CN208929886U - A kind of glass pneumatic pressing device of glass edge polishing - Google Patents

Abstract

The utility model provides a kind of glass pneumatic pressing device of glass edge polishing, belongs to glass manufacturing apparatus technical field.This glass pneumatic pressing device pressing roller, pressing roller is rotatably connected between two stringers by a compression axis, with the cushion chamber of a strip in compression axis, pressing roller includes several compression bars, each compression bar is circumferentially evenly distributed on the outside of compression axis, it is connected between compression bar and compression axis by several connection components, connection component includes pull rod, sleeve and connecting spring, the outer end of pull rod connects compression bar, the inner end of pull rod is plugged in sleeve, the inner end of sleeve and the outer wall of compression axis are fixedly linked, the both ends of connecting spring are connected with the inner wall of the inner end of pull rod and sleeve respectively, sleeve is communicated with cushion chamber, cushion chamber is connected with the outlet side of an air pump, connection component further includes an overflow hole, overflow hole runs through pull rod and compression bar outside wall surface, overflow hole is communicated with barrel bore.The utility model has many advantages, such as that pressing force is big, does not damage glass surface.

Description

A kind of glass pneumatic pressing device of glass edge polishing

Technical field

The utility model belongs to glass manufacturing apparatus technical field, is related to a kind of glass pneumatic pressure of glass edge polishing Tight device.

Background technique

Increasingly developed with glass decoration industry, glass is many kinds of, processing it is different, glass plus Construction equipment broad categories.Wherein, glass edging is the essential procedure of glass cut.

And in actual production process, existing glass edging equipment has following defects that

1, since the running stability to glass in edging procedure is more demanding, it is easy to cause edging irregular, even The case where causing glass breakage；

2, situations such as grinding wheel causes stress larger in glass, and glass is made sideslip occur or tilt, especially thickness is smaller Glass；

3, the glass powder and disintegrating slag formed in edging procedure easily adheres to glass surface, in backing drum and glass Under squeezing action, glass powder and disintegrating slag be easy to cause scratching and wearing for glass surface, cause defect ware；

4, disposable edging molding, since the edge surplus of removal is larger, edging are carried out using the edging wheel of single size It is easy to cause edge locally to burst in the process, local burr etc..

Utility model content

The purpose of this utility model is aiming at the above problems existing in the prior art, to provide a kind of glass edge polishing use Glass pneumatic pressing device, technical problem to be solved in the utility model is how to prevent glass frayed.

The purpose of this utility model can be realized by the following technical scheme: a kind of glass pneumatic of glass edge polishing Pressing device, which is characterized in that this glass pneumatic pressing device pressing roller, the pressing roller are rotatably connected on by a compression axis Between two stringers, with the cushion chamber of a strip in the compression axis, the pressing roller includes several compression bars, and each compression bar is circumferential It is evenly distributed on the outside of compression axis, is connected between the compression bar and compression axis by several connection components, the connection group Part includes pull rod, sleeve and connecting spring, and the outer end of the pull rod connects compression bar, and the inner end of the pull rod is plugged in sleeve, The inner end of the sleeve and the outer wall of compression axis are fixedly linked, the both ends of the connecting spring respectively with the inner end of pull rod and sleeve Inner wall be connected, the sleeve is communicated with cushion chamber, and the cushion chamber is connected with the outlet side of an air pump, the connection component It further include an overflow hole, the overflow hole runs through pull rod and compression bar outside wall surface, and the overflow hole is communicated with barrel bore.

In order to drive away glass top surface glass powder that may be present and glass disintegrating slag, overflow hole is set, is acted in air pump Under, air blast impacts glass surface, makes glass disintegrating slag and glass powder that may be present far from the glass acted on by pressing roller Glass part, to be protected to glass surface.

In order to improve the pressing force to glass, make that glass is non-slip under the action of pressing roller and support roller, does not relax, pressure Tight roller uses the structure for the more compression bars that can be stretched, and compression bar has outside tension by gas pressure, makes compression bar to glass Glass surface is compressed.

