CN204700697U - A kind of ultra-thin glass edging device - Google Patents

Abstract

The utility model discloses a kind of ultra-thin glass edging device, comprise base plate, comprise column, power transmission shaft, emery wheel, motor, base, translation plates, servomotor, screw mandrel, electric rotating machine, hollow rotary shaft, workbench, compared with prior art, this ultra-thin glass edging device structure is simple, powerful, achieves the edging processing that clamped one time just can complete whole glass, thus reduce the workload of clamping, improve working (machining) efficiency.

Description

A kind of ultra-thin glass edging device

Technical field

The utility model relates to a kind of edging device, particularly relates to a kind of ultra-thin glass edging device.

Background technology

Ultra-thin glass is used in electronic product industry, along with the development of science and technology, electronic product is popularized, demand for ultra-thin glass is also increasing, and quality requirements is more and more higher, glass is for needing the glass cutting into certain specification size during product, so need glass-cutting, because the hardness of glass is high, and it is crisp, glass is easily caused to collapse limit, in order to ensure the crudy of glass, usually need during glass-cutting to leave allowance, again by edge polisher to glass fine finishining, and need during traditional edge polisher processed glass first to process on one side, until while need after processing by manually change another side reprocessing, and such processing mode workload is large, efficiency is low, in view of above defect, be necessary to design a kind of ultra-thin glass edging device in fact.

Summary of the invention

Technical problem to be solved in the utility model is: provide a kind of ultra-thin glass edging device, solves traditional low problem of the large efficiency of glass edge-grinding machine workload.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of ultra-thin glass edging device, comprise base plate, comprise column, power transmission shaft, emery wheel, motor, base, translation plates, servomotor, screw mandrel, electric rotating machine, hollow rotary shaft, workbench, described column is positioned at base plate top center left, described column and base plate are weldingly connected, described power transmission shaft runs through column, and described power transmission shaft is positioned on the upside of column, described power transmission shaft and column are rotatedly connected, described emery wheel is positioned at power transmission shaft right-hand member center, described emery wheel is connected with power transmission shaft screw thread, described motor is positioned at base plate top left center, described motor is connected with base thread, described base is positioned at right-hand member center, base plate top, described base is connected with base thread, described translation plates is positioned at chassis interior center, described translation plates was connected with base sliding joining, described servomotor is positioned at base right-hand member center, described servomotor is connected with whorl of base, described screw mandrel is positioned at servomotor left end center, and described screw mandrel runs through translation plates, described screw mandrel is connected with servomotor screw thread, and described screw mandrel is connected with base rotation, described electric rotating machine is positioned at translation plates top center place, described electric rotating machine is connected with translation plates screw thread, described hollow rotary shaft is positioned at electric rotating machine top center place, described hollow rotary shaft is connected with electric rotating machine screw thread, described workbench is positioned at hollow rotary shaft top, described workbench is connected with hollow rotary shaft screw thread.

Further, be also provided with air compressor machine on the right side of described translation plates top center, described air compressor machine is connected with translation plates screw thread.

Further, described electric rotating machine top center place is also provided with transfer tube, and described transfer tube is connected with electric rotating machine screw thread, and described transfer tube is connected with air compressor machine tracheae.

Further, described transfer tube top inside center goes out and is also provided with bearing, and described bearing is connected with transfer tube close-fitting, and described bearing is connected with hollow rotary shaft close-fitting.

Further, described hollow rotary shaft right-hand member center is also provided with the first passage, described passage manhole.

Further, described workbench inside center place is also provided with main tracheae, described main tracheae and hollow rotary shaft mutually through.

Further, described bench-top is also provided with the second passage, the second described number of air hole is several, and the second described passage is uniform mutually through with main tracheae with bench-top.

Compared with prior art, this ultra-thin glass edging device, first will treat that the glass of edging is positioned at bench-top center, starter motor and servomotor simultaneously, driven by motor power transmission shaft High Rotation Speed, thus reach drive emery wheel High Rotation Speed, screw mandrel is driven to turn clockwise by servomotor again, due to screw mandrel and translation plates screw-threaded engagement, thus translation plates can be promoted toward left, the glass being contacts gradually with emery wheel, thus reach emery wheel grinding is completed to glass, until glass while after processing, servomotor drives screw mandrel to be rotated counterclockwise, thus promotion translation plates moves to right, when moving to certain position, servomotor stops the rotation, now electric rotating machine drives worktable rotary 90 degree, the glass green surface being is in the face of emery wheel, screw mandrel is driven to turn clockwise by servomotor again, thus promotion translation plates moves to left, thus complete glass edging processing, after the one side of glass processes, electric rotating machine drives worktable rotary angle, thus complete the processing of another side, reach the edging processing that clamped one time can complete whole glass, this apparatus structure is simple, powerful, achieve the edging processing that clamped one time just can complete whole glass, thus reduce the workload of clamping, improve working (machining) efficiency.

