CN109773615A - A kind of device for grinding angle of glass and a kind of glass angle lap method - Google Patents

Abstract

The invention discloses a kind of device for grinding angle of glass and a kind of angle lap methods, including rack, oscillating arm mechanisms, driving mechanism and grinding mechanism, the oscillating arm mechanisms rotation connection is on the rack, the driving mechanism includes the first driver and the second driver, first driver drives the oscillating arm mechanisms back and forth to swing around with the tie point of rack work, and second driver is mounted in oscillating arm mechanisms；The grinding mechanism includes the motor of connecting plate, the emery wheel being mounted on connecting plate and driving emery wheel rotation, and the connecting plate is equipped with connecting pin a and connecting pin b, and end a and oscillating arm mechanisms are rotatablely connected, and the connecting plate is back and forth swung with oscillating arm mechanisms；B and the second driver is held to be rotatablely connected, second driver is drivingly connected plate around end a rotation；It is easy to use, grinding accuracy is high and high in machining efficiency.

Description

A kind of device for grinding angle of glass and a kind of glass angle lap method

Technical field

The present invention relates to equipment for grinding technical fields, grind in particular to a kind of device for grinding angle of glass and a kind of glass Angle method.

Background technique

In building material industry, such as glass, ceramics, stone material, especially to the processing of glass, it is often necessary to the corner of glass It is ground, in the prior art, to the equipment for grinding of glass wedge angle, structure is complicated, and usually needs to use to the grinding of wedge angle The emery wheel 42 of different angle is ground, low efficiency.

Summary of the invention

For overcome the deficiencies in the prior art, the present invention provide it is a kind of it is high-efficient, precision is high, glass angle lap easy to use Device.

To achieve the above object, technical scheme is as follows:

A kind of device for grinding angle of glass, including rack, oscillating arm mechanisms, driving mechanism and grinding mechanism, the oscillating arm mechanisms turn On the rack, the driving mechanism includes the first driver and the second driver for dynamic connection, described in first driver driving Oscillating arm mechanisms back and forth swing around with the tie point of rack work, and second driver is mounted in oscillating arm mechanisms；The mill The motor that mechanism includes connecting plate, the emery wheel being mounted on connecting plate and driving emery wheel rotation is cut, the connecting plate, which is equipped with, to be connected End a and connecting pin b is met, end a and oscillating arm mechanisms are rotatablely connected, and the connecting plate is back and forth swung with oscillating arm mechanisms；Hold b It is rotatablely connected with the second driver, second driver is drivingly connected plate around end a rotation.

As an improvement of the above technical solution, the oscillating arm mechanisms include first connecting rod, second connecting rod, the first connecting rod Upper end rotation connection with second connecting rod is on the rack；Second driver is connected on second connecting rod, first driving Device and the second driver include the drive shaft that can carry out stretching motion, and the end a of the connecting plate is rotatably connected on first connecting rod The end b of tail end, the connecting plate is connect with the drive shaft turns of the second driver；First driver is rotatably connected on rack On, the drive shaft and first connecting rod or second connecting rod of first driver are rotatablely connected, the first driver driving first Connecting rod and second connecting rod are swung simultaneously.

As a further improvement of the above technical scheme, first driver and the second driver are cylinder.

Further, be provided with linear guiding mechanism on the second connecting rod, the linear guiding mechanism include limited block and It is interspersed in the guide rod of limited block, the lower end of the guide rod is connect with the drive shaft of the first driver by a link block, institute It states guide rod when drive shaft carries out stretching motion to move up and down along limited block, the drive shaft is rotatablely connected by link block On connecting plate.

Further, bearing is installed between the link block and connecting plate.

Further, the grinding mechanism further includes Mobile base and third driver, and the Mobile base is dynamic to be connected on connecting plate, The third driver drives the Mobile base to be moved.

Further, the grinding mechanism further includes pinch roller and pressure inductor, and the pinch roller is co-axially mounted with emery wheel, and The outer diameter of the pinch roller and the grinding surface of emery wheel are equal, and the pressure inductor is connect with pinch roller.

Further, the emery wheel includes cylindrical ontology, is coaxially set on the unilateral end face of the ontology or both sides of the face There is the stepped part that diameter is smaller than ontology diameter, forms the grinding surface of R fillet toward the surface blending of stepped part from the end face of ontology.

A kind of glass angle lap method, which comprises the following steps:

Step A: pattern, by the grinding surface of emery wheel close to the upper surface of glass wherein one jiao of wedge angle；

Step B: grinding carries out arc toward the direction at thickness of glass edge from the upper surface of wedge angle and moves towards grinding；Then edge Thickness of glass edge is ground by thickness of glass direction；Finally arc is carried out from thickness of glass edge toward wedge angle lower end surface direction Move towards grinding.

