CN207294614U - Hollow glass production system - Google Patents

Abstract

The utility model provides a kind of hollow glass production system, including sentences the first conveying assembly of the conveying for forming glass placed on it arranged on the initial end of working reference plane；The glass on the first conveying assembly is accepted, and the perfusion upset component of the working face of glass can be positioned, working face has the swing relative to the working reference plane under the driving of power set；With the curing room of the curing operation of structure pair glass between perfusion upset component and the end of working reference plane；Transition conveying assembly, to be formed to the glass on perfusion upset component in the indoor transport of curing, and the changeover portion that there is glass to carry out interim storage.Hollow glass production system described in the utility model, by setting the first conveying assembly to be easy to the initial delivery of hollow glass, and perfusion upset component is set to realize the adjusting to the angle of hollow glass with the swing by workbench, suitable for glue encapsulating of different nature, a large amount of manpower and materials can be saved.

Description

Hollow glass production system

Technical field

Field of glass production technology is the utility model is related to, more particularly to a kind of hollow glass production system.

Background technology

Hollow glass is to become the glass with specific function by irrigating glue to its inside, it is with excellent Insulation performance, while can reduce cold emission, reduce noise, prevent condensation etc. characteristic, be adaptable to building decoration, vapour The fields such as car, aircraft, ship, hospital, market, exhibition of cultural relics room, museum.In the prior art in production empty glass when it is most Using manual production, cause time-consuming and laborious, and need to take substantial amounts of production site and labour, production efficiency is relatively low, influences The productive temp of enterprise.

Utility model content

In view of this, the utility model is directed to a kind of hollow glass production system, to improve the production of hollow glass Efficiency, and there is preferable using effect.

To reach above-mentioned purpose, what the technical solution of the utility model was realized in：

A kind of hollow glass production system, including：

Working reference plane；

First conveying assembly, it is via external agency and placed on it to form at the initial end of the working reference plane Glass conveying；

Perfusion upset component, the perfusion upset component have and use to accept the glass on first conveying assembly In the working face for positioning the glass, under the driving of power set, the working face has relative to the working reference plane Swing；

Curing room, between the perfusion upset component and the end of the working reference plane, to form to feed status Under glass curing operation；

Transition conveying assembly, between the curing room and the perfusion upset component, turns over the perfusion with being formed The glass turned on component cures indoor transport in described, and is formed because accepting external signal and the interim of the glass is deposited Storage.

Further, bubble test section, the bubble are provided between the curing room and the transition conveying assembly Test section includes can be relative to the detection platform swung for working reference plane, and the irradiation light above the detection platform.

Further, the glass perfusion angular range is 0 °~20 °.

Further, the perfusion upset component includes：

Rack, is positioned in the working reference plane；

Workbench, one end are connected with the gantry rotation, and the working face is formed at the workbench upper surface, in The working face is equipped with glass fixing device and glass motion guiding mechanism；

First straight line driving device, is arranged in below the workbench to drive the working platform overturning, and described the The power output end of one linear drive apparatus is hinged and connected with the workbench, and relative to the power output end, its is another End, which rotates, to be arranged in the rack；

Second straight line driving device, relative to the workbench and the hinged one end of the rack, is fixedly arranged on the machine The other end of frame, to drive the workbench relative to the gantry rotation.

Further, the glass fixing device is vacuum cup.

Further, the glass motion guiding mechanism is the multiple universal wheels being abound with the operative upper surface.

Further, the first straight line driving device includes hydraulic cylinder, and the hydraulic pump of the connection hydraulic cylinder, in The pipeline that the hydraulic cylinder connects the hydraulic pump is equipped with solenoid valve.

Further, the other end of the rack is equipped with the guide rail arranged along the bracket height direction, in the guide rail Interior slip is equipped with rack, and the second straight line driving device includes sequentially connected motor and gear reducer, in the gear reducer Power output end, which is installed with, engages connected gear with the rack.

Further, the rack, one end for being abutted with the workbench be equipped with roller.

Relative to the prior art, the utility model has the advantage that：

(1) hollow glass production system described in the utility model, by setting the first conveying assembly to be easy to hollow glass The initial delivery of glass, and set perfusion upset component to be realized with the swing by workbench to the angle of hollow glass Adjust, suitable for glue encapsulating of different nature, a large amount of manpower and materials can be saved, and improve production efficiency, and curing Transition conveying assembly is set to reduce glass to workbench to carry out interim storage to glass between room and perfusion upset component The occupancy of upper station, the perfusion operation of a sheet glass under the influence of avoiding.

