CN204569725U - A kind of intensive roller-way for ultra-thin flat glass crosscut - Google Patents

Abstract

The utility model provides a kind of intensive roller-way for ultra-thin flat glass crosscut, it comprises carrier roller bed (1), above carrier roller bed, erection has transverse cutting unit (2), carrier roller bed below transverse cutting unit is provided with one section of intersection regions (3), it is characterized in that: the intersection regions roll shaft (3b) of intersection regions (3) is provided with one group of crosscut support roller (4) corresponding with transverse cutting unit (2), all be provided with sprocket wheel (6) in one end of every root intersection regions roll shaft (3b), and form transmission by the chain (6a) on sprocket wheel with the roller carrier shaft on both sides, intersection regions carrier roller bed (1) and coordinate.The utility model structure is simple, easy to use, and can directly reequip at existing carrier roller bed, and retrofit process is easy, carrier roller bed after repacking not only goes for the cutting of ultra-thin flat glass, nor can affect the cutting to general thickness sheet glass.

Description

A kind of intensive roller-way for ultra-thin flat glass crosscut

Technical field:

The utility model relates to roller-way during a kind of glass production, is exactly specifically a kind of intensive roller-way for ultra-thin flat glass crosscut.

Background technology:

Along with electronic glass substrate requirements amount increases day by day, producing ultra-thin flat glass with floating process becomes development trend.At present, floating process can only produce the sheet glass of 2.0 ~ 15mm general thickness, still has many technical problems, as the transverse cutting of plate glass belt to the ultra-thin flat glass of production 0.3 ~ 1.2mm thickness.

After formed from plate glass, by annealing, plate glass belt surface temperature has been down to less than 70 DEG C, is delivered to intersection regions with roller carrier shaft, carries out transverse cutting with transverse cutting unit.In intersection regions, transverse cutting unit is tilting fixedly to be laid, and drives cutter head to move horizontally, holds up plate glass belt with intensive roller carrier shaft, and cutter head contact plate glass belt marks vestige, but has unsettled region all the time between adjacent roller carrier shaft height point.When cutting general thickness sheet glass, the cutter head on transverse cutting unit can not pressure break plate glass belt; When cutting ultra thin plate glass belt, be as thin as to a certain degree at thickness, plate glass belt possibly cannot carry the pressure of cutter head, and plate glass belt may by pressure break.

Utility model content:

The utility model is exactly to overcome deficiency of the prior art, provides a kind of and has structure intensive roller-way simple, easy to use for ultra-thin flat glass crosscut.

The utility model provides following technical scheme:

A kind of intensive roller-way for ultra-thin flat glass crosscut, it comprises carrier roller bed, carrier roller bed is provided with the plate glass belt of movement, above carrier roller bed, erection has transverse cutting unit, carrier roller bed below transverse cutting unit is provided with one section of intersection regions, it is characterized in that: two longerons that described intersection regions is included in carrier roller bed are symmetrical arranged one section of boss along the distribution of longeron length direction, across the intersection regions roll shaft establishing one group of dense distribution on two boss, the boss of the roll shaft both sides, intersection regions of described dense distribution also has a transition roll shaft respectively; Described intersection regions roll shaft is provided with one group of crosscut support roller corresponding with transverse cutting unit, described intersection regions roll shaft and transition roll shaft are also provided with one group of support roller station; All be provided with one group of sprocket wheel in one end of every root intersection regions roll shaft and every root transition roll shaft, and form transmission by the chain on sprocket wheel with the roller carrier shaft sprocket wheel on the roller carrier shaft of both sides, intersection regions and coordinate.

On the basis of technique scheme, following further technical scheme can also be had:

Describedly be arranged on crosscut support roller on the intersection regions roll shaft of one group of dense distribution on adjacent intersection regions roll shaft for shifting to install.

The described support roller station be arranged on the roll shaft of intersection regions, for interval is arranged on the length direction of carrier roller bed.

On the height point of described support roller station and crosscut support roller and carrier roller bed, the height point of support roller is in same level, and the size of support roller station and crosscut support roller is less than the size of support roller on carrier roller bed.

The size of described roller carrier shaft sprocket wheel is greater than the size of transition roll shaft upper sprocket wheel, and roller carrier shaft sprocket wheel and transition roll shaft sprocket wheel form speed varying chain by chain and connect and coordinate.

The utility model has the advantage of:

The utility model structure is simple, easy to use, and can directly reequip at existing carrier roller bed, and retrofit process is easy, carrier roller bed after repacking not only goes for the cutting of ultra-thin flat glass, nor can affect the cutting to general thickness sheet glass.

Accompanying drawing illustrates:

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the A direction view in Fig. 1.

Embodiment:

As shown in Figure 1 and Figure 2, a kind of intensive roller-way for ultra-thin flat glass crosscut, it comprises carrier roller bed 1, carrier roller bed is provided with the plate glass belt 7 of movement, above carrier roller bed, erection has transverse cutting unit 2, the carrier roller bed below transverse cutting unit is provided with one section of intersection regions 3, the carrier roller bed 1 of both sides, intersection regions is also provided with one group of roller carrier shaft 1b, each roller carrier shaft 1b is also provided with support roller 1d, is also provided with in one end of roller carrier shaft 1b and forms with power system the chain wheel driving mechanism coordinated.

