CN204097313U - A kind of ultra-thin glass edge machine - Google Patents

Abstract

A kind of ultra-thin glass edge machine, be provided with crossbeam, crossbeam comprises beam body and guide rail, beam body is connected with guide rail, the two ends of beam body respectively with rotating mechanism and swinging mechanism hinged, rotating mechanism is arranged on supporting beam, swinging mechanism is suspended on tooth bar beam, horizontal running mechanism is suspended on guide rail, and cooling water pipeline is connected with machine lever apparatus, and electrical control system is electrically connected with swinging mechanism, horizontal running mechanism and swinging transmission mechanism drive-motor; The beam body of crossbeam is formed by fixedly connecting up and down by two rectangular pipes, and guide rail is fixed on the both sides, lower end of T-type structure lower rectangular pipe, and the fuselage transverse width be made up of horizontal running mechanism, elevating drive mechanism, swinging transmission mechanism and machine lever apparatus is 200 to 300mm.The utility model can under the condition meeting fuselage thinner thickness, ensures the stability of fuselage, improves the quality product of producing ultra-thin glass, and manufactures, installs simple, and be easy to safeguard, cost is low.

Description

A kind of ultra-thin glass edge machine

Technical field

The utility model relates to a kind of float glass equipment, particularly relates to a kind of ultra-thin glass edge machine.

Background technology

Edge machine is the nucleus equipment of float glass, and a plurality of edge machine symmetry is suspended in the frame of melting furnaces molten tin bath both sides, carries out drawing thus produce glass by the edge wheel of edge machine to the glass solution on tin face.

The fuselage thickness producing the edge machine of traditional glass is all greater than 400mm, but along with the increase of the electronic glass demands such as various liquid crystal displays, edge machine requires that the drawing (glass of thickness 0.3mm to 1mm is ultra-thin glass) being used to super-thin electronic glass is produced, for ensureing that the thickness of glass that drawing goes out meets ultra-thin requirement, the edge machine that manufacturing technique requirent is arranged in unit length is more intensive, require beating or vibrating less of edge wheel simultaneously, so that edge wheel is when drawing glass, reduce the impact of edge wheel vibration on the percent ripple of ultra-thin glass.Traditional edge machine is greater than 400mm due to fuselage thickness, cannot adapt to the production of super-thin electronic glass.

In addition because the type edge machine must have ultra-thin fuselage (fuselage thickness is between 200 to 300mm), edge wheel requires again very high operation stability (edge wheel diameter run-out is less than 0.10mm) in operation process simultaneously, therefore edge machine is being manufactured, accuracy requirement in installment and debugging in process is very high, this is also for the improvement of traditional edge machine adds difficulty, how crossbeam as edge machine constructs guarantee when reduced width, improve the stability of fuselage, if draw the water-cooled tube of side rod inside to arrange, guarantee inner conduit does not produce vibration effect to the rotation of edge wheel.Also there is no such edge machine in the world at present.

Utility model content

In order to solve the problems of the technologies described above, the utility model provides a kind of ultra-thin glass edge machine, while the thickness requirement of the fuselage proposed with satisfied production super-thin electronic glass manufacture novel process, meets again the requirement of edge wheel operation stability.

The utility model is for solve the problems of the technologies described above and the technical scheme adopted is: a kind of ultra-thin glass edge machine, be arranged on the side of melting furnaces, comprise rotating mechanism, horizontal running mechanism, elevating drive mechanism, swinging transmission mechanism, swinging mechanism, crossbeam, machine lever apparatus, cooling water pipeline and electrical control system;

Described crossbeam comprises beam body and guide rail, beam body is fixedly connected with guide rail, the two ends of beam body respectively with rotating mechanism and swinging mechanism hinged, rotating mechanism is arranged on the supporting beam of melting furnaces, swinging mechanism is suspended on the tooth bar beam of the base rack of melting furnaces side, swinging mechanism drives crossbeam around rotating mechanism horizontal hunting, horizontal running mechanism, elevating drive mechanism, swinging transmission mechanism and machine lever apparatus are fixedly connected sequentially, horizontal running mechanism is suspended on guide rail by roller, horizontal running mechanism is at slide on rails, cooling water pipeline is connected with machine lever apparatus, electrical control system and swinging mechanism, the drive-motor of horizontal running mechanism and swinging transmission mechanism three is electrically connected respectively,

The beam body of described crossbeam is the T-type structure be formed by fixedly connecting up and down by two rectangular pipes, guide rail is fixed on the both sides, lower end of T-type structure lower rectangular pipe, and the fuselage transverse width be made up of horizontal running mechanism, elevating drive mechanism, swinging transmission mechanism and machine lever apparatus is 200 to 300mm.