Brief description of the drawings

The attached drawing for forming the part of the utility model is used to provide a further understanding of the present invention, this practicality is new The schematic description and description of type is used to explain the utility model, does not form the improper restriction to the utility model. In attached drawing：

Fig. 1 is the structure diagram of the hollow glass production system described in the utility model embodiment；

Fig. 2 is the floor map figure of the perfusion upset component described in the utility model embodiment；

Fig. 3 is the schematic diagram that the perfusion described in the utility model embodiment overturns that workbench in component is in vertical state；

Fig. 4 overturns workbench in workbench for the hollow glass encapsulating described in the utility model embodiment and is horizontal Schematic diagram；

It is in perfusion state that Fig. 5 overturns workbench in workbench for the hollow glass encapsulating described in the utility model embodiment Schematic diagram；

Description of reference numerals：

1- working reference planes, the first conveying assemblies of 2-, 3- perfusion upset components, 301- racks, 302- workbenches, 3021- Working face, 4- vacuum cups, 5- universal wheels, 6- hydraulic cylinders, 7- guide rails, 8- racks, 9- motors, 10- rollers, 11-PLC controls Case, 12- curing rooms, 1201- cure locellus, 13- transition conveying assemblies, 14- bubble test sections, 15- blankings portion.

Embodiment

It should be noted that in the case where there is no conflict, the feature in embodiment and embodiment in the utility model can To be mutually combined.

The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

The present embodiment is related to a kind of hollow glass production system, as shown in Figure 1, it includes working reference plane 1, arranged on work base The first conveying assembly 2 at the initial end in face 1, first conveying assembly 2 can use vertical conveying of the prior art, to form The conveying of the glass placed on it via external agency, is put such as by hoisting mechanism of the prior art by glass hanging On one conveying assembly 2.Vertical conveying or horizontal feed can be selected in the first conveying assembly 2 in the present embodiment, optimal using existing Have the vertical transportation agency in technology, can such as be fixedly installed a guide plate (guide plate and workbench 302 described below in Arrangement under vertical state is identical), and multiple active conveying rollers are set along guide plate length direction in the bottom of guide plate, And universal wheel described below is also provided with the face of guide plate and glass contact, so that drive of the glass in active conveying roller Guide plate moves forward under making.This hollow glass production system further includes the filling for accepting the glass on the first conveying assembly 1 Note upset component 3, perfusion upset component 3 have the working face for being used for positioning the glass, and under the driving of power set The working face has the swing relative to working reference plane 1.

In the present embodiment, as shown in Figures 2 to 5, perfusion upset component 3 includes being positioned at the working reference plane 1 On rack 301；And the workbench 302 that one end is rotatedly connected with the rack 301, above-mentioned working face 3021 are then formed In 302 upper surface of workbench, and glass fixing device and glass motion guiding mechanism are equipped with working face 3021.Specifically Ground, the glass fixing device are vacuum cup 4, and vacuum cup 4 can connect vacuum generator by pipeline, so as in vacuum Absorption of the negative pressure realization to glass is produced at sucker 4.In the structure, vacuum cup 4 will not damage glass, can be under high temperature action Use, and cost is relatively low.Certainly, glass fixing device can also be that clamping of the prior art fills except that can be vacuum cup 4 Put or clamping device.The glass motion guiding mechanism of the present embodiment is the multiple universal wheels 5 being abound with operative upper surface, sets ten thousand To wheel 5, move, conveniently adjust to suitable injecting glue position to any direction after being positioned over workbench 302 easy to glass, when So, glass motion guiding mechanism herein can also be other existing guiding mechanisms, such as slide.

Above-mentioned power set include first straight line driving device and second straight line driving device in the present embodiment, wherein the To drive the working platform overturning below the workbench, the first straight line driving fills one straight line drive arrangement The power output end put is hinged and connected with the workbench, and relative to the power output end, its other end rotates and is arranged on institute State in rack.And second straight line driving device is fixedly arranged on described relative to the workbench and the hinged one end of the rack The other end of rack, to drive the workbench relative to the gantry rotation.

Foregoing first straight line driving device includes hydraulic cylinder 6, and the hydraulic pressure not shown in the figure of connection liquid cylinder pressure 6 Pump, the pipeline that hydraulic pump is connected in hydraulic cylinder 6 are equipped with solenoid valve.Specifically, the power output end of hydraulic cylinder 6, namely piston Bar is rotatedly connected with workbench 6 by shaft, and the other end of hydraulic cylinder 6, namely the end of cylinder barrel are connected with a link rotatable, The other end of connecting rod, which rotates, to be arranged in rack 1.In the structure, first straight line driving device uses hydraulic cylinder 5, simple in structure, work Make reliably, to operate steadily, it can also use other linear drive apparatus, such as cylinder or linear motor etc..

