CN209007251U - A kind of double end Full-automatic special-shaped edge polisher - Google Patents

Abstract

The utility model provides a kind of double end Full-automatic special-shaped edge polisher, including rack, mobile mechanism and workpiece polishing mechanism are installed in the rack, the workpiece polishing mechanism is mounted in the mobile mechanism, the rack is equipped with polishing platform, the workpiece polishing mechanism includes the first edging component and the second edging component, and glass is manually placed on the polishing platform, and the mobile mechanism drives the first edging component and the second edging component to polish the glass.The utility model is realized in the glass for different size of polishing by the way that the first edging component and the second edging component is arranged, does not need to shut down because replacing bistrique; and the different parts for the glass that can polish simultaneously; it uses manpower and material resources sparingly, improves production efficiency, reduce production cost.

Description

A kind of double end Full-automatic special-shaped edge polisher

Technical field

The utility model relates to glass processing device technical field more particularly to a kind of double end Full-automatic special-shaped edge polishers.

Background technique

Glass is hard and crisp because of matter, and machining is more difficult, to glass such as furniture glass, industrial glass, building doors and windows curtain walls It often needs to carry out glass-cutting in the process of glass, because of the rigidity of glass, four sides of glass and the top of the horn razor-edge benefit after cutting, no Beauty is only influenced, and directly affects the safety of construction personnel in installation process, to meet the techniques such as safety, break-resistance, beauty It is required that almost all of glass requires to carry out edging processing to glass using glass edge-grinding machine before becoming product.

Currently, existing profile glass edge grinding machine is varied, but the workpiece polishing mechanism of most of glass edge-grinding machines only has One grinding head, polishing side shape is single, and polishing flexibility is poor, if necessary to the glass for different size of polishing, then needs to shut down more Different bistriques is changed, replacement bistrique needs manual operation, and large labor intensity consumes manpower, extends the polishing time, reduces Grinding efficiency.Therefore, it is really necessary to design a kind of double end Full-automatic special-shaped edge polisher, defect in the prior art is solved.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of double end Full-automatic special-shaped edge polisher, and double end is complete Automatic irregular edge grinder by the first edging component of setting and the second edging component may be implemented to polish different size glass when not Bistrique is replaced with shutting down, manpower is saved, improves efficiency, reduces production cost.

The utility model provides following technical scheme, a kind of double end Full-automatic special-shaped edge polisher, including rack, the rack On mobile mechanism and workpiece polishing mechanism are installed；The workpiece polishing mechanism is mounted in the mobile mechanism；The rack is equipped with polishing Platform, the workpiece polishing mechanism include the first edging component and the second edging component；Glass is manually placed on the polishing platform, The mobile mechanism drives the first edging component and the second edging component to polish the glass.

Preferably, the mobile mechanism includes X to component, Y-direction component and Z-direction component；The Y-direction component includes the first Y To component and the second Y-direction component, the X is separately mounted to the first Y-direction component and the second Y-direction group to component both ends On part, the Z-direction component is mounted on the X on component；The Z-direction component include the first Z-direction component, the second Z-direction component and Connecting plate, the connecting plate are mounted on the X on component, and the first Z-direction component and the second Z-direction component are all installed On the connecting plate.

Further, the X to component include X to motor mount, X to motor, X to shaft coupling, X to screw rod, X to Bearing block, X direction guiding rail, X are to support frame and X to bottom plate；The X is mounted on the X on bottom plate to support frame, and the X is to electricity Machine mounting base is mounted on the X on support frame, and the X is mounted on the X to motor mount to motor, and the X is to screw rod One end connect with the X to motor to shaft coupling by the X, the X is to the other end and the X of screw rod to bearing block company Connect, the X is fixedly connected to the feed screw nut of screw rod with the connecting plate, the sliding rail of the X direction guiding rail be mounted on the X to On support frame, the sliding block of the X direction guiding rail is fixedly connected with the connecting plate.