Further, the mode that two rectangular pipes forming beam body are connected by welding or screw is fixed together.

Further, described guide rail is fixedly connected on the both sides, lower end of lower rectangular pipe by the mode that welding or screw connect.

Further, described machine lever apparatus comprises watercooling jacket, inner conduit, draws side rod, edge wheel, swivel joint and rotating driving device, watercooling jacket two ends endoporus is provided with bearing, side rod is drawn to be arranged in watercooling jacket by bearing, side rod two ends are drawn to be fixedly connected with swivel joint and edge wheel respectively, inner conduit is located at and draws in side rod, its one end is connected with swivel joint, the other end stretches in the water-in of edge wheel, rotating driving device drives and draws side rod to rotate, and inner conduit is fixedly connected with the described side rod that draws.

Further, draw side rod to be fixedly connected with swivel joint by adapter sleeve, the endoporus of adapter sleeve is fixedly connected with inner conduit by key, and inner conduit outer wall is also welded with a plurality of for supporting the support bar drawing side rod inwall.

Beneficial effect:

1, the beam of crossbeam is as the T-type structure be formed by fixedly connecting up and down by two rectangular pipes, realizing under fuselage thickness is only 200 to 300mm situation, intensity and the rigidity of crossbeam can be ensured, substantially increase the stability of fuselage, reduce because of the unstable impact on edge wheel running precision of fuselage, and manufacture, install simply, be easy to safeguard, cost is low;

2, the inner conduit of machine lever apparatus and the mode of drawing side rod to adopt key to be connected by adapter sleeve, make inner conduit and draw side rod without relative rotary motion, avoid the friction of inner conduit and edge machine, not only further increase the stability of fuselage, and also improve the running accuracy of edge wheel.

3, the ultra-thin glass percent ripple using this edge machine to make to produce reduces greatly, improves the quality product of ultra-thin glass.

Accompanying drawing explanation

Fig. 1 is one-piece construction schematic diagram of the present utility model.

Fig. 2 is the A-A sectional view of Fig. 1.

Fig. 3 is the structural representation of machine lever apparatus.

In figure, 1, rotating mechanism, 2, horizontal running mechanism, 3, elevating drive mechanism, 4, swinging transmission mechanism, 5, machine lever apparatus, 501, watercooling jacket, 502, inner conduit, 503, draw side rod, 504, edge wheel, 505, swivel joint, 506, rotating driving device, 507, adapter sleeve, 6, cooling water pipeline, 7, electrical control system, 8, crossbeam, 801, beam body, 802, guide rail, 9, swinging mechanism.

Embodiment

Below in conjunction with the drawings and specific embodiments, concrete detailed description is further done to the utility model.

As shown in the figure, a kind of ultra-thin glass edge machine, is arranged on the side of melting furnaces, comprises rotating mechanism 1, horizontal running mechanism 2, elevating drive mechanism 3, swinging transmission mechanism 4, swinging mechanism 9, crossbeam 8, machine lever apparatus 5, cooling water pipeline 6 and electrical control system 7;

Described crossbeam 8 comprises beam body 801 and guide rail 802, beam body 801 is fixedly connected with guide rail 802, the two ends of beam body 801 respectively with rotating mechanism 1 and swinging mechanism 9 hinged, rotating mechanism 1 is arranged on the supporting beam of melting furnaces, swinging mechanism 9 is suspended on the tooth bar beam of the base rack of melting furnaces side, swinging mechanism 9 drives crossbeam 8 around rotating mechanism 1 horizontal hunting, horizontal running mechanism 2, elevating drive mechanism 3, swinging transmission mechanism 4 and machine lever apparatus 5 are fixedly connected sequentially, horizontal running mechanism 2 is suspended on guide rail 802 by roller, horizontal running mechanism 2 slides on guide rail 802, cooling water pipeline 6 is connected with machine lever apparatus 5, electrical control system 7 and swinging mechanism 9, the drive-motor of horizontal running mechanism 2 and swinging transmission mechanism 4 three is electrically connected respectively,

The beam body 801 of described crossbeam 8 is the T-type structures be formed by fixedly connecting up and down by two rectangular pipes, guide rail 802 is fixed on the both sides, lower end of T-type structure lower rectangular pipe, and the fuselage transverse width be made up of horizontal running mechanism 2, elevating drive mechanism 3, swinging transmission mechanism 4 and machine lever apparatus 5 is 200 to 300mm.