Tilted in order to facilitate workbench 302, be installed with along 301 short transverse of rack and arrange in the other end of rack 301 Guide rail 7, slide in the guide rail 7 and be equipped with rack 8, second straight line driving device is also fixedly arranged in rack 301, including is sequentially connected Motor 9 and gear reducer, be installed with the power output end of gear reducer and connected gear engaged with rack 8.The rack 8 with One end that the workbench 302 abuts is equipped with roller 10, in motor 9 with 8 moving process of carry-over bar, roller 10 can install in The lower section of workbench 302, to adjust the angle of inclination of workbench 302.In said structure, roller 10 is set to make workbench 302 smoothly tilt, and change sliding friction can reduce the abrasion to workbench 2 into rolling friction.In the structure, second straight line is driven Dynamic device is set to the rack and pinion drive mechanism of the control of motor 9, and transmission distance is accurate, can accurately control turning over for workbench 302 Gyration, so as to fulfill preferable perfusion effect, improves the quality of glass.Certainly, second straight line driving device can also be existing Other linear drive apparatus in technology

The hollow glass encapsulating upset workbench of the present embodiment further includes the PLC control cabinet 11 with touch-screen, foregoing Solenoid valve and motor 9 are controlled with PLC control cabinet 11 respectively to be connected, and after touch-screen receives control signal, and receive PLC controls Control signal that case 11 is sent and act.Overturn, operated using the PLC control system control workbench 302 with touch-screen Convenient, the degree of automation height.

In addition, in being installed with the waste collection groove positioned at the lower section of workbench 302 in rack 301, it can be enclosed for plate-like piece What is be configured to is internally formed the thin-wall construction of cavity.Waste collection groove is set, can easy to recycle the glue outside overflow to glass Save production cost.

Workbench 302 when in use, is adjusted that (vertical state is near in the present embodiment in vertical state by the present embodiment first Vertical state is similar to, it is with certain angle of inclination, to ensure to accept the conveying of 2 glass of the first conveying assembly and ensure to convey During stability), as shown in Fig. 2, (one side of glass is equipped with two perforates to diagonal hole glass, and perforate, which faces outwardly, puts Put, one is fill orifice, another is exhausting-gas hole) it is placed on workbench 302, then workbench 302 is received by oil cylinder Returning goes to horizontality, as shown in figure 3, at this time, glass can easily slide under horizontality on universal wheel 5, according to glass Glass dimensions rotary glass, adjusts to optimal perfusion position, fill orifice and is in extreme lower position, and exhausting-gas hole is in extreme higher position, The angle of glass perfusion at this time is 0 °~20 °, and then vacuum cup 4 starts to work and fixes hollow glass.Then, using motor 9 Control rack 8 moves, and making workbench 302, accurately upset is to the perfusion angle set, as shown in figure 4, being then ready for irrigating.Fill Workbench 302 is disengaged as perfusion position (shown in Fig. 4) upset to horizontality (shown in Fig. 3), vacuum cup 4 after the completion of note, Workbench 302 is overturn to vertical state (shown in Fig. 2), and the glass irrigated is sent to next workshop section, a piece of need under wait The glass of perfusion repeats the above process.

Convey to be formed to glass, set in the present embodiment in the hinged at one end of workbench 302 and rack 301 There is active conveying roller that is not shown in figure and being arranged along 301 length direction of rack, the active conveying roller is in exterior actuating unit Driving under and rotate, when workbench 302 upset be in above-mentioned vertical state during, glass is downward along working face 3021 Slide, and install on conveying roller, and due to being provided with universal wheel on working face 3021, so can glass can be in the drive of conveying roller Make lower along the slip of 301 length direction of rack.Hollow glass encapsulating described in the utility model overturns workbench, can realize that work is put down 302 wide-angle of platform is overturn, and can adjust the angle of inclination of workbench 302, suitable for glue encapsulating of different nature, can be saved A large amount of manpower and materials are saved, and improve production efficiency.

As shown in Figure 1, this hollow glass production system further includes the end arranged on perfusion upset component 3 and working reference plane 1 Between curing room 12, and in curing room 12 equally set glass conveying mechanism (glass conveying mechanism also can be selected existing Horizontal transport agency in technology) so as to form the curing operation to the glass under feed status.To ensure solidification effect, Curing room 12 is made of multiple curing locellus 1201 in the present embodiment, and optimal is four.In addition, in curing room 12 in the present embodiment Transition conveying assembly 13 is additionally provided between the perfusion upset component 3, to be formed on the perfusion upset component 12 Glass is in the transport in the curing room 12, and the transition conveying assembly 13 is formed to the glass because accepting external signal Interim storage.Transition conveying assembly 13 can use identical structure with the first above-mentioned conveying assembly 1 in the present embodiment, it is different Part is controlled in active conveying roller thereon by the control panel not shown in figure, when bubble test section 14 described below On there are sensor during glass, being electrically connected with control panel that signal is passed to control panel, control panel then controls transition Active conveying roller stalling on conveying assembly 13.

