CN201645724U

CN201645724U - Automatic glass closing device

Info

Publication number: CN201645724U
Application number: CN2010201283575U
Authority: CN
Inventors: 张雨晨; 汤月生; 季一岷
Original assignee: TAIXING DONCHAMP ACRYLIC CO Ltd
Current assignee: TAIXING DONCHAMP ACRYLIC CO Ltd
Priority date: 2010-02-12
Filing date: 2010-02-12
Publication date: 2010-11-24
Anticipated expiration: 2020-02-12

Abstract

The utility model relates to an automatic glass closing device, which comprises two supports, a turning plate, two groups of hydraulic lifting mechanisms, two groups of hydraulic rotating mechanisms and position lifting mechanisms, wherein the top portion is respectively provided with the hydraulic rotating mechanisms, the two groups of hydraulic lifting mechanisms are symmetrically arranged between the two supports, a rotating shaft is connected between the two groups of the hydraulic rotating mechanisms, the rotating shaft is connected with the turning plate, the position lifting mechanisms are arranged in the two supports, a base of one support is provided with a sucker lifting mechanism, the sucker lifting mechanism is provided with a plurality of suckers which pulls in a lower glass template, and one side surface of the turning plate is provided with a plurality of suckers which pull in an upper glass template. The automatic glass closing device uses the hydraulic lifting mechanisms, the hydraulic rotating mechanisms and the position lifting mechanism to achieve automatic feeding glass, glass closing position adjustment and glass closing of the upper and the lower glass templates, the pressing process of the glass templates is controlled by a PLC system, the automation degree is high, the work efficiency is high, the glass closing positions of the upper and the lower glass templates are steady, and the yield of organic glass pouring products is high after closing glass.

Description

A kind of automatic glass combining device

Technical field

The utility model relates to a kind of automatic glass combining device, and glass template combined glass is treated the automatic glass combining device of material feeding about specifically relating to incite somebody to action in a kind of lucite production process.

Background technology

Lucite processing generally be between the upper and lower glass template of fitting mutually material feeding after operations such as pond curing, high-temperature shaping, combined glass, suction disc make.The glass combining device that is adopted comprises inhales glass machine and portable ingot stripper; inhale the glass machine and be positioned on the ingot stripper top driving frame, ingot stripper comprises a support, and the bottom of support is provided with pulley; the top of support is provided with carry-over pinch rolls, and the top of ingot stripper also is provided with the portable suction disc machine that is installed on the driving frame.When combined glass is got material; the sheet material of being held by upper and lower glass molds plate holder places on the support of ingot stripper through high-temperature shaping; suction glass machine through the ingot stripper top picks up the upper glass template; again the ingot stripper level is moved to right to suction disc machine below; through the suction disc machine sheet forming on the upper glass template is picked up and moves to the next procedure test package; the ingot stripper of supporting lower-glass template is reset to inhales glass machine below; inhale the glass machine and the upper glass template is positioned over makes upper and lower glass template combined glass on the ingot stripper, again the template of glass up and down of fitting on the ingot stripper is passed to the feeding machine cocycle and use.Since adopt in the conventional processes inhale glass machine and ingot stripper carry out glass template up and down deciliter, equipment cost is big; By getting material after the displacement of taking off the glass machine, take off glass machine integral body and move back and forth and increase the operating space, energy consumption height, noise are big, and the control operation is many, complex operation; Get material back up and down the glass template only through the direct combined glass in simple blowing cleaning back, no matting, up and down on the plate face between the glass template owing to the Electrostatic Absorption dust, make and contain impurity in the methacrylate sheet, directly influence the transparency and the quality of sheet material; Need manually to promote integral body up and down behind the glass template combined glass and remove, because glass template area is bigger up and down, increase labour intensity, and consume the worker and consume power, manpower is many, inefficiency.

Summary of the invention

In order to overcome many, the shortcomings such as cost is high, complex operation, inefficiency of the template of glass up and down combined glass equipment of cast methacrylate sheet in the prior art; the purpose of this utility model provides a kind of upset by turnover panel and realizes the combined glass of glass template up and down, need not to adopt suction glass machine to move the automatic glass combining device of combined glass.