Accompanying drawing explanation

Fig. 1 is that ultra-thin glass edging device is to sectional view

Fig. 2 is the sectional view of base

Fig. 3 is the amplification view of workbench

Base plate 1 column 2

Power transmission shaft 3 emery wheel 4

Motor 5 base 6

Translation plates 7 servomotor 8

Screw mandrel 9 electric rotating machine 10

Hollow rotary shaft 11 workbench 11

Air compressor machine 701 transfer tube 1001

Bearing 1,002 first passage 1101

Main tracheae 1,201 second passage 1202

Following detailed description of the invention will further illustrate in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

hereinafter, set forth multiple specific detail, to provide the thorough understanding to the concept forming described embodiment basis.But to one skilled in the art, embodiment described obviously can be put into practice when not have in these specific detail some or all.In other cases, well-known treatment step is not specifically described.

As Fig. 1, Fig. 2, shown in Fig. 3, comprise base plate 1, column 2, power transmission shaft 3, emery wheel 4, motor 5, base 6, translation plates 7, servomotor 8, screw mandrel 9, electric rotating machine 10, hollow rotary shaft 11, workbench 12, air compressor machine 701, transfer tube 1001, bearing 1002, first passage 1101, main tracheae 1201, second passage 1202, described column 2 is positioned on the left of base plate 1 top center, described column 2 is weldingly connected with base plate 1, described power transmission shaft 3 runs through column 2, and described power transmission shaft 3 is positioned on the upside of column 2, described power transmission shaft 3 is rotatedly connected with column 2, described emery wheel 4 is positioned at power transmission shaft 3 right-hand member center, described emery wheel 4 is connected with power transmission shaft 3 screw thread, described motor 5 is positioned at base plate 1 top left center, described motor 5 is connected with base plate 1 screw thread, described base 6 is positioned at right-hand member center, base plate 1 top, described base 6 is connected with base plate 1 screw thread, described translation plates 7 is positioned at base 6 inside center place, described translation plates 7 was connected with base 6 sliding joining, described servomotor 8 is positioned at right-hand member center, 6, the end, described servomotor 8 is connected with base 6 screw thread, described screw mandrel 9 is positioned at servomotor 8 left end center, and described screw mandrel 9 runs through translation plates 7, described screw mandrel 9 is connected with servomotor 8 screw thread, and described screw mandrel 9 is rotatedly connected with base 6, described electric rotating machine 10 is positioned at translation plates 7 top center place, described electric rotating machine 10 is connected with translation plates 7 screw thread, described hollow rotary shaft 11 is positioned at electric rotating machine 10 top center place, described hollow rotary shaft 11 is connected with electric rotating machine 10 screw thread, described workbench 12 is positioned at hollow rotary shaft 11 top, described workbench 12 is connected with hollow rotary shaft 11 screw thread, air compressor machine 701 is also provided with on the right side of described translation plates 7 top center, described air compressor machine 701 is connected with translation plates 7 screw thread, described electric rotating machine 10 top center place is also provided with transfer tube 1001, described transfer tube 1001 is connected with electric rotating machine 10 screw thread, and described transfer tube 1001 is connected with air compressor machine 701 tracheae, described transfer tube 1001 top inside center goes out also to be provided with bearing 1002, described bearing 1002 is connected with transfer tube 1001 close-fitting, and described bearing 802 is connected with hollow rotary shaft 11 close-fitting, described hollow rotary shaft 11 right-hand member center is also provided with the first passage 1101, the first described passage 1101 manhole, described workbench 12 inside center place is also provided with main tracheae 1201, described main tracheae 1201 is mutually through with hollow rotary shaft 11, described workbench 12 top is also provided with the second passage 1202, the second described passage 1202 quantity is several, described the second passage 1202 is uniform mutually through with main tracheae 1201 with workbench 12 top, this ultra-thin glass edging device, first will treat that the glass of edging is positioned at workbench 12 top center place, starter motor 5 and servomotor 8 simultaneously, motor 5 drives power transmission shaft 3 High Rotation Speed, thus reach drive emery wheel 4 High Rotation Speed, screw mandrel 9 is driven to turn clockwise by servomotor 8 again, due to screw mandrel 9 and translation plates 7 screw-threaded engagement, thus translation plates 7 can be promoted toward left, the glass being contacts gradually with emery wheel 4, thus reach emery wheel 4 pairs of glass and complete grinding, until glass while after processing, servomotor 8 drives screw mandrel 9 to be rotated counterclockwise, thus promotion translation plates 7 moves to right, when moving to certain position, servomotor 8 stops the rotation, now electric rotating machine 10 drives workbench 12 90-degree rotation, the glass green surface being is in the face of emery wheel 4, screw mandrel 9 is driven to turn clockwise by servomotor 8 again, thus promotion translation plates 7 moves to left, thus complete glass edging processing, after the one side of glass processes, electric rotating machine 10 drives workbench 12 to rotate an angle, thus complete the processing of another side, reach the edging processing that clamped one time can complete whole glass, wherein base plate 1 is column 2, the installation carrier of base 6, column 2 plays installation effect to power transmission shaft 3, base 6 is to translation plates 7, servomotor 8 starts installation effect, translation plates 7 plays installation effect to electric rotating machine 10, glass to be processed is being located on table 12, the transfer tube 1001 being by air compressor machine 701 produces negative pressure, due to the first passage 1101, main tracheae 1201 and the second passage 1202 mutually through, thus the second passage 1202 of the bench-top being produces negative pressure, reach and processed glass is fixed on the table, bearing 1002 is that hollow rotary shaft 11 reduces the frictional force with transfer tube 1001 when rotating, bearing 1002 plays sealing function.