The mode that two rectangular pipes forming beam body 801 are connected by welding or screw is fixed together.

Described guide rail 802 is fixedly connected on the both sides, lower end of lower rectangular pipe by the mode that welding or screw connect.

Described machine lever apparatus 5 comprises watercooling jacket 501, inner conduit 502, draw side rod 503, edge wheel 504, swivel joint 505 and rotating driving device 506, watercooling jacket 501 two ends endoporus is provided with bearing, side rod 503 is drawn to be arranged in watercooling jacket 501 by bearing, side rod 503 two ends are drawn to be fixedly connected with swivel joint 505 and edge wheel 504 respectively, inner conduit 502 is located at and draws in side rod, its one end is connected with swivel joint 505, the other end stretches in the water-in of edge wheel 504, rotating driving device 506 drives and draws side rod 503 to rotate, inner conduit 502 is fixedly connected with the described side rod 503 that draws.

Draw side rod 503 to be fixedly connected with swivel joint 505 by adapter sleeve 507, the endoporus of adapter sleeve 507 is fixedly connected with inner conduit 502 by key, and inner conduit 502 outer wall is also welded with a plurality of for supporting the support bar drawing side rod 503 inwall.

Its main working process is as follows:

Edge machine is by before edge wheel 504 drawing ultra-thin glass, and first adjust the drawing angle of edge wheel 504, depth distance, horizontal high and low position and depth of indentation parameter according to the requirement of production technique, its concrete adjustment process is as follows:

The adjustment of drawing angle: electrical control system 7 sends angular setting signal, after swinging mechanism 9 receives adjustment signal, swinging mechanism 9 action thus drive crossbeam 8 turn round around rotating mechanism 1 in horizontal plane, then unitary strip motivation lever apparatus 5 rotates, finally make edge wheel 504 have a certain degree with the direction of motion of glass solution, complete the adjustment of drawing angle.

The present embodiment, the T-type structure that crossbeam 8 adopts 1,50x,100 two rectangular pipe to be combined into up and down, good rigidly, be out of shape little, be in course of adjustment, keep the stable of whole equipment, simultaneously because the width of crossbeam 8 is narrow, the overall width of the corresponding horizontal running mechanism 2 be suspended on crossbeam, elevating drive mechanism 3, swinging transmission mechanism 4 also can correspondingly narrow.The overall width of the present embodiment fuselage only has 250mm, compared with the edge machine being all greater than 400 mm, can arrange more edge machine within the scope of unit space with overall width in prior art, thus meets the technique needs producing ultra-thin glass.

The adjustment of depth distance: electrical control system 7 sends depth distance adjustment signal, after horizontal running mechanism 2 receives adjustment signal, horizontal running mechanism 2 action, horizontal running mechanism 2 is driven to move on the guide rail 802 of crossbeam 8, thus band motivation lever apparatus 5 to away from or move near the direction of molten tin bath, after edge wheel 504 arrives the drawing position at glass solution edge, horizontal running mechanism 2 stop motion under the control of electrical control system 7.

Horizontal high and low position: by adjusting the transmission handwheel of elevating drive mechanism 3, elevating drive mechanism 3 is driven to do oscilaltion campaign, thus drive swinging transmission mechanism 4, machine lever apparatus 5 entirety move up and down, when edge wheel 504 stops adjustment when drawing glass solution height location is suitable.

Depth of indentation: electrical control system 7 sends depth of indentation adjustment signal, swinging transmission mechanism 4 receive adjustment signal after action, swinging transmission mechanism 4 is with motivation lever apparatus 5 to lower swing, makes to draw side rod 503 and horizontal plane at a certain angle, makes edge wheel be pressed on glass solution for 504 times simultaneously.

Ultra-thin glass drawing: after the drawing angle of edge wheel 504 opposing glass solution, depth distance, horizontal high and low position and depth of indentation parameter adjust, can carry out normal glass drawing and produce.

Electrical control system 7 sends and draws side rod 503 rotate instruction, and rotating driving device 506 drives and draws side rod 503 to rotate, and drives edge wheel 504 to rotate on glass solution, thus carries out drawing to glass solution, produce ultra-thin glass.

In drawing process, water coolant in cooling water pipeline 6 is divided into two water routes, wherein a road water coolant enters into watercooling jacket 501 and cools drawing side rod 503, separately lead up to swivel joint 505, inner conduit 502 thus enter edge wheel 504 inside and carry out circulating cooling, Yin Wendu is too high and burn to guarantee edge wheel 504.