The technical solution of the utility model is: a kind of automatic glass combining device, comprise two stands, one turnover panel, two groups of hydraulicefficiency elevation structures, two groups of hydraulic rotary mechanisms and location elevating mechanism, the top of two stands flexibly connects many supportings respectively and carries the carry-over pinch rolls of glass template, or the fixedly connected support bar in the top of two stands, the hinged carry-over pinch rolls of supporting bar top, its technical characterstic is that described two groups of hydraulicefficiency elevation structures are symmetricly set between two stands, two groups of hydraulicefficiency elevation structure tops are respectively equipped with hydraulic rotary mechanism, connect rotating shaft between two groups of hydraulic rotary mechanisms, connect turnover panel on the rotating shaft, turnover panel is 180 ° of flip horizontal states through rotating shaft, the lifting hydraulic cylinder of two groups of hydraulicefficiency elevation structures is connected with the PLC control system through three position four-way electromagnetic valve, and the oscillating motor of two groups of hydraulic rotary mechanisms is connected with the PLC control system through three position four-way electromagnetic valve; Be equipped with the location elevating mechanism in the described two stands, the base of a support is provided with the sucker elevating mechanism, and the sucker elevating mechanism is provided with the following sucker of many adhesive lower-glass templates, and a side of described turnover panel is provided with the last sucker of many adhesive upper glass templates.PLC control system control three position four-way electromagnetic valve makes two groups of following sucker lifting absorption glass templates in a support that hydraulicefficiency elevation structure is regulated the lifting realization turnover panel of turnover panel between two stands, the glass template that sucker adsorbs on the sucker jacking system in the glass template that the upset of regulating turnover panels by two groups of hydraulic rotary mechanisms realizes sucker under the turnover panel and another support is laminated, glass combining device is simple in structure, compact, the pressing process of glass template is controlled by the PLC system, high efficiency, save man-hour, production cost is low.

Described sucker elevating mechanism comprises sucker hoistable platform and sucker lift cylinder, the sucker hoistable platform is supported in the support through the sucker lift cylinder, the sucker hoistable platform is provided with many support bars, fixedly connected respectively sucker down on the support bar, the sucker lift cylinder is connected with the PLC control system through two-position-five-way solenoid valve respectively.The PLC control system through two-position-five-way solenoid valve control down the sucker lift cylinder rise and make down glass template adhesive on sucker and the last sucker, the corresponding pressing of glass template that glass template and last sucker adsorb, pressing is stablized; PLC control system sucker lift cylinder under two-position-five-way solenoid valve control descends the glass template on sucker and the last sucker is broken away from, two glass templates after the pressing are brought subsequent processing into by carry-over pinch rolls, and the glass template that the carry-over pinch rolls continuous traction is new enters repetition pressing process.

Described turnover panel is 180 ° of flip horizontal states through rotating shaft.

Described two groups of hydraulicefficiency elevation structures comprise lifting hydraulic cylinder respectively, and the lifting hydraulic cylinder of two groups of hydraulicefficiency elevation structures is connected with the PLC control system through three position four-way electromagnetic valve.

Described location elevating mechanism comprises detent mechanism and elevating mechanism, described elevating mechanism comprises lift cylinder and hoistable platform, hoistable platform is in lift cylinder is supported on left and right support, described detent mechanism comprises many located lateral cylinders, many longitudinal register cylinders and many backstays, positioning cylinder is horizontally placed on the hoistable platform, the piston rod outer end of positioning cylinder all vertically connects and the spacing backstay that cooperates of glass template periphery, and positioning cylinder is connected with the PLC control system through two-position-five-way solenoid valve.The PLC control system is flexible through two-position-five-way solenoid valve control positioning cylinder, drive backstay peripheral spacing to upper and lower glass template by positioning cylinder, make the glass molds Board position of sucker absorption on the turnover panel corresponding with the glass template of following sucker absorption all the time, guarantee that two glass templates after the pressing satisfy lucite cast requirement, improve yield rate.

The two ends of described rotating shaft are provided with cam, are equipped with contact-making switch on two side stands of rotating shaft terminal, and cam is with contact-making switch and contacts or released state; One side of described turnover panel is provided with near switch, is in a side of turnover panel together near the last sucker on switch and the turnover panel; The column of described arbitrary hydraulicefficiency elevation structure is provided with upper and lower two contact-making switches; Contact-making switch with all be connected near switch with the PLC control system.The PLC control system receives contact-making switch and controls rotating shaft respectively near the control signal of switch and drives 180 ° of turnover panels clockwise or the last sucker that is rotated counterclockwise, controls turnover panel decontrols or absorption glass template, control hydraulic rotary mechanism lifting with tipping platform, automation mechanized operation helps further increasing work efficiency.

