CN103302565B - Horizontal glass straight-line four-side edge polisher and glass edging method - Google Patents

Abstract

The present invention relates to a kind of horizontal glass straight-line four-side edge polisher, comprise the input system assembly (800) for inputting glass, for exporting the output system assembly (900) of glass, edging mechanism assembly, for control inputs system synthesis (800), the control circuit assembly of output system assembly (900) and the work of edging mechanism assembly; Input system assembly (800), output system assembly (900) is arranged in turn; Edging mechanism assembly is arranged on input system assembly and output system assembly, edging mechanism assembly comprises first group of glass grinding seamed edge end face integral mechanism (500), edging mechanism rotary components, edging mechanism moves horizontally assembly, second group of glass grinding seamed edge end face integral mechanism (600), short-distance movement assembly and composite roof truss (61).The invention still further relates to a kind of glass edging method of glass four limit of simultaneously polishing; Horizontal glass straight-line four-side edge polisher of the present invention and glass edging method improve quality and the efficiency of glass edge processing greatly.

Description

Horizontal glass straight-line four-side edge polisher and glass edging method

Technical field

The present invention relates to glass processing field, specifically, relate to a kind of edger unit and edging method of glass.

Background technology

Rear reprocessing is cut in order to meet former sheet glass, particularly tempering, doubling, the needs of the secondary operations such as hollow, nearly all glass all needs to carry out edging process before formally becoming product or secondary operations, just different according to application, and edging divides from method of work manual and machinery two kinds, manual edging refers to artificial hand-held edger unit or instrument to glass through row grinding operation, also comprises the grinding operation that artificial hand-held glass is undertaken by edger unit.Machinery edging refers to that glass enters edger unit by transmitting device and the grinding operation that realizes.Be divided into again straight line edging and special-shaped edging according to the profile of processed glass, the glass edging of straight line edging limit rectangle, the glass edging beyond rectangle is special-shaped edging.Abrasive belt edging and grinding wheel type edging two kinds is also divided into according to the material of edging.Abrasive belt edging is based on manual edging, and grinding wheel type edge grinding machine is used for large batch of former sheet glass edging processing, and existing grinding wheel type edge grinding machine is polished with the stress eliminating cut surface to the seamed edge up and down of glass by edging mechanism on it.

For glass post-processing enterprise, along with the automaticity of glass working machine improves constantly, requirement for equipment also improves constantly, because plate glass is in cutting process, due to the difference of cutting equipment and the difference of cutting mode, the perpendicularity of glass-cutting end face also has larger gap, and the stress causing the glass after cutting to produce also can be different.Although the mode of existing grind edge can eliminate a part of stress, for the glass that cutting perpendicularity is bad, the elimination of stress is also very undesirable.Glass can be made when carrying out tempering, and fragment rate improves affects the performance of enterprises.So just only have, by single-edge grinding or two-sided grinding, its cut surface is also carried out grinding, although these traditional process equipment ground effects are better, mostly belong to manual or semi-automatic product, the very low labor strength of efficiency is large.Therefore the automation equipment of a kind of energy seamed edge of grinding simultaneously of market demand and cutting end face, the edger unit that existing market occurs also is in the state of difference grinding seamed edge and cutting end face, can not disposable grinding 4 cutting end face and 8 seamed edges.

Summary of the invention

In order to solve the problems of the technologies described above, the invention provides a kind of horizontal glass straight-line four-side edge polisher.

Another object of the present invention is to provide a kind of glass edging method.

To achieve these goals, the invention provides a kind of horizontal glass straight-line four-side edge polisher, comprising the input system assembly for inputting glass, for exporting the output system assembly of glass, edging mechanism assembly, also comprise for control inputs system synthesis, the control circuit assembly of output system assembly and the work of edging mechanism assembly, input system assembly, output system assembly is arranged in turn, edging mechanism assembly is arranged on input system assembly and output system assembly, described edging mechanism assembly comprises first group of glass grinding seamed edge end face integral mechanism, edging mechanism rotary components, edging mechanism moves horizontally assembly, second group of glass grinding seamed edge end face integral mechanism, short-distance movement assembly and composite roof truss, wherein: first group of glass grinding seamed edge end face integral mechanism moves horizontally assembly by edging mechanism rotary components and edging mechanism and composite roof truss is slidably connected, second group of glass grinding seamed edge end face integral mechanism is slidably connected by short-distance movement assembly and composite roof truss,

Described first group of glass grinding seamed edge end face integral mechanism and second group of glass grinding seamed edge end face integral mechanism comprise seamed edge grinding subassembly, lower seamed edge grinding subassembly, cross grinding assembly respectively, combination pallet, wherein:

Described upper seamed edge grinding subassembly, lower seamed edge grinding subassembly be arranged in parallel, and are installed on the bottom of combination pallet;

Described cross grinding assembly and described upper seamed edge grinding subassembly and lower seamed edge grinding subassembly is vertical arranges, and be installed on the bottom of combination pallet.

Described upper seamed edge grinding subassembly comprises emery wheel feed arrangement, emery wheel whirligig in driving, upper emery wheel, upper abrasive wheel assembly fixed head, wherein:

Described upper emery wheel feed arrangement and the supporting installation of combination pallet;

The bottom of described upper emery wheel feed arrangement and upper abrasive wheel assembly fixed head fixture;

In described driving, emery wheel whirligig is fixedly mounted on abrasive wheel assembly fixed head;

Described upper emery wheel fixedly mounts with driving upper emery wheel whirligig.

Described upper emery wheel feed arrangement comprises emery wheel feeding motor, upper emery wheel feed bar, upper emery wheel feeding bounce cylinder, upper emery wheel feeding plate; Wherein:

Described upper emery wheel feeding motor is fixedly connected with combination pallet;

Described upper emery wheel feeding motor is fixedly connected with upper emery wheel feeding bounce cylinder by upper emery wheel feed bar;

Cylinder rod and the upper emery wheel feeding plate of described upper emery wheel feeding bounce cylinder fixedly mount;

Described upper emery wheel feeding plate is slidably connected with combination pallet;

The bottom of described upper emery wheel feeding plate is fixedly connected with upper abrasive wheel assembly fixed head.

In described driving, emery wheel whirligig comprises emery wheel drive motors, upper emery wheel power driving module, wherein:

Described upper emery wheel drive motors and upper abrasive wheel assembly fixed head fixedly mount;

Described upper emery wheel power driving module is fixedly connected with upper abrasive wheel assembly fixed head;

Described upper emery wheel drive motors is coordinated with upper emery wheel by upper emery wheel power driving module to be installed.