Preferably, the first Y-direction component includes the first Y-direction link block, the first Y-direction motor, the first Y-direction motor mount, the One Y-direction shaft coupling, the first Y-direction screw rod, the first Y-direction bearing block and the first Y-direction guide rail；The first Y-direction link block and the X to Bottom plate connection, the first Y-direction motor mount are mounted on the rack, and the first Y-direction motor is mounted on the first Y To motor mount, one end of the first Y-direction screw rod is connect by the first Y-direction shaft coupling with the first Y-direction motor, The other end of the first Y-direction screw rod is connect with the first Y-direction bearing block, the feed screw nut of the first Y-direction screw rod and institute It states the first Y-direction link block to be fixedly connected, the sliding rail of first Y-direction guide rail is mounted on the rack, first Y-direction guide rail Sliding block be fixedly connected with the first Y-direction link block.

Further, the second Y-direction component include the second Y-direction link block, the second Y-direction motor, the second Y-direction motor mount, Second Y-direction shaft coupling, the second Y-direction screw rod, the second Y-direction bearing block and the second Y-direction guide rail；The second Y-direction link block and the X It is connected to bottom plate, the second Y-direction mounting base is mounted on the rack, and the second Y-direction motor is mounted on second Y-direction One end of motor mount, the second Y-direction screw rod is connect by the second Y-direction shaft coupling with the second Y-direction motor, institute The other end for stating the second Y-direction screw rod is connect with the second Y-direction bearing block, the feed screw nut of the second Y-direction screw rod with it is described Second Y-direction link block is fixedly connected, and the sliding rail of second Y-direction guide rail is mounted on the rack, second Y-direction guide rail Sliding block is fixedly connected with the second Y-direction link block.

Preferably, the first Z-direction component includes the first Z-direction motor, the first Z-direction motor mount, the first Z to shaft coupling, the One Z-direction screw rod, the first Z-direction bearing block and the first Z-direction guide rail；The first Z-direction motor mount is mounted on the connecting plate, The first Z-direction motor is mounted on the first Z-direction motor mount, and one end of the first Z-direction screw rod passes through the first Z It is connect to shaft coupling with the output end of the first Z-direction motor, the other end of the first Z-direction screw rod and the first Z-direction axis Seat connection is held, the sliding rail of the first Z-direction guide rail is fixedly connected with the connecting plate, the sliding block and one of the first Z-direction guide rail The connection of first motor mounting base.

Further, the second Z-direction component include the second Z-direction motor, the second Z-direction motor mount, the second Z-direction shaft coupling, Second Z-direction screw rod, the second Z-direction bearing block and the second Z-direction guide rail；The second Z-direction motor mount is mounted on the connecting plate On, the second Z-direction motor is mounted on the second Z-direction motor mount, and one end of the second Z-direction screw rod passes through described the Two Z-direction shaft couplings are connect with the output end of the second Z-direction motor, the other end of the second Z-direction screw rod and second Z-direction Bearing block connection, the sliding rail of the second Z-direction guide rail is fixedly connected with the connecting plate, the sliding block of the second Z-direction guide rail and The first motor mounting base connection.

Preferably, the first edging component includes the first motor mounting base, the first edging motor, the first sharpening Handle, the first bistrique, multiple first water spouts and the first sparge pipe；The first motor mounting base and the first Z-direction guide rail Sliding block is fixedly connected, and first edging motor is mounted on the first motor mounting base, and the first sharpening handle is mounted on institute The output end of the first edging motor is stated, first bistrique is mounted on the first sharpening handle, and first sparge pipe is fixed It is mounted on the connecting plate, multiple first water spouts are mounted on first sparge pipe.

Preferably, the second edging component includes the second motor mount, the second edging motor, the second sharpening handle, the Two bistriques, multiple second water spouts and the second sparge pipe；The sliding block of second motor mount and the second Z-direction guide rail is solid Fixed connection, second edging motor are mounted on second motor mount, and the second sharpening handle is mounted on described second The output end of edging motor, second bistrique are mounted on the second sharpening handle, and second sparge pipe is fixedly mounted on On the connecting plate, multiple second water spouts are mounted on second sparge pipe.

Further, the double end Full-automatic special-shaped edge polisher further includes water spraying mechanism, the water spraying mechanism and described the One sparge pipe is connected with second sparge pipe.

The utility model has the following beneficial effects:

1, the utility model is by being arranged first edging on the first Z-direction component and the second Z-direction component Component and the second edging component, the first edging component and the second edging component can install the mill of different model respectively Head makes not needing to shut down because replacing bistrique in the glass for different size of polishing, and can carry out simultaneously to one block of glass The polishing of different parts, saves manpower, improves production efficiency, reduces production cost.