The utility model is not limited to above-mentioned concrete embodiment, and those of ordinary skill in the art is from above-mentioned design, and without performing creative labour, all conversion made, all drop within protection domain of the present utility model.

Claims (7)

1. a ultra-thin glass edging device, comprise base plate, characterized by further comprising column, power transmission shaft, emery wheel, motor, base, translation plates, servomotor, screw mandrel, electric rotating machine, hollow rotary shaft, workbench, described column is positioned at base plate top center left, described column and base plate are weldingly connected, described power transmission shaft runs through column, and described power transmission shaft is positioned on the upside of column, described power transmission shaft and column are rotatedly connected, described emery wheel is positioned at power transmission shaft right-hand member center, described emery wheel is connected with power transmission shaft screw thread, described motor is positioned at base plate top left center, described motor is connected with base thread, described base is positioned at right-hand member center, base plate top, described base is connected with base thread, described translation plates is positioned at chassis interior center, described translation plates was connected with base sliding joining, described servomotor is positioned at base right-hand member center, described servomotor is connected with whorl of base, described screw mandrel is positioned at servomotor left end center, and described screw mandrel runs through translation plates, described screw mandrel is connected with servomotor screw thread, and described screw mandrel is connected with base rotation, described electric rotating machine is positioned at translation plates top center place, described electric rotating machine is connected with translation plates screw thread, described hollow rotary shaft is positioned at electric rotating machine top center place, described hollow rotary shaft is connected with electric rotating machine screw thread, described workbench is positioned at hollow rotary shaft top, described workbench is connected with hollow rotary shaft screw thread.

2. a kind of ultra-thin glass edging device as claimed in claim 1, it is characterized in that also being provided with air compressor machine on the right side of described translation plates top center, described air compressor machine is connected with translation plates screw thread.

3. a kind of ultra-thin glass edging device as claimed in claim 2, it is characterized in that described electric rotating machine top center place is also provided with transfer tube, described transfer tube is connected with electric rotating machine screw thread, and described transfer tube is connected with air compressor machine tracheae.

4. a kind of ultra-thin glass edging device as claimed in claim 3, it is characterized in that described transfer tube top inside center goes out and be also provided with bearing, described bearing is connected with transfer tube close-fitting, and described bearing is connected with hollow rotary shaft close-fitting.

5. a kind of ultra-thin glass edging device as claimed in claim 4, is characterized in that described hollow rotary shaft right-hand member center is also provided with the first passage, described passage manhole.

6. a kind of ultra-thin glass edging device as claimed in claim 5, is characterized in that described workbench inside center place is also provided with main tracheae, described main tracheae and hollow rotary shaft mutually through.

7. a kind of ultra-thin glass edging device as claimed in claim 6, it is characterized in that described bench-top is also provided with the second passage, the second described number of air hole is several, and described the second passage is uniform mutually through with main tracheae with bench-top.