Described lower seamed edge grinding subassembly comprises: lower emery wheel feed arrangement, drives lower emery wheel whirligig, lower emery wheel, lower abrasive wheel assembly fixed head, wherein:

Described lower emery wheel feed arrangement and the supporting installation of combination pallet;

The bottom of described lower emery wheel feed arrangement and lower abrasive wheel assembly fixed head fixture;

Under described driving, emery wheel whirligig is fixedly mounted on lower abrasive wheel assembly fixed head;

Described lower emery wheel fixedly mounts with driving lower emery wheel whirligig.

Described lower emery wheel feed arrangement comprises lower emery wheel feeding motor, lower emery wheel feed bar, lower emery wheel feeding bounce cylinder, lower emery wheel feeding plate; Wherein:

Described lower emery wheel feeding motor is fixedly connected with combination pallet;

Described lower emery wheel feeding motor is fixedly connected with lower emery wheel feeding bounce cylinder by lower emery wheel feed bar;

Cylinder rod and the lower emery wheel feeding plate of described lower emery wheel feeding bounce cylinder fixedly mount;

Described lower emery wheel feeding plate is slidably connected with combination pallet;

The bottom of described lower emery wheel feeding plate is fixedly connected with lower abrasive wheel assembly fixed head.

Under described driving, emery wheel whirligig comprises lower emery wheel drive motors, lower emery wheel power driving module, wherein:

Described lower emery wheel drive motors and lower abrasive wheel assembly fixed head fixedly mount;

Described lower emery wheel power driving module is fixedly connected with lower abrasive wheel assembly fixed head;

Described lower emery wheel drive motors is coordinated with lower emery wheel by lower emery wheel power driving module to be installed.

Described cross grinding assembly comprises faced grinding wheel assembly fixed head, faced grinding wheel feed arrangement, Driving plane emery wheel whirligig, Driving plane emery wheel whirligig fixed head, faced grinding wheel; Wherein:

Described faced grinding wheel assembly fixed head and described combination pallet fixedly mount;

One end of described faced grinding wheel feed arrangement and the bottom of faced grinding wheel assembly fixed head are installed fixing;

The other end and the Driving plane emery wheel whirligig fixed head of described faced grinding wheel feed arrangement fixedly mount;

Described Driving plane emery wheel whirligig is fixedly mounted on Driving plane emery wheel whirligig fixed head;

Described faced grinding wheel and Driving plane emery wheel whirligig fixedly mount.

Described faced grinding wheel feed arrangement comprises Pivoting bearing component, faced grinding wheel feeding power assembly; Wherein:

Described faced grinding wheel assembly fixed head is installed fixing by Pivoting bearing component and Driving plane emery wheel whirligig fixed head;

Faced grinding wheel feeding power assembly comprises faced grinding wheel feeder assembly fixed bar, faced grinding wheel feeding cylinder;

Faced grinding wheel assembly fixed head is dynamically connected by faced grinding wheel feeder assembly fixed bar and faced grinding wheel feeding cylinder axis;

The other end and the Driving plane emery wheel whirligig fixed head axle of described faced grinding wheel feeding cylinder are dynamically connected.

Described Driving plane emery wheel whirligig comprises faced grinding wheel motor, faced grinding wheel power driving module;

Described faced grinding wheel motor is fixed on Driving plane emery wheel whirligig fixed head;

Described faced grinding wheel power driving module is fixedly connected with Driving plane emery wheel whirligig fixed head;

Described faced grinding wheel motor is coordinated with faced grinding wheel by faced grinding wheel power driving module to be installed.

First group of described glass grinding seamed edge end face integral mechanism and second group of glass grinding seamed edge end face integral mechanism are provided with glass clamping device;

Described glass clamping device comprises the subiculum assembly for holding up glass from bottom to top, for extruding the upper pressure assembly of glass from the top down, grip slipper, wherein:

Described pop-up assembly, presses down assembly and is fixedly connected with described grip slipper respectively.

Described subiculum assembly comprises subiculum cylinder, subiculum cylinder power transmission members, lower tugboat, wherein:

The cylinder rod of subiculum cylinder is connected by subiculum cylinder power transmission members and lower tugboat.

Described lower tugboat power transmission members is hinge axis bearing member.

Described upper pressure assembly comprises air cylinder and upper pressure wheel, wherein:

Cylinder rod and the upper pressure wheel of upper air cylinder are connected;

Grip slipper is fixedly connected with combination pallet.

Described first group of glass grinding seamed edge end face integral mechanism top is fixedly connected with edging mechanism rotary components and edging mechanism moves horizontally assembly, wherein:

Described edging mechanism rotary components comprises edging mechanism electric rotating machine, the pinion in mating connection with edging mechanism electric rotating machine, edging mechanism swing pinion, edging mechanism rotating shaft, edging mechanism rotary components fixed head; Pinion and edging mechanism swing pinion are connected, and edging mechanism swing pinion is fixedly connected with first group of glass grinding seamed edge end face integral mechanism by edging mechanism rotating shaft;

Described edging mechanism rotary components fixed head and edging mechanism swing pinion are slidably connected;

Described edging mechanism moves horizontally assembly and comprises Timing Belt drive motors, Timing Belt, slide rail, wherein:

The synchronous pulley of described Timing Belt drive motors and Timing Belt is connected, and Timing Belt is by being fixedly connected with edging mechanism rotary components fixed head;

Described edging mechanism rotary components fixed head is slidably connected by slide rail and composite roof truss.

Second group of described glass grinding seamed edge end face integral mechanism top is provided with short-distance movement assembly; Second group of described glass grinding seamed edge end face integral mechanism is slidably connected by short-distance movement assembly and composite roof truss.

Described short-distance movement assembly comprises short-distance movement and drives cylinder, short-distance movement fixed head, fixed axis, wherein:

Short-distance movement drives cylinder to be fixedly connected on composite roof truss, and short-distance movement drives the cylinder rod of cylinder to be fixedly connected with short-distance movement fixed head;

Short-distance movement fixed head is fixedly connected with second group of glass grinding seamed edge end face integral mechanism by fixed axis.

Described input system assembly, output system assembly is the suctorial Timing Belt of motor-driven band and live-roller transmission equipment, Timing Belt and live-roller transmission equipment, with any one in suctorial Timing Belt transmission equipment, Timing Belt transmission equipment.

A kind of glass edging method of the horizontal glass straight-line four-side edge polisher described in employing, comprises the steps:

(1) when glass is transported to edging mechanism assembly position by input system assembly, input system assembly quits work, and first group of glass grinding seamed edge end face integral mechanism moves horizontally along composite roof truss, the first limit of polishing glass.