Described intersection regions 3 comprises, on two longeron 1a of carrier roller bed, be symmetrical arranged one section of boss 3a along the distribution of longeron length direction, on two boss 3a immediately below transverse cutting unit, across the intersection regions roll shaft 3b establishing one group of dense distribution, and spacing between adjacent intersection regions roll shaft is all identical.

On the boss 3a of the roll shaft 3b both sides, intersection regions of described dense distribution, also have a transition roll shaft 3c respectively, the spacing between the intersection regions roll shaft 3b of transition roll shaft 3c and dense distribution is greater than the spacing between two adjacent intersection regions roll shafts.

Described intersection regions roll shaft 3b is identical with the diameter of transition roll shaft 3c, and is all less than the diameter of roller carrier shaft 1b.

On one group of dense distribution roll shaft 3b of described intersection regions, be provided with one group of crosscut support roller 4 corresponding with transverse cutting unit 2, and the crosscut support roller 4 be arranged on adjacent intersection regions roll shaft 3b is for being dislocatedly distributed.

On described intersection regions roll shaft 3b and transition roll shaft 3c, be also provided with one group of support roller station 5, and described in be arranged on support roller station 5 on the intersection regions roll shaft 3b of one group of dense distribution, the length direction of carrier roller bed is interval is arranged.That is, between the intersection regions roll shaft 3b that adjacent two are provided with support roller station 5, the intersection regions roll shaft 3b that does not arrange support roller station 5 is at least also provided with.And the spacing between adjacent two crosscut support rollers 4 will much smaller than the spacing between adjacent two support roller stations 5.

In one end of every root intersection regions roll shaft 3b and every root transition roll shaft 3c, be all provided with the sprocket wheel 6 of one group of same size, and form constant speed drive's cooperation by the chain 6a on sprocket wheel.

Every root transition roll shaft 3c forms transmission by the sprocket wheel 6 on it and chain 6a with the roller carrier shaft 1b on both sides, intersection regions carrier roller bed 1 and coordinates.Size due to the roller carrier shaft sprocket wheel 1c of roller carrier shaft 1b one end is greater than the size of transition roll shaft 3c upper sprocket wheel 6, so roller carrier shaft sprocket wheel 1c and the sprocket wheel 6 on transition roll shaft formed by chain 6a is that speed change links and coordinates, thus can ensure that the utility model remains same speed when delivering plate glass belt 7.

On described support roller station 5, crosscut support roller 4, roller carrier shaft 1b, the height point of support roller 1d is in same level, and support roller station 5 is less than the size of support roller on carrier roller bed 1 with the size of crosscut support roller 4, thus can ensure when delivering glass, the utility model remains that plate glass belt 7 is at same level in-plane moving.

Principle of work:

The intersection regions that the utility model provides, by intensive immediately below transverse cutting unit, shift to install the less crosscut support roller of size, more absorb transverse cutting unit pressure to glass surface when glass-cutting, thus avoid the situation of the crop pressure break glass when cutting ultra thin sheet glass.

Claims (5)

1. for an intensive roller-way for ultra-thin flat glass crosscut, it comprises carrier roller bed (1), and above carrier roller bed, erection has transverse cutting unit (2), the carrier roller bed below transverse cutting unit is provided with one section of intersection regions (3), it is characterized in that:

Two longerons (1a) that described intersection regions (3) is included in carrier roller bed are symmetrical arranged one section of boss (3a) along the distribution of longeron length direction, across the intersection regions roll shaft (3b) establishing one group of dense distribution on two boss (3a), also have a transition roll shaft (3c) respectively at the boss (3a) of intersection regions roll shaft (3b) both sides of described dense distribution;

Described intersection regions roll shaft (3b) is provided with one group of crosscut support roller (4) corresponding with transverse cutting unit (2), described intersection regions roll shaft (3b) with transition roll shaft (3c) are also provided with one group of support roller station (5);

All be provided with one group of sprocket wheel (6) in one end of every root intersection regions roll shaft (3b) and every root transition roll shaft (3c), and form transmission by the chain (6a) on sprocket wheel with the roller carrier shaft sprocket wheel (1c) on the roller carrier shaft (1b) of both sides, intersection regions and coordinate.

2., according to a kind of intensive roller-way for ultra-thin flat glass crosscut described in claim 1, it is characterized in that: described in be arranged on crosscut support roller (4) on the roll shaft of intersection regions on adjacent intersection regions roll shaft (3b) for shifting to install.

3. according to a kind of intensive roller-way for ultra-thin flat glass crosscut described in claim 2, it is characterized in that: described in be arranged on support roller station (5) on the intersection regions roll shaft (3b) of one group of dense distribution, the length direction of carrier roller bed (1) is interval is arranged.

4. according to a kind of intensive roller-way for ultra-thin flat glass crosscut described in claim 3, it is characterized in that: the height point of described support roller station (5) and the height point of crosscut support roller (4) and the upper support roller of carrier roller bed (1) is in same level, and support roller station (5) and the size of crosscut support roller (4) are less than the size of the upper support roller of carrier roller bed (1).

5. according to a kind of intensive roller-way for ultra-thin flat glass crosscut described in claim 4, it is characterized in that: the size of described roller carrier shaft sprocket wheel (1c) is greater than the size of transition roll shaft (3c) upper sprocket wheel (6), roller carrier shaft sprocket wheel (1c) and transition roll shaft sprocket wheel (6) form speed change by chain (6a) and link and coordinate.