Bubble test section 14, institute are provided with the present embodiment between the curing room 12 and the transition conveying assembly 13 Stating that bubble test section 14 includes can be relative to the detection platform not shown in the figure that working reference plane 1 is swung, and arranged on the inspection The irradiation light above platform is surveyed, in order to manually be detected.Detection platform can be adopted with above-mentioned workbench in the present embodiment Set with the upset of same structure form, when being detected to glass, detection platform can be overturn to horizontality, and worked as and detected Glass is delivered in curing room after finishing, and detection platform is overturn to vertical state, in order to accept the glass on transition conveying assembly Glass.

In addition, the blanking for accepting the glass in the curing room 12 is provided with the present embodiment in the end of working reference plane 1 Portion 15, the blanking portion 15 include the blanking plate not shown in the figure that can mutually switch between horizontal or vertical shape, the blanking The turnover connection structure of plate can be selected existing structure or with above-mentioned 302 identical setting of workbench, as long as can realize horizontal Or the upset between vertical shape.Can be used for accepting when blanking plate is horizontal and cure indoor glass, and when glass into After entering station, blanking plate is overturn to vertical state so that exterior handbarrow carries out transport operation.Certainly, in the present embodiment Equally transition conveying assembly can be set between blanking portion and curing room and between curing room 12 and bubble test section 14 13, in order to carry out interim storage to glass.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on, should be included in the utility model Protection domain within.

Claims (9)

1. A kind of 1. hollow glass production system, it is characterised in that including：

   Working reference plane；

   First conveying assembly, at the initial end of the working reference plane, to form the glass placed on it via external agency The conveying of glass；

   Perfusion upset component, the perfusion overturn component to accept the glass on first conveying assembly, and fixed with being used for The working face of the position glass, under the driving of power set, the working face has the swing relative to the working reference plane；

   Curing room, between the perfusion upset component and the end of the working reference plane, to form under feed status The curing operation of glass；

   Transition conveying assembly, between the curing room and the perfusion upset component, to be formed to the perfusion upset group Glass on part cures indoor transport in described, and the interim storage to the glass is formed because accepting external signal.
2. 2. hollow glass production system according to claim 1, it is characterised in that：It is defeated in the curing room and the transition Bubble test section is provided between sending component, the bubble test section includes to put down relative to the detection swung for working reference plane Platform, and the irradiation light above the detection platform.
3. 3. hollow glass production system according to claim 1, it is characterised in that：The glass perfusion angular range is 0 ° ~20 °.
4. 4. hollow glass production system according to claim 1, it is characterised in that：The perfusion upset component includes：

   Rack, is positioned in the working reference plane；

   Workbench, one end are connected with the gantry rotation, and the working face is formed at the workbench upper surface, in described Working face is equipped with glass fixing device and glass motion guiding mechanism；

   First straight line driving device, is arranged in below the workbench to drive the working platform overturning, described first is straight The power output end of line driving device is hinged and connected with the workbench, and relative to the power output end, its other end turns It is dynamic to be arranged in the rack；

   Second straight line driving device, relative to the workbench and the hinged one end of the rack, is fixedly arranged on the rack The other end, to drive the workbench relative to the gantry rotation.
5. 5. hollow glass production system according to claim 4, it is characterised in that：The glass fixing device is inhaled for vacuum Disk.
6. 6. hollow glass production system according to claim 4, it is characterised in that：The glass motion guiding mechanism is full It is distributed in multiple universal wheels of the operative upper surface.
7. 7. hollow glass production system according to claim 4, it is characterised in that：The first straight line driving device includes Hydraulic cylinder, and the hydraulic pump of the connection hydraulic cylinder, the pipeline that the hydraulic pump is connected in the hydraulic cylinder are equipped with electromagnetism Valve.
8. 8. hollow glass production system according to claim 7, it is characterised in that：Edge is equipped with the other end of the rack The guide rail of the bracket height direction arrangement, is equipped with rack, the second straight line driving device includes in being slided in the guide rail Sequentially connected motor and gear reducer, are installed with the power output end of the gear reducer and connected tooth are engaged with the rack Wheel.
9. 9. hollow glass production system according to claim 8, it is characterised in that：The rack, with the work One end that platform abuts is equipped with roller.