(2) first groups of glass grinding seamed edge end face integral mechanism half-twists, output system assembly works, while glass is fed forward, first group of glass grinding seamed edge end face integral mechanism and second group of glass grinding seamed edge end face integral mechanism work simultaneously, the Second Edge of polishing glass and the 4th limit.

(3) input system assembly quits work, first group of glass grinding seamed edge end face integral mechanism half-twist, and second group of glass grinding seamed edge end face integral mechanism departs from glass.

(4) first groups of glass grinding seamed edge end face integral mechanisms move horizontally along composite roof truss, the 3rd limit of polishing glass, and the work of output system assembly has exported the glass of four limit polishings.

Glass grinding seamed edge end face integral mechanism in horizontal glass straight-line four-side edge polisher of the present invention can synchronously be polished the seamed edge up and down on each limit of glass and end face, the setting of clamping device, effectively can reduce the vibrations of glass self, the four edges of glass once all can be completed polishing by described glass edging method, horizontal glass straight-line four-side edge polisher of the present invention and glass edging method can reduce equipment cost and human cost effectively, improve the efficiency of glass edge processing greatly.

Accompanying drawing explanation

Fig. 1 is horizontal glass straight-line four-side machine front view of the present invention.

Fig. 2 is first described in the present invention group and second group of glass grinding seamed edge end face integral mechanism general assembly drawing.

Fig. 3 is seamed edge grinding subassembly and lower seamed edge grinding subassembly front view on first described in the present invention group and second group of glass grinding seamed edge end face integral mechanism.

Fig. 4 is the left view of Fig. 3.

Fig. 5 is first described in the present invention group and second group of glass grinding seamed edge end face integral mechanism top view.

Fig. 6 is first described in the present invention group and second group of glass grinding seamed edge end face integral mechanism cross grinding assembly front view.

Fig. 7 is the left view of Fig. 6.

Fig. 8 is glass clamping device 700 front view described in the present invention.

Fig. 9 is the left view of Fig. 8.

Figure 10 is the glass clamping device 700 duty front view described in the present invention.

Figure 11 for the glass clamping device 700 described in the present invention with combination pallet 400 be fixedly connected with schematic diagram.

Figure 12 installs front view for group glass grinding seamed edge end face integral mechanism of first described in the present invention 500 and composite roof truss 61.

Figure 13 is the left view of Figure 12.

Figure 14 is step 1 schematic diagram of glass edging method of the present invention.

Figure 15 is step 2 schematic diagram of glass edging method of the present invention.

Figure 16 is step 3 schematic diagram of glass edging method of the present invention.

Figure 17 is step 4 schematic diagram of glass edging method of the present invention.

Detailed description of the invention

Below with reference to the accompanying drawings embodiments of the invention are described.The element described in an accompanying drawing of the present invention or a kind of embodiment and feature can combine with the element shown in one or more other accompanying drawings or embodiment and feature.It should be noted that for purposes of clarity, accompanying drawing and eliminate expression and the description of unrelated to the invention, parts known to persons of ordinary skill in the art or process in illustrating.

Below in conjunction with accompanying drawing, the present invention is described further.

Fig. 1 is horizontal glass straight-line four-side machine front view of the present invention, as shown in Figure 1, a kind of horizontal glass straight-line four-side edge polisher of the present invention, comprises the input system assembly 800 for inputting glass, for exporting the output system assembly 900 of glass, edging mechanism assembly, also comprise for control inputs system synthesis 800, the control circuit assembly of output system assembly 900 and the work of edging mechanism assembly, input system assembly 800, output system assembly 900 is arranged in turn, edging mechanism assembly is arranged on input system assembly and output system assembly, described edging mechanism assembly comprises first group of glass grinding seamed edge end face integral mechanism 500, edging mechanism rotary components, edging mechanism moves horizontally assembly, second group of glass grinding seamed edge end face integral mechanism 600, short-distance movement assembly and composite roof truss 61, wherein: first group of glass grinding seamed edge end face integral mechanism 500 moves horizontally assembly by edging mechanism rotary components and edging mechanism and composite roof truss 61 is slidably connected, second group of glass grinding seamed edge end face integral mechanism 600 is slidably connected by short-distance movement assembly and composite roof truss 61.

Fig. 2 is first described in the present invention group and second group of glass grinding seamed edge end face integral mechanism general assembly drawing, as shown in Figure 2, glass grinding seamed edge end face integral mechanism of the present invention comprises seamed edge grinding subassembly 100, lower seamed edge grinding subassembly 200, cross grinding assembly 300, combination pallet 400, wherein:

Described upper seamed edge grinding subassembly 100, lower seamed edge grinding subassembly 200 be arranged in parallel, and are installed on the bottom of combination pallet 400;

Described cross grinding assembly 300 and described upper seamed edge grinding subassembly 100 and lower seamed edge grinding subassembly 200 is vertical arranges, and be installed on the bottom of combination pallet 400.

Fig. 3 is seamed edge grinding subassembly and lower seamed edge grinding subassembly front view on first described in the present invention group and second group of glass grinding seamed edge end face integral mechanism, Fig. 4 is the left view of Fig. 3, Fig. 5 is first described in the present invention group and second group of glass grinding seamed edge end face integral mechanism top view, as Fig. 3, Fig. 4, shown in Fig. 5, the upper seamed edge grinding subassembly 100 of glass grinding seamed edge end face integral mechanism of the present invention comprises emery wheel feed arrangement, emery wheel whirligig in driving, upper emery wheel 20, upper abrasive wheel assembly fixed head 44, wherein:

Described upper emery wheel feed arrangement and the supporting installation of combination pallet 400; The bottom of described upper emery wheel feed arrangement and upper abrasive wheel assembly fixed head 44 fixture; In described driving, emery wheel whirligig is fixedly mounted on abrasive wheel assembly fixed head 44; Described upper emery wheel 20 fixedly mounts with driving upper emery wheel whirligig.

Described upper emery wheel feed arrangement comprises emery wheel feeding motor 15, upper emery wheel feed bar 49, upper emery wheel feeding bounce cylinder 2, upper emery wheel feeding plate 47; 1 preferably, also comprises emery wheel feeding sliding part 48, wherein:

Upper emery wheel feeding motor 15 is fixedly mounted on the side of combination pallet 400; Upper emery wheel feeding motor 15 coordinates with upper emery wheel feed bar 49 to be installed;

Upper emery wheel feed bar 49 coordinates with upper emery wheel feeding sliding part 48 to be installed; The two ends of upper emery wheel feeding sliding part 48 are slidably connected by bearing components and the upper emery wheel linear axis 25 on combination pallet 400, and upper emery wheel feeding sliding part 48 and upper emery wheel feeding bounce cylinder 2 fixedly mount; Cylinder rod and the upper emery wheel feeding plate 47 of upper emery wheel feeding bounce cylinder 2 fixedly mount; Upper emery wheel feeding plate 47 is slidably connected with the upper emery wheel sliding axle 25 of combination pallet 400, and the bottom of upper emery wheel feeding plate 47 is fixedly connected with upper abrasive wheel assembly fixed head 44.

