating bottom plate opens up a circle locating slot 31,
The lower edge of the reflecting plate 7 of the heating component is embedded in the locating slot 31.The structure of locating slot can be raised after plus
Hot bottom plate and reflecting plate reliable fit, form closed reliable heating chamber.
Preferably, as shown in figures 1-4:The piston rod rotation of the rotary cylinder 3 is passed through the assembling on support 16
Flange, piston-rod end are connected by universal driving shaft 103 with described rod for stiring materials 5;The material toggling linear electric motors 15 are fixedly mounted on branch
On frame 16;The linkage board of the axial direction perpendicular to telescopic shaft 202 is installed with the telescopic shaft 202 of material toggling linear electric motors 15
201;One end of described rod for stiring materials 5 is rotatably installed in the bearing 203 installed on the linkage board 201;Described rod for stiring materials 5 it is another
One end is connected with the piston rod of rotary cylinder 3.In the present embodiment, by the structure of specific rotary cylinder, material toggling linear electric motors,
Enable rod for stiring materials reliably to realize rotation and translation process, finally enable shift fork to rotate and mould is stirred in movement, realization
Advance.
Rotary cylinder assembles rod for stiring materials by universal driving shaft, can realize reliable transmission, also allows for independent demolition and maintenance.Rotation
The telescopic shaft of cylinder is output shaft, linkage board can be driven to be moved axially along rod for stiring materials, so as to drive rod for stiring materials and rotary pneumatic
The component of cylinder part moves in the axial direction, and at the same time, gangbar is rotatablely installed described rod for stiring materials again, and therefore, rod for stiring materials can
Axial movement and radial rotating are realized, reliably cleverly completes whole adjustment and material toggling process.
The a series of tool described in detail only for feasibility embodiment of the present utility model of those listed above
Body illustrates that they are simultaneously not used to limit the scope of protection of the utility model, all to be made without departing from the utility model skill spirit
Equivalent implementations or change should be included within the scope of protection of the utility model.
Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each embodiment is only wrapped
Containing an independent technical scheme, this narrating mode of specification is only that those skilled in the art should for clarity
Using specification as an entirety, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
It is appreciated that other embodiment.