Further, the emery wheel includes cylindrical ontology, is coaxially set on the unilateral end face of the ontology or both sides of the face There is the stepped part that diameter is smaller than ontology diameter, forms the grinding surface of R fillet, step toward the surface blending of stepped part from the end face of ontology The grinding surface of emery wheel is ground to form fillet to the wedge angle of glass when rapid B grinding.

The beneficial effects of the present invention are: a kind of device for grinding angle of glass, including rack, oscillating arm mechanisms, driving mechanism and grinding Mechanism, on the rack, the driving mechanism includes the first driver and the second driver, described for the oscillating arm mechanisms rotation connection First driver drives the oscillating arm mechanisms back and forth to swing around with the tie point of rack work, and second driver is mounted on In oscillating arm mechanisms；The grinding mechanism includes the electricity of connecting plate, the emery wheel being mounted on connecting plate and driving emery wheel rotation Machine, the connecting plate are equipped with connecting pin a and connecting pin b, and end a and oscillating arm mechanisms are rotatablely connected, and the connecting plate is with oscillating arm mechanisms Back and forth swung；B and the second driver is held to be rotatablely connected, second driver is drivingly connected plate around end a rotation；Make With convenient, grinding accuracy is high and high in machining efficiency.

Detailed description of the invention

It is described further below in conjunction with attached drawing and example.

Fig. 1 is main view of the invention；

Fig. 2 is three-dimensional view of the invention；

Fig. 3 is emery wheel angle lap track of the invention；

Fig. 4 is left view of the invention；

Fig. 5 is the left view of emery wheel of the invention.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.

Referring to Figures 1 and 2, a kind of device for grinding angle of glass, including rack 1, oscillating arm mechanisms 2, driving mechanism and grinding mechanism 4, the oscillating arm mechanisms 2 are rotatably connected in rack 1, and the driving mechanism includes the first driver 31 and the second driver 32, First driver 31 drives the oscillating arm mechanisms 2 back and forth to swing around with the tie point of rack 1 work, i.e. oscillating arm mechanisms 2 It is swung clockwise or counterclockwise around tie point, second driver 32 is mounted in oscillating arm mechanisms 2, second driving Device 32 is swung with oscillating arm mechanisms 2；The grinding mechanism 4 include connecting plate 41, be mounted on connecting plate 41 emery wheel 42, with And the motor 43 that driving emery wheel 42 rotates, the connecting plate 41 are equipped with connecting pin a and connecting pin b, end a and oscillating arm mechanisms 2 rotate Connection, the connecting plate 41 are back and forth swung with oscillating arm mechanisms 2；Hold b and the rotation connection of the second driver 32, described the Two drivers 32 are drivingly connected plate 41 around end a rotation, it is preferred that and the emery wheel 42 is mounted below connecting plate 41 end b, and at this time the Emery wheel 42 can be moved when two drivers 32 are drivingly connected plate 41 around end a rotation with range；In the present embodiment, with grinding One rectangular glass is wherein for a wedge angle, when specifically used, in 42 lower section of emery wheel and at the uniform velocity by one piece of horizontal traverse of rectangular glass To right translation, the first driver 31 drives oscillating arm mechanisms 2 to swing first toward right, and emery wheel 42 is driven to be rocked to higher than table on glass The position in face, then the first driver 31 driving oscillating arm mechanisms 2 are turned left backswing, until the grinding surface 423 of emery wheel 42 is by table on glass Face, as shown in figure 3, diagram in 6 be glass, when the wedge angle of glass is moved to the grinding surface 423 of emery wheel 42, the second driver 32 are drivingly connected plate 41 around end a rotation, cooperate the linkage of oscillating arm mechanisms 2, emery wheel 42 is from upper right lower left with the inverse time at this time Needle carries out arc movement, and emery wheel 42 is ground wedge angle along thickness of glass direction toward lower from the upper prong of wedge angle, due to glass Always at the uniform velocity to right translation, the first driver 31 drives oscillating arm mechanisms 2 to drive the cross stream velocity component of emery wheel 42 and glass mobile Identical speed moves right, to be ground to the edge of glass wedge angle thickness direction, is finally ground to glass point When the lower prong at angle, the first driver 31 driving oscillating arm mechanisms 2 drive the cross stream velocity component of emery wheel 42 to be faster than the mobile speed of glass Degree is moved, the cooperation of the first driver 31 and the second driver 32 so that emery wheel 42 from along thickness of glass edge toward wedge angle Lower prong is ground glass wedge angle lower end with arc trend, thus the grinding of one wedge angle of complete pair glass；The present invention is logical The cooperation of oscillating arm mechanisms 2 and driving mechanism is crossed, cleverly acts and angle lap operation is carried out to glass wedge angle, grinding efficiency is high.