Side rod 503 is drawn to be fixedly connected with swivel joint 505 by adapter sleeve 507, inner conduit 502 is arranged on and draws in side rod 503 and adapter sleeve 507, inner conduit 502 and adapter sleeve 507 are fixed together by key, inner conduit 502 excircle is also welded with a plurality of support bar, described support bar lines up some rows along the radial direction of inner conduit, on inwall inner conduit 502 being supported on draw side rod 503, such structure, ensure that and draw side rod 503 inner conduit 502 when rotation therewith to rotate, to overcome in prior art because of inner conduit 502 and draw relatively rotating and the vibration produced between side rod 503, thus improve the quality of ultra-thin glass product.

In sum, the combination T-type structure of crossbeam 8, can ensure that edge machine to be produced in ultra-thin glass processing set-up under the demand that fuselage width is very narrow meeting, still can guarantee the rigidity of crossbeam, edge machine is in operation and keep stable and reliable.

Additionally by adopting inner conduit 502 and the scheme of drawing side rod 503 to link together, overcoming inner conduit 502 affects drawing side rod 503, and the running accuracy of edge wheel 504 is improved greatly, ensure that the needs producing ultra-thin glass.Connect further by the key be located between adapter sleeve 507 and inner conduit 502, make this part be easier to dismounting and maintenance.

Claims (5)

1. a ultra-thin glass edge machine, be arranged on the side of melting furnaces, comprise rotating mechanism (1), horizontal running mechanism (2), elevating drive mechanism (3), swinging transmission mechanism (4), swinging mechanism (9), crossbeam (8), machine lever apparatus (5), cooling water pipeline (6) and electrical control system (7);

Described crossbeam (8) comprises beam body (801) and guide rail (802), beam body (801) is fixedly connected with guide rail (802), the two ends of beam body (801) respectively with rotating mechanism (1) and swinging mechanism (9) hinged, rotating mechanism (1) is arranged on the supporting beam of melting furnaces, swinging mechanism (9) is suspended on the tooth bar beam of the base rack of melting furnaces side, swinging mechanism (9) drives crossbeam (8) around rotating mechanism (1) horizontal hunting, horizontal running mechanism (2), elevating drive mechanism (3), swinging transmission mechanism (4) and machine lever apparatus (5) are fixedly connected sequentially, horizontal running mechanism (2) is suspended on guide rail (802) by roller, horizontal running mechanism (2) is in the upper slip of guide rail (802), cooling water pipeline (6) is connected with machine lever apparatus (5), electrical control system (7) and swinging mechanism (9), the drive-motor of horizontal running mechanism (2) and swinging transmission mechanism (4) three is electrically connected respectively, it is characterized in that:

The beam body (801) of described crossbeam (8) is the T-type structure be formed by fixedly connecting up and down by two rectangular pipes, guide rail (802) is fixed on the both sides, lower end of T-type structure lower rectangular pipe, and the fuselage transverse width be made up of horizontal running mechanism (2), elevating drive mechanism (3), swinging transmission mechanism (4) and machine lever apparatus (5) is 200 to 300mm.

2. a kind of ultra-thin glass edge machine according to claim 1, is characterized in that: the mode that two rectangular pipes forming beam body (801) are connected by welding or screw is fixed together.

3. a kind of ultra-thin glass edge machine according to claim 1 and 2, is characterized in that: described guide rail (802) is fixedly connected on the both sides, lower end of lower rectangular pipe by the mode that welding or screw connect.

4. a kind of ultra-thin glass edge machine according to claim 1, it is characterized in that: described machine lever apparatus (5) comprises watercooling jacket (501), inner conduit (502), draw side rod (503), edge wheel (504), swivel joint (505) and rotating driving device (506), watercooling jacket (501) two ends endoporus is provided with bearing, side rod (503) is drawn to be arranged in watercooling jacket (501) by bearing, side rod (503) two ends are drawn to be fixedly connected with swivel joint (505) and edge wheel (504) respectively, inner conduit (502) is located at and draws in side rod, its one end is connected with swivel joint, the other end stretches in the water-in of edge wheel (504), rotating driving device drives and draws side rod to rotate, inner conduit (502) is fixedly connected with the described side rod (503) that draws.

5. a kind of ultra-thin glass edge machine according to claim 4, it is characterized in that: draw side rod (503) to be fixedly connected with swivel joint (505) by adapter sleeve (507), the endoporus of adapter sleeve (507) is fixedly connected with inner conduit (502) by key, and inner conduit (502) outer wall is also welded with a plurality of for supporting the support bar drawing side rod (503) inwall.