In driving, emery wheel whirligig comprises emery wheel drive motors 4, upper emery wheel power driving module; Wherein:

Upper emery wheel drive motors 4 fixes 44 installations with upper abrasive wheel assembly fixed head; Upper emery wheel power driving module comprises emery wheel initiatively multi-wedge belt pulley 35, upper emery wheel polywedge bet 33, the driven multi-wedge belt pulley 32 of upper emery wheel;

The upper emery wheel active multi-wedge belt pulley 35 of upper emery wheel power driving module and upper abrasive wheel assembly fixed head 44 are installed to fix and coordinate with upper emery wheel drive motors 4 and are installed;

The driven multi-wedge belt pulley of upper emery wheel 32 of upper emery wheel power driving module is fixed with upper abrasive wheel assembly fixed head 44 and is coordinated with upper emery wheel 20 and installs.

The course of work of upper seamed edge grinding subassembly:

(1) driving of upper seamed edge grinding subassembly:

Upper emery wheel drive motors 4 works, emery wheel active multi-wedge belt pulley 35 is rotated, power is delivered to the driven multi-wedge belt pulley 32 of upper emery wheel by upper emery wheel polywedge bet 33, and power transmission is given upper emery wheel 20 by the driven multi-wedge belt pulley of upper emery wheel 32, makes emery wheel 20 carry out high-speed rotation.

(2) feeding of upper seamed edge grinding subassembly:

Upper emery wheel feeding motor 15 works, in driving, emery wheel feed bar 49 moves forward, and then the upper emery wheel feeding sliding part 48 of promotion moves forward along upper emery wheel linear axis 25, upper emery wheel feeding sliding part 48 is fixedly connected with upper emery wheel feeding bounce cylinder 2, emery wheel feeding bounce cylinder 2 is moved forward, the cylinder rod of upper emery wheel feeding bounce cylinder 2 is fixedly connected with upper emery wheel feeding plate 47, thus make to be fixedly mounted on emery wheel whirligig and upper emery wheel 20 in the driving bottom emery wheel feeding plate 47 and move forward, emery wheel 20 is made to touch the upper seamed edge of glass edge, and carry out the operation of seamed edge in grinding.

The lower seamed edge grinding subassembly of the glass grinding seamed edge end face integral mechanism described in the present invention comprises: lower emery wheel feed arrangement, drives lower emery wheel whirligig, lower emery wheel 21, lower abrasive wheel assembly fixed head 45, wherein:

Described lower emery wheel feed arrangement and the supporting installation of combination pallet 400; The bottom of described lower emery wheel feed arrangement and lower abrasive wheel assembly fixed head 45 fixture; Under described driving, emery wheel whirligig is fixedly mounted on lower abrasive wheel assembly fixed head 45; Described lower emery wheel 21 fixedly mounts with driving lower emery wheel whirligig.

Described lower emery wheel feed arrangement comprises lower emery wheel feeding motor 3, lower emery wheel feed bar 51, lower emery wheel feeding bounce cylinder 46, lower emery wheel feeding plate, preferably, also comprises lower emery wheel feeding sliding part 50, wherein:

Lower emery wheel feeding motor 3 is fixedly mounted on the side of combination pallet 400; Lower emery wheel feeding motor 3 coordinates with lower emery wheel feed bar 51 to be installed;

Lower emery wheel feed bar 51 coordinates with lower emery wheel feeding sliding part 50 to be installed; Lower emery wheel feeding sliding part 50 two ends are slidably connected by the lower emery wheel linear axis 53 of bearing with combination pallet 400, and lower emery wheel feeding sliding part 50 and lower emery wheel feeding bounce cylinder 46 fixedly mount; Cylinder rod and the lower emery wheel feeding plate of lower emery wheel feeding bounce cylinder 46 fixedly mount; Lower emery wheel feeding plate is slidably connected with the lower emery wheel sliding axle 53 of combination pallet 400, and the bottom of described lower emery wheel feeding plate is fixedly connected with lower abrasive wheel assembly fixed head 45.

Under described driving, emery wheel whirligig comprises lower emery wheel drive motors 31, lower emery wheel power driving module, wherein:

Described lower emery wheel drive motors 31 fixedly mounts with lower abrasive wheel assembly fixed head 45; Lower emery wheel power driving module comprises lower emery wheel initiatively multi-wedge belt pulley 34, lower emery wheel polywedge bet 23, the driven multi-wedge belt pulley 22 of lower emery wheel.

The lower emery wheel active multi-wedge belt pulley 34 of described lower emery wheel power driving module is fixed with lower abrasive wheel assembly fixed head 45 and is coordinated with lower emery wheel drive motors 31 and installs;

The driven multi-wedge belt pulley 22 of lower emery wheel of described lower emery wheel power driving module is fixed with lower abrasive wheel assembly fixed head 45 and is coordinated with lower emery wheel 21 and installs.

The course of work of lower seamed edge grinding subassembly:

(1) driving of seamed edge grinding subassembly under:

Lower emery wheel drive motors 31 works, lower emery wheel active multi-wedge belt pulley 34 is rotated, power is delivered to the driven multi-wedge belt pulley 22 of lower emery wheel by lower emery wheel polywedge bet 23, and power transmission is given lower emery wheel 22 by the driven multi-wedge belt pulley of lower emery wheel 22, makes lower emery wheel 22 carry out high-speed rotation.