Specifically, the oscillating arm mechanisms 2 include first connecting rod 21, second connecting rod 22, the first connecting rod 21 and second connects The upper end of bar 22 is rotatably connected in rack 1, and first connecting rod 21 and second connecting rod 22 are swung around the upper end；Described second Driver 32 is connected on second connecting rod 22, and first driver 31 and the second driver 32 include that can carry out stretching motion Drive shaft, the end a of the connecting plate 41 are rotatably connected on the tail end of first connecting rod 21, and the end b of the connecting plate 41 and second drives The drive shaft turns connection of dynamic device 32；First driver 31 is rotatably connected in rack 1, the drive of first driver 31 Moving axis and first connecting rod 21 or second connecting rod 22 are rotatablely connected, and first driver 31 drives first connecting rod 21 and second to connect Bar 22 is swung simultaneously, when first connecting rod 21 is swung, is driven second connecting rod 22 to carry out by connecting plate 41 while being swung.

Preferably, first driver 31 and the second driver 32 are cylinder, and first driver 31 and second drives Dynamic device 32 can also be motor 43, hydraulic pump.

Preferably, it is provided with linear guiding mechanism on the second connecting rod 22, the linear guiding mechanism includes limited block 51 and it is interspersed in the guide rod 52 of limited block 51, the drive shaft of the lower end of the guide rod 52 and the first driver 31 passes through one Link block 53 connects, and guide rod 52 moves up and down along limited block 51 when the drive shaft carries out stretching motion, the driving Axis is rotatably connected on connecting plate 41 by link block 53, and since the precision that the grinding of glass wedge angle needs is higher, guiding mechanism has Conducive to the movement for the drive shaft for stablizing the second driver 32, grinding accuracy is improved, while using link block 53 cleverly by second The linear drives of driver 32 combine with the rotation connection of connecting plate 41, the steady point of structure, easy for installation.

Bearing is installed between the link block 53 and connecting plate 41, it is preferred that the bearing is deep groove ball bearing, is improved Smoothness when rotation, while improving the service life of structure.

Preferably, the grinding mechanism 4 further includes Mobile base 44 and third driver 45, and the Mobile base 44 is dynamic to be connected in On fishplate bar 41, the third driver 45 drives the Mobile base 44 to be moved, and passes through Mobile base 44 and third driver 45 Cooperation improve the grinding accuracy to glass, and easy to use so that the position of emery wheel 42 be adjusted.

Referring to Fig. 4, it is preferred that the grinding mechanism 4 further includes pinch roller 46 and pressure inductor, the pinch roller 46 and mill Wheel 42 is co-axially mounted, and the outer diameter of the pinch roller 46 is equal with the grinding surface 423 of emery wheel 42, when emery wheel 42 is leaned on toward glass surface When close, pinch roller 46 is contacted with glass, and the pressure inductor is connect with pinch roller 46, and pressure inductor is for monitoring pinch roller 46 The pressure contacted with glass surface, so that the relative position of emery wheel 42 Yu glass is controlled, to guarantee grinding quality.

Referring to Fig. 5, it is preferred that the emery wheel 42 includes cylindrical ontology 421, the unilateral end face of the ontology 421 or The diameter stepped part 422 smaller than 421 diameter of ontology is coaxially provided on both sides of the face, from the end face of ontology 421 toward stepped part 422 Surface blending forms the grinding surface 423 of R fillet, and the R value of R fillet is configured according to actual needs, passes through grinding surface 423 Ablation carries out grinding action to the corner of the fragile materials such as glass, ceramics, directly pours out corresponding R value to the corner of glass Fillet compares the chamfering of the tilt angles such as 45 degree traditionally, and fillet more can increase the intensity of glass angled, improves explosion-proof resistance.

A kind of glass angle lap method, comprising the following steps:

Step A: pattern, by the grinding surface 423 of emery wheel 42 close to the upper surface of glass wherein one jiao of wedge angle；Step B: mill It cuts, carries out arc toward the direction at thickness of glass edge from the upper surface of wedge angle and move towards grinding；Then along thickness of glass direction by glass Glass thickness edge is ground；Arc finally, which is carried out, toward wedge angle lower end surface direction from thickness of glass edge moves towards grinding；To one The secondary complete pair glass wedge angle of property carries out chamfering.

Preferably, the emery wheel 42 includes cylindrical ontology 421, the unilateral end face of the ontology 421 or both sides of the face On be coaxially provided with the diameter stepped part 422 smaller than 421 diameter of ontology, from the end face of ontology 421 toward the surface blending of stepped part 422 The grinding surface 423 of R fillet is formed, the grinding surface 423 of emery wheel 42 is ground the wedge angle of glass to form fillet when step B is ground, circle Angle can more improve the intensity of glass angled than chamfer bevel, improve the safety in utilization of glass.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned Embodiment is changed, modifies, replacement and variant.

