CN105195765A

CN105195765A - Slicer main shaft structure for machining solar cell panel

Info

Publication number: CN105195765A
Application number: CN201510727793.1A
Authority: CN
Inventors: 顾祥宝
Original assignee: Jiangsu Yaoyang Electronic Co Ltd
Current assignee: Jiangsu Yaoyang Electronic Co Ltd
Priority date: 2015-10-30
Filing date: 2015-10-30
Publication date: 2015-12-30

Abstract

The invention discloses a slicer main shaft structure for machining a solar cell panel, which mainly comprises that a left hollow cover is arranged at the left side surface of a shell, a connection disc is arranged on a conical surface at the left end of a main shaft of which the left end is provided with a left locking sleeve, a lower cutter ring is arranged on the connection disc, an upper cutter ring is arranged at the left side surface of the lower cutter ring by a connection bolt and a compression screw, a blade is arranged between the left side surface of the lower cutter ring and the right side surface of the upper cutter ring, an inner ring of a left bearing pack is arranged at the left side of the main shaft, an outer ring of the left bearing pack is arranged in an inner hole in the left side of the shell, a left locknut is arranged at threads at the left end of the main shaft, an inner ring of a right bearing pack is arranged at the right side of the main shaft, an outer ring of the right bearing pack is arranged in an inner hole in the right side of the shell, a right locknut is arranged at the threads at the right side of the main shaft, a right hollow cover is fixedly arranged at the right side surface of the shell, a belt wheel is arranged at the conical surface at the right end of the main shaft and a right locking sleeve is arranged at the right end of the main shaft.

Description

A kind of slicer main axle structure for processing solar panel

Technical field

The present invention relates to solar panel processing technique field, specifically, particularly a kind of slicer main axle structure for processing solar panel.

Background technology

The manufacture process of solar cell plate generally comprises: the machining operation such as section, grinding, polishing.The surface roughness of the rear silicon chip of section and geometric error, directly affect crudy and the yield rate of subsequent handling.Width of slit also affects the utilization rate of material.Therefore, slicing process requires that finished surface will have little surface roughness, good surface figure accuracy and joint-cutting narrow as far as possible.And slice process and chopper and slicer thereof have a direct impact this.Existing slicer complex structure, crudy is poor, and the tensile force of blade is poor, and rigidity and the cutting performance of blade are poor, cannot meet application requirement.

Summary of the invention

Technical problem to be solved by this invention is for above-mentioned deficiency of the prior art, provides a kind of slicer main axle structure for processing solar panel, and its structure is simple, and cost is low, and it is high that main shaft rotates progress, and crudy is good.

The technical solution adopted for the present invention to solve the technical problems is: a kind of slicer main axle structure for processing solar panel, comprises left transparent cover, terminal pad, lower cutter ring, connecting bolt, housing screw, blade, left lock sleeve, upper slitter ring, left locking nut, left bearing group, main shaft, right locking nut, right lock sleeve, belt wheel, right transparent cover, right bearing group, inner spacing collar, housing and outer separator, described left transparent cover is mounted by means of bolts on housing left surface, described terminal pad is fixedly mounted on the conical surface of main shaft left end, described left lock sleeve is fixedly mounted on main shaft left end and its right side withstands on the bottom surface of terminal pad groove, described lower cutter ring is fixedly mounted on terminal pad, described upper slitter ring is fixedly mounted on the left surface of lower cutter ring by connecting bolt and housing screw, described blade is arranged between lower cutter ring left surface and upper slitter ring right flank, described left bearing group inner ring is arranged on the left of main shaft, its outer ring to be arranged on the left of housing in endoporus, described left locking nut is arranged on main shaft left end screw thread and its right side and withstands on left bearing group inner ring left side, described right bearing group inner ring is arranged on the right side of main shaft, its outer ring to be arranged on the right side of housing in endoporus, described right locking nut is arranged on screw thread and its left side on the right side of main shaft and withstands on right bearing group inner ring right side, described right transparent cover is mounted by means of bolts on housing right flank, described belt wheel is arranged on the conical surface of main shaft right-hand member, described right lock sleeve is fixedly mounted on main shaft right-hand member and its left side withstands on the bottom surface of belt wheel groove.

As preferably, described left bearing group forms by two angular contact bearings are back-to-back and are provided with inner spacing collar and outer separator between two angular contact bearings.

As preferably, described right bearing group forms by two angular contact bearings are back-to-back and are provided with inner spacing collar and outer separator between two angular contact bearings.

As preferably, described terminal pad is flange plate structure form.

As preferably, described left bearing group and right bearing group adopt high accuracy angular contact bearing and adopt grease lubrication.

Operation principle: lower cutter ring and terminal pad are fixed on slicer main shaft, blade is fixed between upper slitter ring and lower cutter ring, during cutting processing, main shaft band cutting blade High Rotation Speed, simultaneously opposite piece radial feed.Main shaft supporting many employings precision corner contact ball bearing, stable accuracy, easy to adjust, adopt grease lubrication.

The present invention compared with prior art has the following advantages: structure is simple, and it is high that main shaft rotates progress, and crudy is good; A machinery cutter is connected with machine tool chief axis with the cylindrical of bolt by blade, regulate the pressure screw clamping blade in upper slitter ring, such clamping force is large, can revise the ovalizing deflection of blade, and make blade have good tensile force, improve rigidity and the cutting performance of blade.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of detailed description of the invention of the present invention.