(2) feeding of seamed edge grinding subassembly under:

Lower emery wheel feeding motor 3 works, lower emery wheel feed bar 51 is driven to move forward, and then emery wheel feeding sliding part 50 moves forward along lower emery wheel linear axis 53 under promoting, lower emery wheel feeding sliding part 50 is fixedly connected with lower emery wheel feeding bounce cylinder 46, lower emery wheel feeding bounce cylinder 46 is moved forward, the cylinder rod of lower emery wheel feeding bounce cylinder 46 is fixedly connected with lower emery wheel feeding plate, thus under making to be fixedly mounted on the driving bottom lower emery wheel feeding plate, emery wheel whirligig and lower emery wheel 21 move forward, and make lower emery wheel 21 touch the lower seamed edge of glass edge.And the operation of seamed edge under carrying out grinding

Fig. 6 is first described in the present invention group and second group of glass grinding seamed edge end face integral mechanism cross grinding assembly front view, and Fig. 7 is the left view of Fig. 6; As shown in Figure 6, Figure 7, the cross grinding assembly of the glass grinding seamed edge end face integral mechanism described in the present invention comprises faced grinding wheel assembly fixed head 43, faced grinding wheel feed arrangement, Driving plane emery wheel whirligig, Driving plane emery wheel whirligig fixed head 41, faced grinding wheel 19; Wherein:

Described faced grinding wheel assembly fixed head 43 fixedly mounts with described combination pallet 400; One end of faced grinding wheel feed arrangement and the bottom of faced grinding wheel assembly fixed head 43 are installed fixing; The other end and the Driving plane emery wheel whirligig fixed head 41 of faced grinding wheel feed arrangement fixedly mount; Driving plane emery wheel whirligig is fixedly mounted on Driving plane emery wheel whirligig fixed head 41; Faced grinding wheel 19 and Driving plane emery wheel whirligig fixedly mount.

Described faced grinding wheel feed arrangement comprises Pivoting bearing component, faced grinding wheel feeding power assembly; Wherein: Pivoting bearing component comprises Pivoting bearing fixed head 39, Pivoting bearing 16, Pivoting bearing driver plate 40, one end of described Pivoting bearing fixed head 39 is fixedly connected with faced grinding wheel assembly fixed head 43; The other end and the Pivoting bearing 16 of described Pivoting bearing fixed head 39 hold to coordinate to be installed; One end of Pivoting bearing driver plate 40 coordinates with Pivoting bearing 16 installs; The other end of Pivoting bearing driver plate 40 is fixedly connected with Driving plane emery wheel whirligig fixed head 41.

Faced grinding wheel feeding power assembly comprises faced grinding wheel feeder assembly fixed bar 42, faced grinding wheel feeding cylinder 11, faced grinding wheel bounce cylinder 10;

One end and the faced grinding wheel assembly fixed head 43 of described faced grinding wheel feeder assembly fixed bar 42 fixedly mount; The other end of described faced grinding wheel feeder assembly fixed bar 42 and the cylinder rod axle of faced grinding wheel feeding cylinder 11 are dynamically connected;

Described faced grinding wheel feeding cylinder 11 fixedly mounts with faced grinding wheel bounce cylinder 10; Cylinder rod and Driving plane emery wheel whirligig fixed head 41 axle of faced grinding wheel bounce cylinder 10 are dynamically connected.

Described Driving plane emery wheel whirligig comprises faced grinding wheel motor 12, faced grinding wheel power driving module; Faced grinding wheel motor 12 is fixed on Driving plane emery wheel whirligig fixed head 41;

Faced grinding wheel power driving module comprises faced grinding wheel initiatively multi-wedge belt pulley 54, faced grinding wheel polywedge bet 13, the driven multi-wedge belt pulley 14 of faced grinding wheel;

The active multi-wedge belt pulley 54 of faced grinding wheel power driving module is fixed with Driving plane emery wheel whirligig fixed head 41 and is coordinated with faced grinding wheel motor 12 and installs;

The driven multi-wedge belt pulley 14 of faced grinding wheel of faced grinding wheel power driving module is fixed with Driving plane emery wheel whirligig fixed head 41 and is coordinated with faced grinding wheel 19 and installs.

The course of work of cross grinding assembly is:

(1) driving of cross grinding assembly:

Faced grinding wheel motor 12 works, faced grinding wheel active multi-wedge belt pulley 54 is rotated, power is delivered to the driven multi-wedge belt pulley 14 of faced grinding wheel by faced grinding wheel polywedge bet 13, and power transmission to faced grinding wheel 19, makes faced grinding wheel 19 carry out High Rotation Speed by the driven multi-wedge belt pulley 14 of faced grinding wheel.

(2) feeding of cross grinding assembly:

Faced grinding wheel feeding cylinder 11 works, because faced grinding wheel feeder assembly fixed bar 42 and faced grinding wheel assembly fixed head 43 are installed fixing, under the promotion of cylinder rod, faced grinding wheel feeding cylinder 11 and faced grinding wheel bounce cylinder 10 move forward, to Driving plane emery wheel whirligig fixed head 41 applied thrust; Again because Pivoting bearing component is fixedly connected with Driving plane emery wheel whirligig fixed head 41, therefore Driving plane emery wheel whirligig fixed head 41 is under the promotion of faced grinding wheel feeding cylinder 11, to do with Pivoting bearing 16 be the center of circle, and axle moves, make to be arranged on faced grinding wheel drive unit on Driving plane emery wheel whirligig fixed head 41 and faced grinding wheel 19 moves forward, make faced grinding wheel 19 touch the end face of glass edge, and carry out the operation of grinding glass end face.

The course of work of the glass grinding seamed edge end face integral mechanism described in the present invention is:

When glass 9 is sent to the position of distance glass grinding seamed edge end face integral mechanism about 10mm by transmission equipment, transmission equipment stops transmitting, glass is made to stop at this position, then the cross grinding assembly on glass grinding seamed edge end face integral mechanism carries out driving and feeding operation successively, and faced grinding wheel 19 is polished the end face of glass edge; Then go up seamed edge grinding subassembly and carry out driving and feeding operation successively, emery wheel 20 is polished the upper seamed edge of glass edge, and then descend seamed edge grinding subassembly to carry out successively operating into driving and feeding, emery wheel 21 is polished the lower seamed edge of glass.

After each emery wheel all touches glass and starts polishing, glass grinding seamed edge end face integral mechanism is along this glass edge uniform motion, or glass grinding seamed edge end face integral mechanism maintains static, glass at the uniform velocity moves, and the rib up and down of this seamed edge and end face just can be made synchronously to complete polishing.

Fig. 8 is glass clamping device 700 front view described in the present invention, Fig. 9 is the left view of Fig. 8, as shown in Figure 8,9, a kind of glass clamping device 700 shown in the present invention, comprises the subiculum assembly for holding up glass from bottom to top, for extruding the upper pressure assembly of glass from the top down, power set, preferably, also comprise grip slipper 54, wherein:

Described pop-up assembly, presses down assembly and is fixedly connected on grip slipper 54 respectively; Described subiculum assembly comprises subiculum cylinder 5, hinge axis bearing member 55, lower tugboat 8, wherein: described subiculum cylinder 5 is dynamically connected with described grip slipper 54 axle, the cylinder rod of subiculum cylinder 5 is connected by hinge axis bearing member 55 and lower tugboat 8, and preferably, the Pivoting bearing 17 of hinge axis bearing member 55 is fixedly mounted on grip slipper 54.