By the gas supply under constant pressure of air pump, then it is discharged, can be quickly radiated to glass surface by overflow hole, it is special It is not glass edge, avoids thermal expansion that glass size is caused to be slightly variable, makes the reduction of edging precision.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of glass edging production line.

Fig. 2 is the sectional view of glass edge polishing device.

Fig. 3 is the structural schematic diagram of pneumatic clamping roller in glass edge polishing device.

Fig. 4 is the enlarged drawing of part A in Fig. 2.

In figure, 1, stringer；11, the first installation cavity；12, mounting box；13, the second installation cavity；2, column；3, support roller；31, Support shaft；4, pressing roller；41, compression axis；42, cushion chamber；43, compression bar；44, pull rod；45, sleeve；46, connecting spring；47, gas Pump；48, overflow hole；51, first bevel gear；52, second bevel gear；53, third hand tap gear；54, the 4th bevel gear；55, the 5th Bevel gear；56, the 6th bevel gear；57, the 7th bevel gear；58, the 8th bevel gear；59, short axle；6, edging wheel；61, edging slot； 7, driving motor.

Specific embodiment

It is specific embodiment of the utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further Description, but the utility model is not limited to these examples.

As depicted in figs. 1 and 2, edging production line includes the stringer 1 of two parallelly distribute ons, and stringer 1 is by several columns 2 and ground It is fixedly linked between face, spaced set has several that can carry out the edging of guiding and edging to glass between two stringers 1 Device；

Edging device includes support roller 3 and the pressing roller 4 above support roller 3, and support roller 3 passes through 31 turns of a support shaft Dynamic to be connected between two stringers 1, pressing roller 4 is rotatably connected between two stringers 1 by a compression axis 41, is located at the same side 31 end of 41 end of compression axis and support shaft between by a drive mechanism synchronous backward rotate；

Drive mechanism includes first bevel gear 51, second bevel gear 52, third hand tap gear 53, the 4th bevel gear the 54, the 5th Bevel gear 55, the 6th bevel gear 56, the 7th bevel gear 57 and the 8th bevel gear 58, one end of first bevel gear 51 and support shaft 31 It being fixedly linked, the 8th bevel gear 58 and one end of compression axis 41 are fixedly linked, there is in stringer 1 one first installation cavity 11, first Bevel gear 51, second bevel gear 52, third hand tap gear 53 and the 4th bevel gear 54 are rotatably connected in the first installation cavity 11, the One bevel gear 51 engages second bevel gear 52 and the 4th bevel gear 54 simultaneously, and third hand tap gear 53 engages second bevel gear 52 simultaneously With the 4th bevel gear 54, the pivot center of first bevel gear 51 and the pivot center of third hand tap gear 53 are located at same straight line, the The pivot center of two bevel gears 52 and the pivot center of the 4th bevel gear 54 are located along the same line；

The top of stringer 1 is fixedly installed a mounting box 12, has one second installation cavity 13, the 5th cone tooth in mounting box 12 The 55, the 6th bevel gear 56 of wheel, the 7th bevel gear 57 and the 8th bevel gear 58 are rotatably connected in the second installation cavity 13, the 8th cone Gear 58 engages the 5th bevel gear 55 and the 7th bevel gear 57 simultaneously, and the 6th bevel gear 56 engages the 5th bevel gear 55 and the simultaneously Seven bevel gears 57, the pivot center of the 6th bevel gear 56 and the pivot center of the 8th bevel gear 58 are located at same straight line, the 5th cone The pivot center of gear 55 and the pivot center of the 7th bevel gear 57 are located along the same line；

It is connected between 4th bevel gear 54 and the 5th bevel gear 55 by a short axle 59, a mill is fixedly installed in short axle 59 Cincture 6 has edging slot 61 on the circumferential surface of edging wheel 6；

The driving motor of one of bevel gear two and one 7 in each edging device is connected, and each driving motor 7 is all connected with a change Frequency device is connected after each frequency converter is in parallel with a controller；

The diameter of pressing roller 4 is identical with the diameter of support roller 3, and the diameter of edging slot 61 is more than or less than the straight of support roller 3 Diameter.