Description of reference numerals:

The left transparent cover of 1-, 2-terminal pad, cutter ring under 3-, 4-connecting bolt, 5-housing screw, 6-crystal bar, 7-blade, the left lock sleeve of 8-, 9-upper slitter ring, the left locking nut of 10-, 11-left bearing group, 12-main shaft, the right locking nut of 13-, the right lock sleeve of 14-, 15-belt wheel, the right transparent cover of 16-, 17-right bearing group, 18-inner spacing collar, 19-housing, 20-outer separator.

Detailed description of the invention

Below in conjunction with drawings and Examples, the specific embodiment of the invention is described:

Embodiment, as shown in Figure 1, for processing a slicer main axle structure for solar panel, comprise left transparent cover 1, terminal pad 2, lower cutter ring 3, connecting bolt 4, housing screw 5, blade 7, left lock sleeve 8, upper slitter ring 9, left locking nut 10, left bearing group 11, main shaft 12, right locking nut 13, right lock sleeve 14, belt wheel 15, right transparent cover 16, right bearing group 17, inner spacing collar 18, housing 19 and outer separator 20, described left transparent cover 1 is mounted by means of bolts on housing 19 left surface, described terminal pad 2 is fixedly mounted on the conical surface of main shaft 12 left end, described left lock sleeve 8 is fixedly mounted on main shaft 12 left end and its right side withstands on the bottom surface of terminal pad 2 groove, described lower cutter ring 3 is fixedly mounted on terminal pad 2, described upper slitter ring 9 is fixedly mounted on the left surface of lower cutter ring 3 by connecting bolt 4 and housing screw 5, described blade 7 is arranged between lower cutter ring 3 left surface and upper slitter ring 9 right flank, described left bearing group 11 inner ring is arranged on the left of main shaft 12, its outer ring to be arranged on the left of housing 19 in endoporus, described left locking nut 10 is arranged on main shaft 12 left end screw thread and its right side withstands on left bearing group 11 inner ring left side, described right bearing group 17 inner ring is arranged on the right side of main shaft 12, its outer ring to be arranged on the right side of housing 19 in endoporus, described right locking nut 13 is arranged on screw thread and its left side on the right side of main shaft 12 and withstands on right bearing group 17 inner ring right side, described right transparent cover 16 is mounted by means of bolts on housing 19 right flank, described belt wheel 15 is arranged on the conical surface of main shaft 12 right-hand member, described right lock sleeve 14 is fixedly mounted on main shaft 12 right-hand member and its left side withstands on the bottom surface of belt wheel 15 groove.

Preferably, described left bearing group 11 forms by two angular contact bearings are back-to-back and are provided with inner spacing collar 18 and outer separator 20 between two angular contact bearings.

Preferably, described right bearing group 17 forms by two angular contact bearings are back-to-back and are provided with inner spacing collar 18 and outer separator 20 between two angular contact bearings.

Preferably, described terminal pad 2 is flange plate structure form.

By reference to the accompanying drawings the preferred embodiment for the present invention is explained in detail above, but the invention is not restricted to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, can also make a variety of changes under the prerequisite not departing from present inventive concept.

Do not depart from the spirit and scope of the present invention and can make other changes many and remodeling.Should be appreciated that and the invention is not restricted to specific embodiment, scope of the present invention is defined by the following claims.

Claims

1. for processing a slicer main axle structure for solar panel, it is characterized in that: comprise left transparent cover, terminal pad, lower cutter ring, connecting bolt, housing screw, blade, left lock sleeve, upper slitter ring, left locking nut, left bearing group, main shaft, right locking nut, right lock sleeve, belt wheel, right transparent cover, right bearing group, inner spacing collar, housing and outer separator, described left transparent cover is mounted by means of bolts on housing left surface, described terminal pad is fixedly mounted on the conical surface of main shaft left end, described left lock sleeve is fixedly mounted on main shaft left end and its right side withstands on the bottom surface of terminal pad groove, described lower cutter ring is fixedly mounted on terminal pad, described upper slitter ring is fixedly mounted on the left surface of lower cutter ring by connecting bolt and housing screw, described blade is arranged between lower cutter ring left surface and upper slitter ring right flank, described left bearing group inner ring is arranged on the left of main shaft, its outer ring to be arranged on the left of housing in endoporus, described left locking nut is arranged on main shaft left end screw thread and its right side and withstands on left bearing group inner ring left side, described right bearing group inner ring is arranged on the right side of main shaft, its outer ring to be arranged on the right side of housing in endoporus, described right locking nut is arranged on screw thread and its left side on the right side of main shaft and withstands on right bearing group inner ring right side, described right transparent cover is mounted by means of bolts on housing right flank, described belt wheel is arranged on the conical surface of main shaft right-hand member, described right lock sleeve is fixedly mounted on main shaft right-hand member and its left side withstands on the bottom surface of belt wheel groove.

2. a kind of slicer main axle structure for processing solar panel as claimed in claim 1, is characterized in that: described left bearing group forms by two angular contact bearings are back-to-back and are provided with inner spacing collar and outer separator between two angular contact bearings.

3. a kind of slicer main axle structure for processing solar panel as claimed in claim 1, is characterized in that: described right bearing group forms by two angular contact bearings are back-to-back and are provided with inner spacing collar and outer separator between two angular contact bearings.

4. a kind of slicer main axle structure for processing solar panel as claimed in claim 1, is characterized in that: described terminal pad is flange plate structure form.

5. a kind of slicer main axle structure for processing solar panel as claimed in claim 1, is characterized in that: described left bearing group and right bearing group adopt high accuracy angular contact bearing and adopt grease lubrication.