Detailed description of the invention

Fig. 1 is the overall viewing angle figure outside double end irregular edge grinder described in the utility model；

Fig. 2 is the overall structure figure inside double end irregular edge grinder described in the utility model；

Fig. 3 is the structure chart of the first edging component described in the utility model；

Fig. 4 is the structure chart of the second edging component described in the utility model；

Fig. 5 is structure chart of the X described in the utility model to component；

Fig. 6 is the structure chart of the first Y-direction component described in the utility model；

Fig. 7 is the structure chart of the second Y-direction component described in the utility model；

Fig. 8 is the overall structure figure of Z-direction component described in the utility model；

Fig. 9 is the structure chart of the first Z-direction component described in the utility model；

Figure 10 is the structure chart of the second Z-direction component described in the utility model；

Figure 11 is the structure chart of water spraying mechanism described in the utility model.

Description of symbols:

Rack 1, platform 11 of polishing, sucker 12.

Mobile mechanism 3.

Workpiece polishing mechanism 4,

First edging component 41, first motor mounting base 411, the first edging motor 412, the first sharpening handle 413, the first mill First 414, the first water spout 415, the first sparge pipe 416, the second edging component 42, the second motor mount 421, the second edging electricity Machine 422, the second sharpening handle 423, the second bistrique 424, multiple second water spouts 425, the second sparge pipe 426.

X is to component 5, and X is to motor mount 51, and X is to motor 52, and X is to shaft coupling 53, and X is to screw rod 54, and X is to bearing block 55, X direction guiding rails 56, X is to support frame 57, and X is to bottom plate 58.

Y-direction component 6, the first Y-direction component 61, the first Y-direction link block 611, the first Y-direction motor 612, the first Y-direction motor peace Fill seat 613, the first Y-direction shaft coupling 614, the first Y-direction screw rod 615, the first Y-direction bearing block 616, the first Y-direction guide rail 617, the 2nd Y To component 62, the second Y-direction link block 621, the second Y-direction motor 622, the second Y-direction motor mount 623, the second Y-direction shaft coupling 624, the second Y-direction screw rod 625, the second Y-direction bearing block 626, the second Y-direction guide rail 627.

Z-direction component 7, the first Z-direction component 71, the first Z-direction motor 711, the first Z-direction motor mount 712, the first Z-direction connection Axis device 713, the first Z-direction screw rod 714, the first Z-direction bearing block 715, the first Z-direction guide rail 716, the second Z-direction component 72, the second Z-direction Motor 721, the second Z-direction motor mount 722, the second Z-direction shaft coupling 723, the second Z-direction screw rod 724, the second Z-direction bearing block 725, the second Z-direction guide rail 726, connecting plate 73.

Water spraying mechanism 8, water pipe 81.

Specific embodiment

In order to make the purpose of utility model of the utility model, technical solution and technical effect are more clearly understood, tie below Specific embodiment is closed to be described further the utility model.It should be understood that specific embodiment described herein, be only used for It explains the utility model, is not used to limit the utility model.

Referring to figs. 1 to Figure 11, a kind of double end Full-automatic special-shaped edge polisher, including rack 1 is equipped with shifting in the rack 1 Motivation structure 3 and workpiece polishing mechanism 4；The workpiece polishing mechanism 4 is mounted in the mobile mechanism 3；The rack 1 is equipped with polishing platform 11, the workpiece polishing mechanism 4 includes the first edging component 41 and the second edging component 42；Glass is manually placed on described be polished flat Platform 11, multiple suckers 12 are additionally provided on the polishing platform 11, and the sucker 12 is used to the glass for needing to polish being adsorbed on institute It states on sucker 12, the mobile mechanism 3 drives the first edging component 41 and the second edging component 42 to the glass It polishes.The utility model, can be described by the way that the first edging component 41 and the second edging component 42 is arranged The bistrique that different model is installed on first edging component 41 and the second edging component 42 may be implemented in polishing different size Glass when, do not have to shut down replacement bistrique, can also realize the different parts to one block of glass while polish, reduce people Power has saved production cost, improves production efficiency.