By first bevel gear 51, second bevel gear 52, third hand tap gear 53 and the 4th bevel gear 54, to support shaft 31 into The positioning of row vertical and horizontal makes 31 stability of rotation of support shaft, bores tooth by the 5th bevel gear 55, the 6th bevel gear the 56, the 7th Wheel 57 and the 8th bevel gear 58, make 41 stability of rotation of compression axis.

In 7 rotation process of driving motor, the direction of rotation of pressing roller 4 and support roller 3 is on the contrary, can make to exist to edging glass Even running between stringer 1 makes the rotation linear speed of grinding wheel since the polishing slot diameter of grinding wheel is less than or greater than support roller 3 There are differential between degree and the linear velocity of support roller 3, by the presence of differential, make the rotation speed and glass of grinding wheel The speed of service is inconsistent, so that the edge to glass is polished.This setting is advantageous in that: can reduce grinding wheel to glass The rate of wear of glass makes abrasion homogenize, refine, gradually change, so that the edging of glass be made to be gradually completing, avoids bursting and being formed hair Thorn.

This edging production line positions the upper and lower surface of glass simultaneously using pressing roller 4 and support roller 3, improves glass Glass traveling comfort avoids the stress formed in bruting process from causing sideslip, shake and stuck to the operation of glass.

By the reasonable setting of drive mechanism, keep pressing roller 4 synchronous with the operation of support roller 3, and traffic direction is on the contrary, make It there's almost no relative motion between pressing roller 4 and support roller 3 and glass, prevent pressing roller 4 and support roller 3 from making to glass surface At abrasion will not be to glass even if part glass fragment and glass powder remain in the upper surface of glass in edging procedure Glass causes serious abrasion.

As shown in Figure 2, Figure 3 and Figure 4, with the cushion chamber 42 of a strip in compression axis 41, pressing roller 4 includes several compression bars 43, each compression bar 43 circumferential outside for being evenly distributed on compression axis 41 passes through several connection groups between compression bar 43 and compression axis 41 Part is connected, and connection component includes pull rod 44, sleeve 45 and connecting spring 46, and the outer end of pull rod 44 connects compression bar 43, pull rod 44 Inner end is plugged in sleeve 45, and the inner end of sleeve 45 and the outer wall of compression axis 41 are fixedly linked, the both ends difference of connecting spring 46 It is connected with the inner wall of the inner end of pull rod 44 and sleeve 45, sleeve 45 is communicated with cushion chamber 42, and cushion chamber 42 and an air pump 47 go out Gas end is connected, and connection component further includes an overflow hole 48, and overflow hole 48 runs through 43 outside wall surface of pull rod 44 and compression bar, overflow hole 48 It is communicated with 45 inner cavity of sleeve.

In order to drive away glass top surface glass powder that may be present and glass disintegrating slag, overflow hole 48 is set, in air pump 47 Under effect, air blast impacts glass surface, makes glass disintegrating slag and glass powder that may be present far from by the effect of pressing roller 4 Glass part, to be protected to glass surface.

In order to improve the pressing force to glass, make that glass is non-slip under the action of pressing roller 4 and support roller 3, does not relax, Pressing roller 4 uses the structure for the more compression bars 43 that can be stretched, and compression bar 43 has outside tension by gas pressure, makes to press Bar 43 compresses glass surface.

By the gas supply under constant pressure of air pump 47, then it is discharged, quickly glass surface can be carried out scattered by overflow hole 48 Heat, especially glass edge, avoid thermal expansion that glass size is caused to be slightly variable, and make the reduction of edging precision.