What the utility model adopted hydraulicefficiency elevation structure, hydraulic rotary mechanism and location elevating mechanism to cooperate to realize glass template up and down advances glass, levelling combined glass position and combined glass automatically, its compact conformation, the pressing process of glass template is controlled by the PLC system, the automaticity height is saved man-hour, high efficiency, production cost is low, and glass template combined glass position stability up and down helps lucite cast between two glass templates after the pressing, the yield rate height.

Description of drawings

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

Fig. 2 is a pneumatic schematic diagram of the present utility model;

Fig. 3 is a hydraulic schematic diagram of the present utility model.

Among the figure: support 1,2, support bar 3, sucker elevating mechanism 4, sucker lift cylinder 41, sucker hoistable platform 42, support bar 43, sucker 44, hydraulicefficiency elevation structure 5, lifting hydraulic cylinder 51, contact-

making switch

52,53, hydraulic rotary mechanism 6, oscillating motor 61, rotating shaft 62, cam 621, turnover panel 63, sucker 64 is near switch 65, contact-

making switch

66,67, location elevating mechanism 7, lift cylinder 711, hoistable platform 712, located lateral cylinder 721, longitudinal register cylinder 722, backstay 723, carry-over pinch rolls 8, upper glass template 9, lower-glass template 10, three-position four-way valve 11,111, two-position five-way valve 12,121,122,123, source of the gas 13, oil sources 14, PLC control system 15.

The specific embodiment

The utility model is described in further detail below in conjunction with drawings and Examples.

Automatic glass combining device shown in Fig. 1-3, comprise two stands 1,2, a turnover panel 63, two groups of hydraulicefficiency elevation structures 5, two groups of hydraulic rotary mechanisms 6, location elevating mechanism 7 and PLC control systems 15, the top of two stands 1,2 flexibly connects many supportings respectively and carries the carry-over pinch rolls 8 of glass template, or the fixedly connected support bar 3 in the top of two stands, the hinged carry-over pinch rolls 8 in support bar 3 tops; Two groups of hydraulicefficiency elevation structures 5 are symmetricly set between two stands, two groups of hydraulicefficiency elevation structure 5 tops are respectively equipped with hydraulic rotary mechanism 6, the lifting hydraulic cylinder 51 of two groups of hydraulicefficiency elevation structures is connected with PLC control system 15 through three position four-way electromagnetic valve 11, the oscillating motor 61 of two groups of hydraulic rotary mechanisms 6 is connected with PLC control system 15 through three position four-way electromagnetic valve 111, connect rotating shaft 62 between two groups of hydraulic rotary mechanisms 6, the two ends of rotating shaft 62 are provided with cam 621, two side stands 1 at rotating shaft 62 two ends, be respectively equipped with the contact-making switch 66 that is connected with PLC control system 15 on 2,67, cam 621 and contact-

making switch

66,67 are contact or released state, connect turnover panel 63 on the rotating shaft 62, turnover panel 63 is 180 ° through rotating shaft and horizontally rotates state, one side of turnover panel is provided with the sucker 64 of many adhesive upper glass templates 9, one side of turnover panel be provided be connected with the PLC control system near switch 65, be in a side of turnover panel together near switch 65 and the sucker 64 on the turnover panel; Be equipped with location elevating mechanism 7 in the two stands, the location elevating mechanism comprises detent mechanism and elevating mechanism, elevating mechanism comprises lift cylinder 711 and hoistable platform 712, hoistable platform 712 is supported in the support through lift cylinder 711, detent mechanism comprises many located lateral cylinders 721, longitudinal register cylinder 722 and many backstays 723, located lateral cylinder 721 is transverse horizontal and is arranged on the hoistable platform 712, longitudinal register cylinder 722 is vertical equity and is arranged on the hoistable platform 712, every located lateral cylinder 721, the piston rod outer end of longitudinal register cylinder 722 all vertically connects a positioning rod 723, located lateral cylinder 721, backstay 723 on the longitudinal register cylinder 722 is horizontal with glass template periphery, longitudinal spacing cooperates, lift cylinder 711, laterally, longitudinal register cylinder 721,722 respectively through two-position-five-way solenoid valve 121,122,123 are connected with PLC control system 15; The base of support 2 is provided with sucker elevating mechanism 4, the sucker elevating mechanism comprises sucker hoistable platform 42 and sucker lift cylinder 41, the sucker hoistable platform is provided with many support bars 43, the fixedly connected sucker 44 of difference on the support bar, sucker lift cylinder 41 is connected with PLC control system 15 through two-position-five-way solenoid valve 12 respectively.