Referring to Fig. 2, the mobile mechanism 3 includes X to component 5, Y-direction component 6 and Z-direction component 7；The Y-direction component 6 includes First Y-direction component 61 and the second Y-direction component 62, the X are separately mounted to the first Y-direction component 61 and institute to 5 both ends of component It states on the second Y-direction component 62, the Z-direction component 7 is mounted on the X on component 5；The Z-direction component 7 includes the first Z-direction group Part 71, the second Z-direction component 72 and connecting plate 73, the connecting plate 73 are mounted on the X on component 5, the first Z-direction group Part 71 and the second Z-direction component 72 are all mounted on the connecting plate 73.The utility model is by being arranged the X to component 5, the Y-direction component 6 and the Z-direction component 7 cooperate operating to drive the first edging component 41 and second mill Side member 42 polishes to glass, the mutual cooperation by the X to component 5, the Y-direction component 6 and the Z-direction component 7 Movement may be implemented to drive the workpiece polishing mechanism 4 can to the left and right, the movement of front and back and up and down direction, thus to needing to polish Glass polish, until being polished into the shapes of needs.

Referring to Fig. 5, the X to component 5 include X to motor mount 51, X to motor 52, X to shaft coupling 53, X to screw rod 54, X is to bearing block 55, X direction guiding rail 56, X to support frame 57 and X to bottom plate 58；The X to support frame 57 be mounted on the X to On bottom plate 58, the X is mounted on the X on support frame 57 to 52 mounting base of motor, and the X is mounted on the X to motor 52 To motor mount 51, the X is connect with the X to motor 52 by the X to shaft coupling 53 to one end of screw rod 54, institute It states X to connect with the X to bearing block 55 to the other end of screw rod 54, feed screw nut and the connecting plate of the X to screw rod 54 73 are fixedly connected, and the sliding rail of the X direction guiding rail 56 is mounted on the X on support frame 57, the sliding block of the X direction guiding rail 56 and institute Connecting plate 73 is stated to be fixedly connected.The utility model drives to component 5 provided with the X and is mounted on the X on component 5 The movement to the left or to the right of the Z-direction component 7, polish glass when, the X is rotated to motor 53, and the X passes through described to motor 53 X drives bulk motion of the X to the feed screw nut of screw rod 54 along the X to screw rod 54 to shaft coupling 53, meanwhile, the X The Z-direction component 7 is driven to the left to the feed screw nut of screw rod 54 or is moved right, and the different parts of glass are beaten to realize Mill.

Referring to Fig. 6, the first Y-direction component 61 includes the first Y-direction link block 611, the first Y-direction motor 612, the first Y-direction motor Mounting base 613, the first Y-direction shaft coupling 614, the first Y-direction screw rod 615, the first Y-direction bearing block 616 and the first Y-direction guide rail 617；Institute It states the first Y-direction link block 611 and is connect with the X to bottom plate 58, the first Y-direction motor mount 613 is mounted on the rack On 1, the first Y-direction motor 612 is mounted on the first Y-direction motor mount 613, and the one of the first Y-direction screw rod 615 End connect by the first Y-direction shaft coupling 614 with the first Y-direction motor 612, the first Y-direction screw rod 615 it is another End is connect with the first Y-direction bearing block 616, the feed screw nut of the first Y-direction screw rod 615 and the first Y-direction link block 611 are fixedly connected, and the sliding rail of first Y-direction guide rail 617 is mounted in the rack 1, the cunning of first Y-direction guide rail 617 Block is fixedly connected with the first Y-direction link block 611.The utility model is by being arranged the first Y-direction component 61 and described the Two Y-direction components 62 while the movement that cooperates, so that the X is driven to move forwards or backwards to component 5, the first Y-direction electricity Machine 612 drives the first Y-direction screw rod 615, the silk of the first Y-direction screw rod 615 by the first Y-direction shaft coupling 614 Stem nut drives the first Y-direction link block 611 along the bulk motion of the first Y-direction screw rod 615, and first Y-direction connects It connects block 611 and the second Y-direction link block 621 while moving, so that the X be driven to move forwards or backwards to component 5.

