The double sides of glass facing attachment
Technical field
The utility model relates to the glass processing field, especially, relates to a kind of double sides of glass facing attachment.
Background technology
At present, double-side glass edging machine is when carrying out glass edging, the general opposite side processing of adopting two bilateral machines to finish glass, every sheet glass need to be processed twice, also need the glass behind the edging is carried out manual chamfer machining, obviously, this processing technology need to be carried out three work steps---edging, edging, chamfering, just can finish the edging chamfering process of a sheet glass.This mode efficient is low and processing effect is bad, and precision is difficult to control, and is difficult to a large amount of productions.
The utility model content
The utility model purpose be to provide a kind of can be steadily, the double sides of glass facing attachment of the bilateral chamfering of disposable realization glass efficiently, need to process twice, inefficient technical problem to solve existing glass chamfering.
For achieving the above object, the utility model provides a kind of double sides of glass facing attachment, comprise two edge polishers and the control system that are oppositely disposed in described glass motion path both sides, described edge polisher comprises grinding head assembly and tracking feeder assembly, and described control system links to each other with two described grinding head assemblies respectively by two described tracking feeder assemblies and controls two described grinding head assemblies motions.
As further improvement of the utility model:
Each described tracking feeder assembly comprises transverse movement assembly and radial motion assembly, and described transverse movement assembly is connected with described grinding head assembly and drives described grinding head assembly along the direction back and forth movement perpendicular to described glass motion path; Described radial motion assembly is connected with described transverse movement assembly and drives described grinding head assembly and described transverse movement assembly along the direction back and forth movement of described glass motion path; Described control system links to each other with described transverse movement assembly with described radial motion assembly respectively.
Described radial motion assembly comprises Y-direction cylinder, Y-direction guide rail and is located at Y-direction slide block on the described Y-direction guide rail, and described Y-direction slide block links to each other with the telescopic end of described Y-direction cylinder, and described Y-direction cylinder and described Y-direction guide rail all extend along described glass motion path to be arranged;
Described transverse movement assembly comprises X-direction cylinder, X-direction guide rail and is located at X-direction slide block on the described X-direction guide rail, described X-direction slide block links to each other with the telescopic end of described X-direction cylinder, and described X-direction cylinder and described X-direction guide rail are all along placing on the described Y-direction slide block with direction extension cloth perpendicular to described Y-direction cylinder.
Described double sides of glass facing attachment also comprises the upset assembly, and described tracking feeder assembly links to each other with described grinding head assembly by described upset assembly.
Described upset assembly comprises overturning seat and the flipping block that is articulated on the described overturning seat, and described overturning seat is fixed on the described X-direction slide block, and described flipping block is connected with described grinding head assembly.
Described flipping block is provided with the lifting guide pillar, and described grinding head assembly is sheathed on the described lifting guide pillar and by elevating screw and nut and is fixed on the described flipping block.
The quantity of described lifting guide pillar is two.
Described grinding head assembly comprises motor, synchronizing wheel, head holder, bistrique and grinding spindle, described synchronizing wheel is set on the turning cylinder of described motor, described bistrique is installed on the described grinding spindle, described grinding spindle is installed on the described head holder and with described synchronizing wheel by bearing and links to each other, and described head holder links to each other with described X-direction slide block by described upset assembly.
The utlity model has following beneficial effect:
Double sides of glass facing attachment of the present utility model, adopt control system to follow the trail of feeder assembly by two and control respectively two described grinding head assembly motions, bilateral chamfering that can disposable realization glass can avoid glass to carry out rehandling and secondary operations, and the efficient of chamfering is high.Simultaneously, can realize continuously and chamfering stably, the repeatable accuracy of chamfering is high, high conformity, processes reliable and stable.
Except purpose described above, feature and advantage, the utility model also has other purpose, feature and advantage.The below is described in further detail the utility model with reference to figure.
Description of drawings
The accompanying drawing that consists of the application's a part is used to provide further understanding of the present utility model, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:
Fig. 1 is the composition structural representation of the double sides of glass facing attachment (not shown control system) of the utility model preferred embodiment;
Fig. 2 is the composition structural representation of the tracking feeder assembly of the utility model preferred embodiment;
Fig. 3 is the composition structural representation of the upset assembly of the utility model preferred embodiment;
Fig. 4 is the composition structural representation of the grinding head assembly of the utility model preferred embodiment;
Fig. 5 is the working state schematic representation of the utility model preferred embodiment.
Marginal data:
1, grinding head assembly; 2, follow the trail of feeder assembly; 21, radial motion assembly; 22, transverse movement assembly; 3, Y-direction cylinder; 4, Y-direction guide rail; 5, Y-direction slide block; 6, X-direction cylinder; 7, X-direction guide rail; 8, X-direction slide block; 9, upset assembly; 10, overturning seat; 11, flipping block; 12, lifting guide pillar; 13, motor; 14, synchronizing wheel; 15, head holder; 16, bistrique; 17, grinding spindle; 18, elevating screw.
The specific embodiment
Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.
As shown in Figure 1, double sides of glass facing attachment of the present utility model, comprise two edge polishers and the control system that are oppositely disposed in glass motion path both sides, edge polisher comprises grinding head assembly 1 and tracking feeder assembly 2, and control system links to each other with two grinding head assemblies 1 respectively by two tracking feeder assemblies 2 and controls 1 motion of two grinding head assemblies.