Described upper pressure assembly comprises air cylinder 6 and upper pressure wheel 7, wherein:

Upper air cylinder 6 is fixedly connected with grip slipper 54, and cylinder rod and the upper pressure wheel 7 of upper air cylinder 6 are connected.

The course of work of the clamping device of glass described in the present invention 700 is:

As shown in Figure 8, when glass 9 is transported to glass clamping device 700 position by outside transmission mechanism 18, namely upper pressure wheel 6 is in the top of glass, lower tugboat 8 is positioned at the below of glass, subiculum cylinder 5 and upper air cylinder 6 work simultaneously, respective cylinder rod is released respectively, the cylinder rod of subiculum cylinder 5 is released, hinge axis bearing member 55 is made to occur to move with the axle that Pivoting bearing 17 is the center of circle, thus make to coordinate with the other end of hinge axis bearing member 55 peace to hold tugboat 8 and move up, lower tugboat 8 is caused to touch the lower surface of glass and produce picking-up power upwards to glass, the cylinder rod of upper air cylinder 6 is released, and the upper pressure wheel 7 coordinating with it installation is moved down, causes upper pressure wheel 7 touch the upper surface of glass and produce downward extruding force to glass, upper lower whorl touches glass simultaneously, now just glass is produced to the effect of clamping, as shown in Figure 10.

Figure 11 for the glass clamping device 700 described in the present invention with combination pallet 400 be fixedly connected with schematic diagram, as shown in Fig. 1 and 11, first group of described glass grinding seamed edge end face integral mechanism 500 is fixedly connected with grip slipper 54 described in glass clamping device 700 with the combination pallet 400 on second group of glass grinding seamed edge end face integral mechanism 600;

Described glass clamping device is arranged on glass edging equipment, plays a part to grip in the glass edging equipment course of work to glass, can effectively reduce the concussion of glass self in the process of polishing glass edge, improves the yield rate of glass processing.

Figure 12 installs front view for group glass grinding seamed edge end face integral mechanism of first described in the present invention 500 and composite roof truss 61, Figure 13 is the left view of Figure 12, as shown in Fig. 1 and 12,13, described first group of glass grinding seamed edge end face integral mechanism 500 top is fixedly connected with edging mechanism rotary components and edging mechanism moves horizontally assembly, wherein:

Described edging mechanism rotary components comprises edging mechanism electric rotating machine 1, the pinion 56 in mating connection with edging mechanism electric rotating machine 1, edging mechanism swing pinion 57, edging mechanism rotating shaft 58, edging mechanism rotary components fixed head 59; Pinion 56 and edging mechanism swing pinion 57 are connected, and edging mechanism swing pinion 57 is fixedly connected with first group of glass grinding seamed edge end face integral mechanism 500 by edging mechanism rotating shaft 58;

Described edging mechanism rotary components fixed head 59 is slidably connected with edging mechanism swing pinion 57;

Described edging mechanism moves horizontally assembly and comprises Timing Belt drive motors 60, Timing Belt 24, slide rail 27, wherein:

Described Timing Belt drive motors 60 is connected with the synchronous pulley of Timing Belt 24, and Timing Belt 24 is by being fixedly connected with edging mechanism rotary components fixed head 59;

Described edging mechanism rotary components fixed head 59 is slidably connected by slide rail 27 and composite roof truss 61.

The axial rotation course of work of described first group of glass grinding seamed edge end face integral mechanism 500 is:

Edging mechanism electric rotating machine 1 works, the pinion 56 being mated connection is driven to rotate, and then drive edging mechanism swing pinion 57 to rotate, thus the first group of glass grinding seamed edge end face integral mechanism 500 be fixedly connected with edging mechanism rotating shaft 58 is made to produce axial rotation.

The course of work that moves horizontally of described first group of glass grinding seamed edge end face integral mechanism 500 is:

Timing Belt drive motors 60 works, drive and coordinate the Timing Belt 24 installed to produce with synchronous pulley to move horizontally, thus pull the edging mechanism rotary components fixed head 59 be fixedly connected with Timing Belt 24 to move horizontally along slide rail 27, cause first group of glass grinding seamed edge end face integral mechanism 500 to produce and move horizontally.

Fig. 1 is horizontal glass straight-line four-side machine front view of the present invention, and as shown in fig. 1, second group of described glass grinding seamed edge end face integral mechanism 600 is slidably connected by short-distance movement assembly and composite roof truss 61.

Described short-distance movement assembly comprises short-distance movement and drives cylinder 62, short-distance movement fixed head 63, fixed axis 64, wherein:

Short-distance movement drives cylinder 62 to be fixedly connected on composite roof truss 61, and short-distance movement drives the cylinder rod of cylinder 62 to be fixedly connected with short-distance movement fixed head 63; Short-distance movement fixed head 63 is fixedly connected with second group of glass grinding seamed edge end face integral mechanism 600 by fixed axis 64.

The course of work of second group of glass grinding seamed edge end face integral mechanism 600 is:

Short-distance movement drives cylinder 62 to work, and cylinder rod promotes the short-distance movement fixed head 63 outwards movement be fixedly connected with it, thus makes second group of glass grinding seamed edge end face integral mechanism 600 produce outside translational motion.

The invention still further relates to a kind of glass edging method adopting above-mentioned horizontal glass straight-line four-side edge polisher, further illustrate the course of work of described horizontal glass straight-line four-side edge polisher below in conjunction with this glass edging method:

(1) Figure 14 is step 1 schematic diagram of glass edging method of the present invention, as shown in figure 14, when glass is transported to edging mechanism assembly position by input system assembly 800, input system assembly 800 quits work, first group of glass grinding seamed edge end face integral mechanism 500 moves horizontally along composite roof truss 61, the first limit 101 of polishing glass.

(2) Figure 15 is step 2 schematic diagram of glass edging method of the present invention, as shown in figure 15, first group of glass grinding seamed edge end face integral mechanism 500 half-twist, input system assembly 800 works, while glass is fed forward, first group of glass grinding seamed edge end face integral mechanism 500 and second group of glass grinding seamed edge end face integral mechanism 600 work simultaneously, the Second Edge 102 of polishing glass and the 4th limit 104.

(3) Figure 16 is step 3 schematic diagram of glass edging method of the present invention, as shown in figure 16, input system assembly 800 quits work, and first group of glass grinding seamed edge end face integral mechanism 500 half-twist, second group of glass grinding seamed edge end face integral mechanism 600 departs from glass.

(4) Figure 17 is step 4 schematic diagram of glass edging method of the present invention, as shown in figure 17, first group of glass grinding seamed edge end face integral mechanism 500 moves horizontally along composite roof truss 61,3rd limit 103 of polishing glass, output system assembly 900 work has exported the glass of four limit polishings.