Referring to Fig. 7, the second Y-direction component 62 includes the second Y-direction link block 621, the second Y-direction motor 622, the second Y-direction motor Mounting base 623, the second Y-direction shaft coupling 624, the second Y-direction screw rod 625, the second Y-direction bearing block 626 and the second Y-direction guide rail 627；Institute It states the second Y-direction link block 621 and is connect with the X to bottom plate 58, the second Y-direction mounting base 623 is mounted in the rack 1, The second Y-direction motor 622 is mounted on the second Y-direction motor mount 623, and one end of the second Y-direction screw rod 625 is logical It crosses the second Y-direction shaft coupling 624 to connect with the second Y-direction motor 622, the other end of the second Y-direction screw rod 625 and institute The connection of the second Y-direction bearing block 626 is stated, the feed screw nut of the second Y-direction screw rod 625 and the second Y-direction link block 621 are fixed Connection, the sliding rail of second Y-direction guide rail 627 is mounted in the rack 1, the sliding block of second Y-direction guide rail 627 with it is described Second Y-direction link block 621 is fixedly connected.The second Y-direction component 62 and 61 phase of the first Y-direction component is arranged in the utility model Mutual cooperative movement, so that the Z-direction component 7 be driven to move forward or backward, polish glass when, the second Y-direction motor 622 drive the second Y-direction screw rod 625, the screw rod spiral shell of the second Y-direction screw rod 625 by the second Y-direction shaft coupling 624 Master tape moves the second Y-direction link block 621 along the bulk motion of the second Y-direction screw rod 625, the second Y-direction link block 621 and the first Y-direction link block 611 move simultaneously, so that the X be driven to move forwards or backwards to component 5.

Referring to Fig. 9, the first Z-direction component 71 includes the first Z-direction motor 711, the first Z-direction motor mount 712, the first Z-direction Shaft coupling 713, the first Z-direction screw rod 714, the first Z-direction bearing block 715 and the first Z direction guiding rail 716；The first Z-direction motor peace Dress seat 712 is mounted on the connecting plate 73, and the first Z-direction motor 711 is mounted on the first Z-direction motor mount 712, one end of the first Z-direction screw rod 714 is defeated by the first Z-direction shaft coupling 713 and the first Z-direction motor 711 Outlet connection, the other end of the first Z-direction screw rod 714 are connect with the first Z-direction bearing block 715, the first Z-direction guide rail 716 sliding rail is fixedly connected with the connecting plate 73, the sliding block and a first motor mounting base 712 of the first Z-direction guide rail 716 Connection.The utility model drives the first edging component 41 to polish glass provided with the first Z-direction component 71, When polishing glass, the first Z-direction motor 711 is rotated, and the first Z-direction motor 711 passes through the first Z-direction shaft coupling 713 The first Z-direction screw rod 714 is driven, the feed screw nut of the first Z-direction screw rod 714 is made to drive 41 edge of the first edging component The first Z be moved upwardly or downwardly to 714 main body of screw rod, thus realize polish glass different parts.

Referring to Fig.1 0, the second Z-direction component 72 includes the second Z-direction motor 721, the second Z-direction motor mount 722, the 2nd Z To shaft coupling 723, the second Z-direction screw rod 724, the second Z-direction bearing block 725 and the 2nd Z direction guiding rail 726；The second Z-direction motor Mounting base 722 is mounted on the connecting plate 73, and the second Z-direction motor 721 is mounted on the second Z-direction motor mount 722, one end of the second Z-direction screw rod 724 is defeated by the second Z-direction shaft coupling 723 and the second Z-direction motor 721 Outlet connection, the other end of the second Z-direction screw rod 724 are connect with the second Z-direction bearing block 725, the second Z-direction guide rail 726 sliding rail is fixedly connected with the connecting plate 73, the sliding block of the second Z-direction guide rail 726 and the first motor mounting base 411 connections.The utility model is provided with described second Z-direction group 72 and is used to drive the polishing of the second edging component 42 glass, When polishing glass, the second Z-direction motor 421 is rotated, and the second Z-direction motor 721 passes through the second Z-direction shaft coupling 723 The second Z-direction screw rod 724 is driven, the feed screw nut of the second Z-direction screw rod 724 is made to drive 42 edge of the second edging component 724 main body of the second Z-direction screw rod be moved upwardly or downwardly.