The utility model adopts control system to follow the trail of feeder assemblies 2 by two and controls respectively two described grinding head assemblies 1 motions, and bilateral chamfering that can disposable realization glass can avoid glass to carry out rehandling and secondary operations, and the efficient of chamfering is high.
In the present embodiment, each is followed the trail of feeder assembly 2 and comprises transverse movement assembly 22 and radial motion assembly 21, and transverse movement assembly 22 is connected with grinding head assembly 1 and drives grinding head assembly 1 along the direction back and forth movement perpendicular to the glass motion path; Radial motion assembly 21 is connected with transverse movement assembly 22 and drives grinding head assembly 1 and transverse movement assembly 22 along the direction back and forth movement of glass motion path; Control system links to each other with transverse movement assembly 22 with radial motion assembly 21 respectively.Control system can be controlled move distance and the direction of motion of radial motion assembly 21 and transverse movement assembly 22.
In the present embodiment, as shown in Figure 2, radial motion assembly 21 comprises Y-direction cylinder 3, Y-direction guide rail 4 and is located at Y-direction slide block 5 on the Y-direction guide rail 4, and Y-direction slide block 5 links to each other with the telescopic end of Y-direction cylinder 3, and Y-direction cylinder 3 and Y-direction guide rail 4 all extend along the glass motion path to be arranged.Transverse movement assembly 22 comprises X-direction cylinder 6, X-direction guide rail 7 and is located at X-direction slide block 8 on the X-direction guide rail 7, X-direction slide block 8 links to each other with the telescopic end of X-direction cylinder 6, and X-direction cylinder 6 and X-direction guide rail 7 are all along placing on the Y-direction slide block 5 with direction extension cloth perpendicular to Y-direction cylinder 3.Radial motion assembly 21 and the transverse movement assembly 22 of two edge polishers all are arranged symmetrically with in opposite directions.
In the present embodiment, the double sides of glass facing attachment also comprises upset assembly 9, follows the trail of feeder assembly 2 and links to each other with grinding head assembly 1 by upset assembly 9.As shown in Figure 3, upset assembly 9 comprises overturning seat 10 and the flipping block 11 that is articulated on the overturning seat 10, and overturning seat 10 is fixed on the X-direction slide block 8, and flipping block 11 is connected with grinding head assembly 1.Flipping block 11 is provided with two lifting guide pillars 12, and grinding head assembly 1 is sheathed on the lifting guide pillar 12 and by elevating screw 18 and nut and is fixed on the flipping block 11.Flipping block 11 can turn an angle around overturning seat 10, can be conveniently with the emery wheel that changes grinding head assembly 1.
In the present embodiment, as shown in Figure 4, grinding head assembly 1 comprises motor 13, synchronizing wheel 14, head holder 15, bistrique 16 and grinding spindle 17, synchronizing wheel 14 is set on the turning cylinder of motor 13, bistrique 16 is installed on the grinding spindle 17, grinding spindle 17 is installed on the head holder 15 and with synchronizing wheel 14 by bearing and links to each other, and head holder 15 links to each other with X-direction slide block 8 by upset assembly 9.
As shown in Figure 5, the present embodiment course of work is as follows:
1, enter the operating position: the impulse stroke distance of control system control X-direction cylinder 6 motion appointments, be about to grinding head assembly 1 and be pushed to the operating position, wait for that glass arrives.
2, ground glass is front two jiaos: after glass moves to the operating position, clash into bistrique 16 and promote grinding head assembly 1 and advance; Control system control this moment Y-direction cylinder 3 microinchings (low speed air inlet or give vent to anger), so that grinding head assembly 1 can be synchronized with the movement along Y-direction guide rail 4 with glass under the impetus of glass, until finish control system default follow stroke distances, can be judged to be the front two jiaos of chamferings of glass complete.
3, the position of deactivating: the impulse stroke distance of control system control X-direction cylinder 6 counter motion appointments, be about to X-direction slide block 8 and recess the operating position, wait for the glass process.
4, enter trace location: behind the duration that wait is preset (size and the movement velocity of this time according to glass is set in advance in the control system), be behind the glass two jiaos pass through fully, control system control Y-direction cylinder 3 rapid movements (high speed air inlet or give vent to anger), track to rapidly glass relief angle position, and 6 motions of control X-direction cylinder are shifted grinding head assembly 1 onto operating position.
5, behind the ground glass two jiaos: two jiaos operation grinding head assembly 1 is followed the trail of glass and carried out down under the impetus of Y-direction cylinder 3 after, until finish chamfering, (whether finish chamfering and glass progressive position and calculated by the transfer rate of control system according to glass, also can be pre-stored in control system).
Tracking feeder assembly 2 of the present utility model is not limited to adopt cylinder to realize, also can be other can judge travel position, and can so that the variable device of Y-direction speed all can realize, cooperate drive circuit or servomotor 13 to realize all can such as cooperation, the sensor that adopts travel switch and circuit.As shown in Figure 1, other devices all are arranged on the edge polisher except control system, and the resource that can save space, and suitable pipelining are convenient to expand the scale of production.
To sum up, double sides of glass facing attachment of the present utility model, automaticity is high, can realize continuously and chamfering stably, and the repeatable accuracy of chamfering is high, high conformity, processes reliable and stable.
The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.