Glass grinding seamed edge end face integral mechanism in horizontal glass straight-line four-side edge polisher of the present invention can synchronously be polished the seamed edge up and down on each limit of glass and end face, the setting of clamping device, effectively can reduce the vibrations of glass self, the four edges of glass once all can be completed polishing by described glass edging method, horizontal glass straight-line four-side edge polisher of the present invention and glass edging method can reduce equipment cost and human cost effectively, improving the efficiency of glass edge processing greatly, is the Quality-Technology scheme of glass edging processing.

Although described the present invention and advantage thereof in detail, be to be understood that and can have carried out various change when not exceeding the spirit and scope of the present invention limited by appended claim, substituting and conversion.And the scope of the application is not limited only to the specific embodiment of process, equipment, means, method and step described by description.One of ordinary skilled in the art will readily appreciate that from disclosure of the present invention, can use perform the function substantially identical with corresponding embodiment described herein or obtain and its substantially identical result, existing and that will be developed in the future process, equipment, means, method or step according to the present invention.Therefore, appended claim is intended to comprise such process, equipment, means, method or step in their scope.

Claims (15)

1. a horizontal glass straight-line four-side edge polisher, comprise the input system assembly (800) for inputting glass, for exporting the output system assembly (900) of glass, edging mechanism assembly, for control inputs system synthesis (800), the control circuit assembly of output system assembly (900) and the work of edging mechanism assembly, input system assembly (800), output system assembly (900) is arranged in turn, edging mechanism assembly is arranged on input system assembly and output system assembly, it is characterized in that: described edging mechanism assembly comprises first group of glass grinding seamed edge end face integral mechanism (500), edging mechanism rotary components, edging mechanism moves horizontally assembly, second group of glass grinding seamed edge end face integral mechanism (600), short-distance movement assembly and composite roof truss (61), wherein: first group of glass grinding seamed edge end face integral mechanism (500) moves horizontally assembly by edging mechanism rotary components and edging mechanism and composite roof truss (61) is slidably connected, second group of glass grinding seamed edge end face integral mechanism (600) is slidably connected by short-distance movement assembly and composite roof truss (61),

Described first group of glass grinding seamed edge end face integral mechanism (500) and second group of glass grinding seamed edge end face integral mechanism (600) include seamed edge grinding subassembly (100), lower seamed edge grinding subassembly (200), cross grinding assembly (300), combination pallet (400), wherein:

Described upper seamed edge grinding subassembly (100), lower seamed edge grinding subassembly (200) be arranged in parallel, and are installed on the bottom of combination pallet (400);

Described cross grinding assembly (300) and described upper seamed edge grinding subassembly (100) and lower seamed edge grinding subassembly (200) is vertical arranges, and be installed on the bottom of combination pallet (400).

2. horizontal glass straight-line four-side edge polisher according to claim 1, it is characterized in that: described upper seamed edge grinding subassembly (100) comprises emery wheel feed arrangement, emery wheel whirligig in driving, upper emery wheel (20), upper abrasive wheel assembly fixed head (44), wherein:

Described upper emery wheel feed arrangement and combination pallet (400) supporting installation;

The bottom of described upper emery wheel feed arrangement and upper abrasive wheel assembly fixed head (44) fixture;

In described driving, emery wheel whirligig is fixedly mounted on abrasive wheel assembly fixed head (44);

Described upper emery wheel (20) fixedly mounts with driving upper emery wheel whirligig.

3. horizontal glass straight-line four-side edge polisher according to claim 2, it is characterized in that: described upper emery wheel feed arrangement comprises emery wheel feeding motor (15), upper emery wheel feed bar (49), upper emery wheel feeding bounce cylinder (2), upper emery wheel feeding plate (47); Wherein:

Described upper emery wheel feeding motor (15) is fixedly connected with combination pallet (400);

Described upper emery wheel feeding motor (15) is fixedly connected with upper emery wheel feeding bounce cylinder (2) by upper emery wheel feed bar (49);

Cylinder rod and the upper emery wheel feeding plate (47) of described upper emery wheel feeding bounce cylinder (2) fixedly mount;

Described upper emery wheel feeding plate (47) is slidably connected with combination pallet (400);

The bottom of described upper emery wheel feeding plate (47) is fixedly connected with upper abrasive wheel assembly fixed head (44).

4. the horizontal glass straight-line four-side edge polisher according to Claims 2 or 3, is characterized in that: in driving, emery wheel whirligig comprises emery wheel drive motors (4), upper emery wheel power driving module, wherein:

Described upper emery wheel drive motors (4) and upper abrasive wheel assembly fixed head (44) fixedly mount;

Described upper emery wheel power driving module is fixedly connected with upper abrasive wheel assembly fixed head (44);

Described upper emery wheel drive motors (4) to be coordinated with upper emery wheel (20) by upper emery wheel power driving module installs.

5. horizontal glass straight-line four-side edge polisher according to claim 1, it is characterized in that: described lower seamed edge grinding subassembly comprises: lower emery wheel feed arrangement, drive lower emery wheel whirligig, lower emery wheel (21), lower abrasive wheel assembly fixed head (45), wherein:

Described lower emery wheel feed arrangement and combination pallet (400) supporting installation;

The bottom of described lower emery wheel feed arrangement and lower abrasive wheel assembly fixed head (45) fixture;

Under described driving, emery wheel whirligig is fixedly mounted on lower abrasive wheel assembly fixed head (45);

Described lower emery wheel (21) fixedly mounts with driving lower emery wheel whirligig.

6. horizontal glass straight-line four-side edge polisher according to claim 5, it is characterized in that: described lower emery wheel feed arrangement comprises lower emery wheel feeding motor (3), lower emery wheel feed bar (51), lower emery wheel feeding bounce cylinder (46), lower emery wheel feeding plate; Wherein:

Described lower emery wheel feeding motor (3) is fixedly connected with combination pallet (400);

Described lower emery wheel feeding motor (3) is fixedly connected with lower emery wheel feeding bounce cylinder (46) by lower emery wheel feed bar (51);

Cylinder rod and the lower emery wheel feeding plate of described lower emery wheel feeding bounce cylinder (46) fixedly mount;

Described lower emery wheel feeding plate is slidably connected with combination pallet (400);

The bottom of described lower emery wheel feeding plate is fixedly connected with lower abrasive wheel assembly fixed head (45).

7. the horizontal glass straight-line four-side edge polisher according to claim 5 or 6, is characterized in that: drive lower emery wheel whirligig to comprise lower emery wheel drive motors (31), lower emery wheel power driving module, wherein:

Described lower emery wheel drive motors (31) and lower abrasive wheel assembly fixed head (45) fixedly mount;

Described lower emery wheel power driving module is fixedly connected with lower abrasive wheel assembly fixed head (45);

Described lower emery wheel drive motors (31) to be coordinated with lower emery wheel (21) by lower emery wheel power driving module installs.