Referring to Fig. 3, the first edging component 41 include the first motor mounting base 411, the first edging motor 412, First sharpening handle 413, the first bistrique 414, multiple first water spouts 415 and the first sparge pipe 416；The first motor installation Seat 411 is fixedly connected with the sliding block of the first Z-direction guide rail 716, and first edging motor 412 is mounted on the first motor Mounting base 411, the first sharpening handle 413 are mounted on the output end of first edging motor 412, the first bistrique installation On the first sharpening handle 413, first sparge pipe 416 is fixedly mounted on the connecting plate 73, and multiple described first Water spout 415 is mounted on first sparge pipe 416.The utility model is by being arranged the first edging component 41 come to glass Glass is polished, polish glass when, first edging motor 412 rotates, the output end band of first edging motor 412 The first sharpening handle 413 is moved to rotate, first bistrique 414 is rotated with the rotation of the first sharpening handle 413, thus It polishes the glass being placed on the polishing platform 11, first sparge pipe 416 is connect with the water spraying mechanism 8, First water spout 415 is used to spray water when first bistrique 414 polishes glass to the glass and first bistrique On 414, for cooling down and rinsing the glass chip of polishing glass generation.

Referring to Fig. 4, the second edging component 42 includes the second motor mount 421, the second edging motor 422, second Sharpening handle 423, the second bistrique 424, multiple second water spouts 425 and the second sparge pipe 426；Second motor mount 421 It is fixedly connected with the sliding block of the second Z-direction guide rail 726, second edging motor 422 is mounted on the second motor installation Seat 421, the second sharpening handle 423 are mounted on the output end of second edging motor 422, and second bistrique 424 is installed On the second sharpening handle 423, second sparge pipe 426 is fixedly mounted on the connecting plate 73, and multiple described second Water spout 425 is mounted on second sparge pipe 426.The utility model is by being arranged the second edging component 42 come to glass Glass is polished, polish glass when, second edging motor 422 rotates, the output end band of second edging motor 422 The second sharpening handle 423 is moved to rotate, second bistrique 422 is rotated with the rotation of the second sharpening handle 423, thus It polishes the glass being placed on the polishing platform 11, second sparge pipe 426 is connect with the water spraying mechanism 8, Second water spout 425 is used to spray water when second bistrique 424 polishes glass to the glass and second bistrique On 424, for cooling down and rinsing the glass chip of polishing glass generation.

First bistrique 414 and second bistrique 424 of the utility model setting are the bistrique of different model, described First bistrique 414 and second bistrique 424 can polish the glass of different size, first bistrique 414 and described second Bistrique 424 can also polish the different parts of one block of glass, first bistrique 414 and second bistrique 424 described It can work at the same time, can also individually work under the driving of one edging motor 415 and second edging motor 422, this The design of sample, improves work efficiency, and reduces production cost.

Further, the double end Full-automatic special-shaped edge polisher further includes water spraying mechanism 8, and the water spraying mechanism 8 passes through one Water pipe 81 is connect with first sparge pipe 416 with second sparge pipe 426.The water spraying mechanism 8 is arranged in the utility model For when polishing glass, spraying water to 414 He of the first bistrique of the first edging component 41 and the second edging component 42 Second bistrique 424, thus reach reduction because between first bistrique 414 and second bistrique 424 and glass because beating During mill, contact with each other the high temperature for generating friction and generating, and is also used to rinse the glass chip generated when polishing glass.

The working principle of the utility model are as follows: the utility model is by the mobile mechanism 3 to being manually placed at described beat The glass polished on platform 11 is polished, and the glass product of different shapes of needs is processed into.In the different size glass that needs to polish When glass, firstly, manually installing first mill respectively on the first sharpening handle 413 and the second sharpening handle 423 First 414 and second bistrique 424, first bistrique 414 and second bistrique 424 can polish two kinds of differences respectively First glass is then manually placed on the polishing platform by the glass of scale, respectively the first glass and the second glass On 11, and first glass is fixed by the sucker 12, at this point, the first Y-direction component 61 and the second Y-direction group Part 62 drives the X to move forwards or backwards to component 5, and the X drives the Z-direction component 7 fortune to the left or to the right to component 5 Dynamic, at this point, first edging motor 412 rotates, second edging motor 422 is not rotated, first edging motor 412 driving the first sharpening handles 413 rotate, and first bistrique 414 turns with the rotation of the first sharpening handle 413 It is dynamic, to polish first glass, after the completion of first glass polishing, the Z-direction component 7 the X to Far from first glass under the drive of component 5 and the Y-direction component 6, in the Z-direction component 7 far from first glass In the process, first edging motor 412 tapers off rotation, manually removes first glass, and place described second Glass.Then, the Z-direction component 7 gradually moves to described second in the X under the drive of component 5 and the Y-direction component 6 Above glass, second edging motor 422 drives the second sharpening handle 423 to rotate, and second bistrique 424 is with described The rotation of second sharpening handle 423 and rotate, to polish second glass, such design is realized and is being polished When the glass of different size, does not need to shut down because different bistriques are replaced, saved human resources, be produced into reduce This, improves production efficiency.In the different parts for the one block of glass that needs to polish, first edging motor 412 and described Two edging motors 422 drive the first sharpening handle 413 and the second sharpening handle 423 to rotate simultaneously, to drive described the One bistrique 414 and second bistrique 424 rotate simultaneously polishes to the different parts of glass.