Along traffic direction of the glass on stringer 1, the diameter of the edging slot 61 in each edging device on edging wheel 6 gradually increases Greatly.In general, from the inlet of production line, the diameter of edging slot 61 is minimum, two as low as laterally adjacent edging slots 61 it Between minimum range be greater than the wide cut of glass, until exit, the diameter of edging slot 61 is gradually increased, and is carried out to glass edge " layer-by-layer " abrasion polishes to the edge of glass, keeps its precision higher, reliability is more using a small amount of multiple removing modes A possibility that height, a possibility that bursting are smaller, form burr is smaller.

Support roller 3 and compression bar 43 are that the rubber-plastics material of hard is made.

In the entire production line, each first bevel gear 51, each second bevel gear 52, each third hand tap gear 53, each 4th cone tooth Wheel 54, each 5th bevel gear 55, each 6th bevel gear 56, each 7th bevel gear 57 and eight bevel gear 58 of Ge are same size Gear.By way of each bevel gear same specification, regular distribution, makes stable drive between each position, runs smoothly, reliability It is higher, also ensure that pressing roller 4 is synchronous with support roller 3 and synchronized.

It should be understood that frequency converter is the legacy device controlled the revolving speed of driving motor 7, controller has Program or the element without controlling program, for being uniformly controlled to each frequency converter, the two elements are in the prior art Customary components also can be realized the goal of the invention and effect of meaning of the invention, at this to two elements even if being both not present It will not go into details.

In order to improve the yield rate of edging quality and edging, in conjunction with above-mentioned edging production line, glass edging uses such as lower section Method includes the following steps:

A, each driving motor 7 is controlled by controller to run simultaneously, will slowly send to edging glass from the inlet of stringer 1 Enter；Positioned at the setting of 61 diameter of edging slot of the edging wheel 6 of inlet: the edging of two edging wheels 6 on same transverse direction straight line The minimum range of slot 61 is greater than the width of the glass to edging；Positioned at the setting of 61 diameter of edging slot of the edging wheel 6 in exit: The minimum range of edging slot 61 and the width phase of the glass after the edging of setting of two edging wheels 6 on same transverse direction straight line Together；

B, in the case where operator holds, when under glass all operation to pressing roller 4, driving motor 7 is shut down, same with this When booster air pump 47 start driving motor 7 after air pump 47 runs 3~20S, until glass edging terminates, from going out for production line The good glass of edging is taken away at mouthful.

This method is capable of the edging yield rate and precision of raising glass largely, and making can after glass edging It is smooth.

In the method, in first three edging device in inlet to exit, the mill of two edging wheels 6 of transverse pin pair The minimum range of side slot 61 is all larger than the wide cut of glass, and glass is enable to smoothly enter, until in the last one edging device, The minimum range of the edging slot 61 of two edging wheels 6 of lateral face is identical as the wide cut after the edging that glass is set, and makes glass Abrasion gradually carry out, improve precision.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (1)

1. a kind of glass pneumatic pressing device of glass edge polishing, which is characterized in that this glass pneumatic pressing device compresses Roller (4), the pressing roller (4) are rotatably connected between two stringers (1) by a compression axis (41), in the compression axis (41) Cushion chamber (42) with a strip, the pressing roller (4) include several compression bars (43), and each compression bar (43) is circumferentially evenly distributed on The outside of compression axis (41) is connected between the compression bar (43) and compression axis (41) by several connection components, the connection Component includes pull rod (44), sleeve (45) and connecting spring (46), and the outer end of the pull rod (44) connects compression bar (43), the drawing The inner end of bar (44) is plugged in sleeve (45), and the inner end of the sleeve (45) and the outer wall of compression axis (41) are fixedly linked, institute The both ends for stating connecting spring (46) are connected with the inner wall of the inner end of pull rod (44) and sleeve (45) respectively, the sleeve (45) and slow It rushes chamber (42) to communicate, the cushion chamber (42) is connected with the outlet side of an air pump (47), and the connection component further includes one excessive Discharge orifice (48), the overflow hole (48) run through pull rod (44) and compression bar (43) outside wall surface, the overflow hole (48) and sleeve (45) Inner cavity communicates.