A sucker lift cylinder 41 of doing uniform on the sucker hoistable platform 42 of sucker elevating mechanism 4 connects source of the gas 14 through two-position five-way valve 12, the lift cylinder 711 of location elevating mechanism 7, laterally, longitudinal register cylinder 721,722 connects sources of the gas 14 through two-position five-way valve 121,122,123 respectively, two-position five-way valve 12,121,122,123 all connects PLC control system 15, and connected mode as shown in Figure 2; Two lifting hydraulic cylinders 51 of hydraulicefficiency elevation structure 5 connect oil sources 13 through three-position four-way valve 11, two oscillating motors 61 of hydraulic rotary mechanism 6 connect oil sources 13 through three-position four-way valve 111, three-position four-way valve 11,111 all connects PLC control system 15, and connected mode as shown in Figure 3.

Operation principle of the present utility model:

By two sheet glass template clamping material feedings in the lucite pouring technology of multiple working procedure moulding, after the finished product poly (methyl methacrylate) plate take out cleaned, need after cleaning two sheet glass template combined glasses of back poly (methyl methacrylate) plate, pour into a mould once more.A kind of automatic glass combining device that the utility model relates to, automatic feed mechanism glass template is up and down delivered to respectively on the left and right support, turnover panel 63 levels are positioned at left socle 1 and are in original state at this moment, and sucker elevating mechanism 4 levels are positioned at right support 2 and are in original state.Start power switch, PLC control system 15 control two-position-five-way solenoid valves 121 are opened, the lift cylinder 711 of the location elevating mechanism 7 in the two stands rises, lift cylinder 711 drives hoistable platform 712 and rises, PLC control system 15 at first delay time control two-position-five-way solenoid valve 122 open, the two glass template cross spacings that the located lateral cylinder 721 on the hoistable platform 712 drives on 723 pairs of two stands of backstay laterally are located in control, the PLC control system 15 control two-position-five-way solenoid valve 123 of delaying time is again opened, and control vertically is located at longitudinal register cylinder 722 on the hoistable platform 712 and is driven two glass template longitudinal spacings on 723 pairs of two stands of backstays; PLC control system 15 time-delay control three position four-way electromagnetic valves 11 are opened, through the oil cylinder oil-feed hydraulic lifting cylinder 51 of the symmetrically arranged two groups of hydraulicefficiency elevation structures 5 of control is risen, when rising, hydraulic lifting cylinder 51 connects the following contact-making switch 53 of hydraulicefficiency elevation structure column, PLC control system 15 control three position four-way electromagnetic valves 11 are closed, turnover panel 63 risings in the left socle 2 make the sucker 64 vacuum suction upper glass templates 9 on the turnover panel 63, control the sucker 44 vacuum suction lower-glass templates 10 that right support 2 interior sucker elevating mechanisms 4 risings make the sucker elevating mechanism simultaneously, PLC control system 15 time-delay control two-position-five-way solenoid valves 121,122,123 commutations make location elevating mechanism 7 reply original state, this moment, PLC control system 15 control three position four-way electromagnetic valves 11 reopened, the hydraulic lifting cylinder 51 of hydraulicefficiency elevation structure 5 continues to rise, when rising, hydraulic lifting cylinder 51 connects the last contact-making switch 52 of hydraulicefficiency elevation structure column, PLC control system 15 control three position four-way electromagnetic valves 111 are opened, control hydraulic pressure oscillating cylinder 61 task driven rotating shafts 62 rotations of two hydraulic rotary mechanisms 6 through the oil cylinder oil-feed, make the turnover panel 63 on the rotating shaft 62 be 180 ° of lower-glass template 10 tops that are turned into level to right support 2 to the right, the cam 621 at rotating shaft 62 two ends contacts with the contact-making switch 67 of right support 2 through contact-making switch 67 signal feedback to PLC control system 15 control three position four-way electromagnetic valves 11 is commutated, make hydraulic lifting cylinder 5 declines of two hydraulicefficiency elevation structures 5 drive turnover panel 63 declines, when lower-glass template 10 pressings on the upper glass template 9 of turnover panel 63 1 sides and right support 2 suckers 44, be in will going up of turnover panel 63 1 sides together with sucker 64 near switch 65, the pressing signal of lower-glass template passes to