In conclusion the utility model, which passes through, is arranged the first edging component 41 and the second edging component 42, The sharpening of different model can be installed respectively to meet to glass on the first edging component 41 and the second edging component 42 The different polishing demands of glass, while the first edging component 41 and the second edging component 42 can be worked at the same time to glass Different parts polish, saved manpower, improved production efficiency, reduced production cost.

It, cannot the above content is specific preferred embodiment further detailed description of the utility model is combined Assert that the specific implementation of the utility model is only limited to these instructions.For the ordinary skill of the utility model technical field For personnel, without departing from the concept of the premise utility, architectural form cans be flexible and changeable, and can be produced with subseries Product.Several simple deduction or replace are only made, it is true by the claims submitted all to shall be regarded as belonging to the utility model Fixed scope of patent protection.

Claims (10)

1. a kind of double end Full-automatic special-shaped edge polisher, including rack, it is characterised in that: be equipped in the rack mobile mechanism and Workpiece polishing mechanism；The workpiece polishing mechanism is mounted in the mobile mechanism；The rack is equipped with polishing platform, the workpiece polishing mechanism packet Include the first edging component and the second edging component；Glass is manually placed on the polishing platform, the mobile mechanism drives institute It states the first edging component and the second edging component polishes to the glass.

2. double end Full-automatic special-shaped edge polisher as described in claim 1, it is characterised in that: the mobile mechanism includes X to group Part, Y-direction component and Z-direction component；The Y-direction component includes the first Y-direction component and the second Y-direction component, and the X divides to component both ends It is not mounted on the first Y-direction component and the second Y-direction component, the Z-direction component is mounted on the X on component；Institute Stating Z-direction component includes the first Z-direction component, the second Z-direction component and connecting plate, and the connecting plate is mounted on the X on component, institute It states the first Z-direction component and the second Z-direction component is all mounted on the connecting plate.

3. double end Full-automatic special-shaped edge polisher as claimed in claim 2, it is characterised in that: the X to component include X to motor Mounting base, X are to motor, X to shaft coupling, X to screw rod, X to bearing block, X direction guiding rail, X to support frame and X to bottom plate；The X to Support frame is mounted on the X on bottom plate, and the X is mounted on the X on support frame to motor mount, and the X is to motor The X is mounted on to motor mount, the X is connect with the X to motor by the X to shaft coupling to one end of screw rod, The X is connect with the X to bearing block to the other end of screw rod, and the X is fixed to the feed screw nut of screw rod with the connecting plate Connection, the sliding rail of the X direction guiding rail are mounted on the X on support frame, and sliding block and the connecting plate of the X direction guiding rail are fixed Connection.

4. double end Full-automatic special-shaped edge polisher as claimed in claim 3, it is characterised in that: the first Y-direction component includes the first Y-direction Link block, the first Y-direction motor, the first Y-direction motor mount, the first Y-direction shaft coupling, the first Y-direction screw rod, the first Y-direction bearing block With the first Y-direction guide rail；The first Y-direction link block is connect with the X to bottom plate, and the first Y-direction motor mount is mounted on In the rack, the first Y-direction motor is mounted on the first Y-direction motor mount, and one end of the first Y-direction screw rod is logical It crosses the first Y-direction shaft coupling to connect with the first Y-direction motor, the other end of the first Y-direction screw rod and first Y-direction Bearing block connection, the feed screw nut of the first Y-direction screw rod are fixedly connected with the first Y-direction link block, and first Y-direction is led The sliding rail of rail is mounted on the rack, and the sliding block of first Y-direction guide rail is fixedly connected with the first Y-direction link block.