8. the horizontal glass straight-line four-side edge polisher according to claim 1,2,5 any one, it is characterized in that: cross grinding assembly (300) comprises faced grinding wheel assembly fixed head (43), faced grinding wheel feed arrangement, Driving plane emery wheel whirligig, Driving plane emery wheel whirligig fixed head (41), faced grinding wheel (19); Wherein:

Described faced grinding wheel assembly fixed head (43) and described combination pallet (400) fixedly mount;

One end of faced grinding wheel feed arrangement and the bottom of faced grinding wheel assembly fixed head (43) are installed fixing;

The other end and Driving plane emery wheel whirligig fixed head (41) of faced grinding wheel feed arrangement fixedly mount;

Driving plane emery wheel whirligig is fixedly mounted on Driving plane emery wheel whirligig fixed head (41);

Faced grinding wheel (19) and Driving plane emery wheel whirligig fixedly mount.

9. horizontal glass straight-line four-side edge polisher according to claim 8, is characterized in that: described faced grinding wheel feed arrangement comprises Pivoting bearing component, faced grinding wheel feeding power assembly; Wherein:

Described faced grinding wheel assembly fixed head (43) is installed fixing by Pivoting bearing component and Driving plane emery wheel whirligig fixed head (41);

Faced grinding wheel feeding power assembly comprises faced grinding wheel feeder assembly fixed bar (42), faced grinding wheel feeding cylinder (11);

Faced grinding wheel assembly fixed head (43) is dynamically connected by faced grinding wheel feeder assembly fixed bar (42) and faced grinding wheel feeding cylinder (11) axle;

The other end and Driving plane emery wheel whirligig fixed head (41) axle of described faced grinding wheel feeding cylinder (11) are dynamically connected.

10. horizontal glass straight-line four-side edge polisher according to claim 8, is characterized in that:

Described Driving plane emery wheel whirligig comprises faced grinding wheel motor (12), faced grinding wheel power driving module;

Described faced grinding wheel motor (12) is fixed on Driving plane emery wheel whirligig fixed head (41);

Described faced grinding wheel power driving module is fixedly connected with Driving plane emery wheel whirligig fixed head (41);

Described faced grinding wheel motor (12) to be coordinated with faced grinding wheel (19) by faced grinding wheel power driving module installs.

11. horizontal glass straight-line four-side edge polishers according to claim 1, is characterized in that:

First group of described glass grinding seamed edge end face integral mechanism (500) and second group of glass grinding seamed edge end face integral mechanism (600) have at least on one group and are provided with glass clamping device (700);

Described glass clamping device (700) comprises the subiculum assembly for holding up glass from bottom to top, for extruding the upper pressure assembly of glass from the top down, grip slipper (54), wherein:

Described pop-up assembly, presses down assembly and is fixedly connected with described grip slipper (54) respectively.

12. horizontal glass straight-line four-side edge polishers according to claim 1, it is characterized in that: described first group of glass grinding seamed edge end face integral mechanism (500) top is fixedly connected with described edging mechanism rotary components and edging mechanism moves horizontally assembly, wherein:

Described edging mechanism rotary components comprises edging mechanism electric rotating machine (1), the pinion (56) in mating connection with edging mechanism electric rotating machine (1), edging mechanism swing pinion (57), edging mechanism rotating shaft (58), edging mechanism rotary components fixed head (59); Pinion (56) and edging mechanism swing pinion (57) are connected, and edging mechanism swing pinion (57) is fixedly connected with first group of glass grinding seamed edge end face integral mechanism (500) by edging mechanism rotating shaft (58);

Described edging mechanism rotary components fixed head (59) and edging mechanism swing pinion (57) are slidably connected;

Described edging mechanism moves horizontally assembly and comprises Timing Belt drive motors (60), Timing Belt (24), slide rail (27), wherein:

Described Timing Belt drive motors (60) is connected with the synchronous pulley of Timing Belt (24), and Timing Belt (24) is by being fixedly connected with edging mechanism rotary components fixed head (59);

Described edging mechanism rotary components fixed head (59) is slidably connected by slide rail (27) and composite roof truss (61).

13. horizontal glass straight-line four-side edge polishers according to claim 1 or 12, is characterized in that: second group of described glass grinding seamed edge end face integral mechanism (600) top is provided with described short-distance movement assembly; Second group of described glass grinding seamed edge end face integral mechanism (600) is slidably connected by short-distance movement assembly and composite roof truss (61);

Described short-distance movement assembly comprises short-distance movement and drives cylinder (62), short-distance movement fixed head (63), fixed axis (64), wherein:

Short-distance movement drives cylinder (62) to be fixedly connected on composite roof truss (61), and short-distance movement drives the cylinder rod of cylinder (62) to be fixedly connected with short-distance movement fixed head (63);

Short-distance movement fixed head (63) is fixedly connected with second group of glass grinding seamed edge end face integral mechanism (600) by fixed axis (64).

14. horizontal glass straight-line four-side edge polishers according to claim 1,2,3,5,6,9,10,11,12 any one, it is characterized in that: described input system assembly (800), output system assembly (900) is the suctorial Timing Belt of motor-driven band and live-roller transmission equipment, Timing Belt and live-roller transmission equipment, with any one in suctorial Timing Belt transmission equipment, Timing Belt transmission equipment.

Horizontal glass straight-line four-side edge polisher described in 15. employing claim 1-14 any one, to the method for glass edging, is characterized in that comprising the steps:

(1) when glass is transported to edging mechanism assembly position by input system assembly (800), input system assembly (800) quits work, first group of glass grinding seamed edge end face integral mechanism (500) moves horizontally along composite roof truss (61), first limit (101) of polishing glass;

(2) first groups of glass grinding seamed edge end face integral mechanism (500) half-twists, input system assembly (800) works, while glass is fed forward, first group of glass grinding seamed edge end face integral mechanism (500) and second group of glass grinding seamed edge end face integral mechanism (600) work simultaneously, the Second Edge (102) of polishing glass and the 4th limit (104);

(3) input system assembly (800) quits work, first group of glass grinding seamed edge end face integral mechanism (500) half-twist, and second group of glass grinding seamed edge end face integral mechanism (600) departs from glass;

(4) first groups of glass grinding seamed edge end faces integral mechanism (500) move horizontally along composite roof truss (61), 3rd limit (103) of polishing glass, output system assembly (900) work has exported the glass of four limit polishings.