PLC control system

15,12 commutations of PLC control system 15 control two-position-five-way solenoid valves, the sucker 64 of turnover panel 63 is decontroled absorption upper glass template 9, absorption lower-glass template 10 decontroled by the sucker 44 of sucker elevating mechanism 4 and sucker elevating mechanism 4 is replied original state, at this moment two glass template combined glasses; 11 commutations of PLC control system 15 time-delay control three position four-way electromagnetic valves, make hydraulic lifting cylinder 51 risings of two hydraulicefficiency elevation structures 5 drive turnover panel 63 risings, 111 commutations of PLC control system 15 time-delay control three position four-way electromagnetic valves, make turnover panel 63 on the rotating shaft 62 be 180 ° left and be turned into level to left socle 1 top, the cam 621 at rotating shaft 62 two ends contacts with the contact-making switch 66 of left socle 1 through contact-making switch 66 11 commutations of signal feedback PLC control system 15 control three position four-way electromagnetic valves, the hydraulic lifting cylinder 51 of two hydraulicefficiency elevation structures 5 is descended drive turnover panels 63 to descend and replys original states, this moment after automatic fetching device takes out pressing on, the lower-glass template is finished the combined glass operation.

Claims

1. automatic glass combining device, comprise two stands (1,2), one turnover panel (63), two groups of hydraulicefficiency elevation structures (5), two groups of hydraulic rotary mechanisms (6) and location elevating mechanism (7), it is characterized in that: described two groups of hydraulicefficiency elevation structures (5) are symmetricly set in two stands (1,2) between, two groups of hydraulicefficiency elevation structures (5) top is respectively equipped with hydraulic rotary mechanism (6), connect rotating shaft (62) between two groups of hydraulic rotary mechanisms (6), connect turnover panel (63) on the rotating shaft, described two stands (1,2) be equipped with location elevating mechanism (7) in, the base of one support (2) is provided with sucker elevating mechanism (4), the sucker elevating mechanism is provided with the sucker (44) of many adhesive lower-glass templates, and a side of described turnover panel is provided with the sucker (64) of many adhesive upper glass templates.

2. a kind of automatic glass combining device according to claim 1, it is characterized in that: described sucker elevating mechanism (4) comprises sucker hoistable platform (42) and sucker lift cylinder (41), the sucker hoistable platform is in the sucker lift cylinder is supported on support (2), the sucker hoistable platform is provided with many support bars (43), difference fixedly connected sucker (44) on the support bar, the sucker lift cylinder is connected (15) through two-position-five-way solenoid valve (12) with the PLC control system respectively.

3. a kind of automatic glass combining device according to claim 1, it is characterized in that: described two stands (1,2) top flexibly connects many supportings respectively and carries the carry-over pinch rolls (8) of glass template, or the fixedly connected support bar in the top of two stands (3), the hinged carry-over pinch rolls of supporting bar top.

4. a kind of automatic glass combining device according to claim 1 is characterized in that: described turnover panel (63) is 180 ° of flip horizontal states through rotating shaft (62).

5. a kind of automatic glass combining device according to claim 1, it is characterized in that: described two groups of hydraulicefficiency elevation structures (5) comprise lifting hydraulic cylinder (51) respectively, and the lifting hydraulic cylinder of two groups of hydraulicefficiency elevation structures is connected with PLC control system (15) through three position four-way electromagnetic valve (11).

6. a kind of automatic glass combining device according to claim 1, it is characterized in that: described two groups of hydraulic rotary mechanisms (6) comprise oscillating motor (61) respectively, and the oscillating motor of two groups of hydraulic rotary mechanisms is connected with PLC control system (15) through three position four-way electromagnetic valve (111).

7. a kind of automatic glass combining device according to claim 1, it is characterized in that: described location elevating mechanism (7) comprises detent mechanism and elevating mechanism, described elevating mechanism comprises lift cylinder (711) and hoistable platform (712), described detent mechanism comprises many located lateral cylinders (721), many longitudinal register cylinders (722) and many backstays (723), positioning cylinder is horizontally placed on the hoistable platform (712), and the piston rod outer end of positioning cylinder all vertically connects and the spacing backstay that cooperates of glass template periphery; Positioning cylinder is connected with PLC control system (15) through two-position-five-way solenoid valve (122,123).

8. a kind of automatic glass combining device according to claim 1, it is characterized in that: the two ends of described rotating shaft (62) are provided with cam (621), are equipped with contact-making switch (66 on two side stands (1,2) of rotating shaft terminal, 67), cam is with contact-making switch and contacts or released state.