5. double end Full-automatic special-shaped edge polisher as claimed in claim 4, it is characterised in that: the second Y-direction component includes the second Y-direction Link block, the second Y-direction motor, the second Y-direction motor mount, the second Y-direction shaft coupling, the second Y-direction screw rod, the second Y-direction bearing block With the second Y-direction guide rail；The second Y-direction link block is connect with the X to bottom plate, and the second Y-direction mounting base is mounted on described In rack, the second Y-direction motor is mounted on the second Y-direction motor mount, and one end of the second Y-direction screw rod passes through institute It states the second Y-direction shaft coupling to connect with the second Y-direction motor, the other end of the second Y-direction screw rod and the second Y-direction bearing Seat connection, the feed screw nut of the second Y-direction screw rod are fixedly connected with the second Y-direction link block, second Y-direction guide rail Sliding rail is mounted on the rack, and the sliding block of second Y-direction guide rail is fixedly connected with the second Y-direction link block.

6. double end Full-automatic special-shaped edge polisher as claimed in claim 2, it is characterised in that: the first Z-direction component includes the first Z-direction Motor, the first Z-direction motor mount, the first Z-direction shaft coupling, the first Z-direction screw rod, the first Z-direction bearing block and the first Z-direction guide rail； The first Z-direction motor mount is mounted on the connecting plate, and the first Z-direction motor is mounted on the first Z-direction motor One end of mounting base, the first Z-direction screw rod is connected by the output end of the first Z-direction shaft coupling and the first Z-direction motor Connect, the other end of the first Z-direction screw rod is connect with the first Z-direction bearing block, the sliding rail of the first Z-direction guide rail with it is described Connecting plate is fixedly connected, and the sliding block of the first Z-direction guide rail is connect with a first motor mounting base.

7. double end Full-automatic special-shaped edge polisher as claimed in claim 6, it is characterised in that: the second Z-direction component includes the second Z-direction Motor, the second Z-direction motor mount, the second Z-direction shaft coupling, the second Z-direction screw rod, the second Z-direction bearing block and the second Z-direction guide rail； The second Z-direction motor mount is mounted on the connecting plate, and the second Z-direction motor is mounted on the second Z-direction motor One end of mounting base, the second Z-direction screw rod is connected by the output end of the second Z-direction shaft coupling and the second Z-direction motor Connect, the other end of the second Z-direction screw rod is connect with the second Z-direction bearing block, the sliding rail of the second Z-direction guide rail with it is described Connecting plate is fixedly connected, and the sliding block of the second Z-direction guide rail is connect with the first motor mounting base.

8. double end Full-automatic special-shaped edge polisher as claimed in claim 6, it is characterised in that: the first edging component includes institute State first motor mounting base, the first edging motor, the first sharpening handle, the first bistrique, multiple first water spouts and the first sparge pipe； The first motor mounting base is fixedly connected with the sliding block of the first Z-direction guide rail, and first edging motor is mounted on described First motor mounting base, the first sharpening handle are mounted on the output end of first edging motor, the first bistrique installation On the first sharpening handle, first sparge pipe is fixedly mounted on the connecting plate, multiple first water spout peaces On first sparge pipe.

9. double end Full-automatic special-shaped edge polisher as claimed in claim 8, it is characterised in that: the second edging component includes the Two motor mounts, the second edging motor, the second sharpening handle, the second bistrique, multiple second water spouts and the second sparge pipe；It is described Second motor mount is fixedly connected with the sliding block of the second Z-direction guide rail, and second edging motor is mounted on described second Motor mount, the second sharpening handle are mounted on the output end of second edging motor, and second bistrique is mounted on institute It states on the second sharpening handle, second sparge pipe is fixedly mounted on the connecting plate, and multiple second water spouts are mounted on On second sparge pipe.

10. double end Full-automatic special-shaped edge polisher as claimed in claim 9, it is characterised in that: the double end Full-automatic special-shaped mill Side machine further includes water spraying mechanism, and the water spraying mechanism is connect with first sparge pipe and second sparge pipe.