Claims (10)

1. a kind of device for grinding angle of glass, it is characterised in that: including rack (1), oscillating arm mechanisms (2), driving mechanism and grinding mechanism (4), the oscillating arm mechanisms (2) are rotatably connected on rack (1), and the driving mechanism includes that the first driver (31) and second drive Dynamic device (32), first driver (31) drive the oscillating arm mechanisms (2) to make reciprocal or so put around with the tie point of rack (1) Dynamic, second driver (32) is mounted on oscillating arm mechanisms (2)；

The grinding mechanism (4) includes connecting plate (41), the emery wheel (42) being mounted on connecting plate (41) and driving emery wheel (42) motor (43) rotated, the connecting plate (41) are equipped with connecting pin a and connecting pin b, and end a and oscillating arm mechanisms (2) rotation connect It connects, the connecting plate (41) is back and forth swung with oscillating arm mechanisms (2)；B and the second driver (32) is held to be rotatablely connected, institute It states the second driver (32) and is drivingly connected plate (41) around end a rotation.

2. a kind of device for grinding angle of glass according to claim 1, it is characterised in that: the oscillating arm mechanisms (2) include first The upper end of connecting rod (21), second connecting rod (22), the first connecting rod (21) and second connecting rod (22) is rotatably connected on rack (1) On；

Second driver (32) is connected on second connecting rod (22), first driver (31) and the second driver (32) The end a of drive shaft including that can carry out stretching motion, the connecting plate (41) is rotatably connected on the tail end of first connecting rod (21), institute The end b for stating connecting plate (41) is connect with the drive shaft turns of the second driver (32)；

First driver (31) is rotatably connected on rack (1), and the drive shaft of first driver (31) connects with first Bar (21) or second connecting rod (22) rotation connection, the first driver (31) driving first connecting rod (21) and second connecting rod (22) It swings simultaneously.

3. a kind of device for grinding angle of glass according to claim 1, it is characterised in that: first driver (31) and second Driver (32) is cylinder.

4. a kind of device for grinding angle of glass according to claim 1, it is characterised in that: be provided on the second connecting rod (22) Linear guiding mechanism, the linear guiding mechanism include limited block (51) and the guide rod (52) for being interspersed in limited block (51), institute The lower end for stating guide rod (52) is connect with the drive shaft of the first driver (31) by a link block (53), and the drive shaft carries out Guide rod (52) moves up and down along limited block (51) when stretching motion, and the drive shaft is rotatablely connected by link block (53) On connecting plate (41).

5. a kind of device for grinding angle of glass according to claim 4, it is characterised in that: the link block (53) and connecting plate (41) bearing is installed between.

6. a kind of device for grinding angle of glass according to claim 1, it is characterised in that: the grinding mechanism (4) further includes moving Dynamic seat (44) and third driver (45), the Mobile base (44) is dynamic to be connected on connecting plate (41), the third driver (45) The Mobile base (44) is driven to be moved.

7. a kind of device for grinding angle of glass according to claim 1, it is characterised in that: the grinding mechanism (4) further includes pressure (46) and pressure inductor are taken turns, the pinch roller (46) is co-axially mounted with emery wheel (42), and the outer diameter and emery wheel of the pinch roller (46) (42) grinding surface (423) is equal, and the pressure inductor is connect with pinch roller (46).

8. a kind of device for grinding angle of glass according to claim 1~8, it is characterised in that: the emery wheel (42) includes Cylindrical ontology (421) is coaxially provided with diameter than ontology (421) on the unilateral end face of the ontology (421) or both sides of the face The small stepped part of diameter (422) forms the grinding surface of R fillet from the end face of ontology (421) toward the surface blending of stepped part (422) (423)。

9. a kind of glass angle lap method, which comprises the following steps:

Step A: pattern, by the grinding surface (423) of emery wheel (42) close to the upper surface of glass wherein one jiao of wedge angle；

Step B: grinding carries out arc toward the direction at thickness of glass edge from the upper surface of wedge angle and moves towards grinding；Then along glass Thickness of glass edge is ground by thickness direction；Finally arc trend is carried out from thickness of glass edge toward wedge angle lower end surface direction Grinding.

10. a kind of glass angle lap method according to claim 9, it is characterised in that: the emery wheel (42) includes cylinder Ontology (421), it is smaller than ontology (421) diameter to be coaxially provided with diameter on the unilateral end face of the ontology (421) or both sides of the face Stepped part (422), from the end face of ontology (421) toward the surface blending of stepped part (422) formed R fillet grinding surface (423), The grinding surface (423) of emery wheel (42) is ground to form fillet to the wedge angle of glass when step B is ground.