CN110253377A - A kind of LOW-E glass production processing technology - Google Patents

Abstract

The present invention relates to glass processing field, specifically a kind of LOW-E glass production processing technology, the technique crushes block stock the following steps are included: S1 in pulverizer；Smashed raw material is dried S2；Raw material is passed through the iron tramp in electromagnet removal raw material by S3；Raw material and auxiliary material mixed preparing are formed mixture by S4；Mixture is put into pot furnace high temperature and melted, forms liquid glass by S5；S6 pours into liquid glass in glass-forming die, is cooled to solid glass；Solid glass is put into Equipment for Heating Processing and anneals, is quenched by S7；S8 cuts the glass after heat treatment, forms the transportable glass of certain specification；Glass after cutting is put into grinding apparatus by S9, and grinding apparatus polishes to the edge of glass.The production and processing technology shortens the period of glass production processing, reduces the high strength of direct labor, improves the degree of automation of glass production, has preferable application value.

Description

A kind of LOW-E glass production processing technology

Technical field

The present invention relates to glass processing field, specifically a kind of LOW-E glass production processing technology.

Background technique

Low-E glass is also known as low emissivity glass, is to plate the film of multiple layer metal or other compounds composition in glass surface It is product；Its film plating layer has to the characteristic of visible light high transmission and centering far infrared high reflection, make it with simple glass and Traditional coated glass for building is compared, and has excellent heat insulation and good translucency；Glass is important Building wood Material, with the continuous improvement required decorating building, usage amount of the glass in building trade also constantly increases；However, Current people are when selecting the glass door and window of building, other than considering its aesthetics and external appearance characteristic, more focus on the control of its heat, The problems such as cost of freezing and internal sunlight project comfortable balance；This allows for the upstart in coated glass family: Low-E glass is de- Grain husk and go out, become focus concerned by people.

Man-hour manually hand-held grinding apparatus is mostly used to polish the edge of glass greatly in traditional glass production processing technology, This kind of mode is not only time-consuming and laborious, and substantially prolongs the production cycle of glass, is unfavorable for the quick production of glass.

Summary of the invention

For the problems of the prior art, the present invention provides a kind of LOW-E glass production processing technology, the production and processings Technique shortens the period of glass production processing, reduces the high strength of direct labor, improves the automation of glass production Degree has preferable application value.

The technical solution adopted by the present invention to solve the technical problems is: a kind of LOW-E glass production processing technology, the work Skill the following steps are included:

S1 crushes block stock in pulverizer；

Raw material smashed in S1 is dried S2 using dry hot-air；

Raw material in S2 is removed the iron tramp contained in raw material by electromagnet by S3；

The auxiliary material proportionally mixed preparing of raw material and production glass in S3 is formed mixture by S4；

Mixture in S4 is put into pot furnace and carries out high temperature melt by S5, forms liquid glass；

S6 pours into the liquid glass in S5 in glass-forming die, and liquid glass is cooled in glass-forming die Solid glass；

The solid glass formed in S6 is put into Equipment for Heating Processing and is annealed, is quenched by S7；

Glass after being heat-treated in S7 is cut, forms the transportable glass of certain specification by S8；

Glass after cutting in S8 is put into grinding apparatus by S9, and grinding apparatus polishes to the edge of glass；

S10, by S9, treated that glass is put into warehouse；

The grinding apparatus used in above-mentioned S9 includes the pneumatic sliding rail of No.1, installing mechanism, control switch, supporting module, adds Work cabinet, high-pressure water nozzle, polishing part and cleaning modul, the pneumatic sliding rail of No.1 are slidably connected for fixing described in glass Installing mechanism, and the inside of the pneumatic sliding rail of the No.1 is run through and is fixed on the inside of the machining box；The machining box The fixed supporting module in bottom, and the side of the supporting module is equipped with the control switch；The machining box it is interior The high-pressure water nozzle of portion top constant tilt, and the inside of the machining box is equipped with the polishing part；The processing case The bottom of body is fixed for clearing up the cleaning modul of glass surface spot；The control switch is electrically connected the fitting machine Structure, the supporting module, the high-pressure water nozzle and the polishing part；The high-pressure water nozzle includes shell, and shell passes through one The cylinder of big one two small cup-shapeds forms, and small cylinder is equipped with external screw thread, and high-pressure water nozzle is mounted on by the external screw thread on small cylinder In machining box, the upper end of small cylinder is equipped with threaded hole, and screw rod is rotatably installed in threaded hole, and rubber piston, rubber are equipped in big cylinder Glue piston, the lower end of screw rod is rotatably installed in the middle part of rubber piston, and the upper end of screw rod is equipped with knob；The rubber piston Thickness is gradually increased from middle part to both sides, and rubber piston is equipped with the nozzle of multi-turn taper.

Specifically, the installing mechanism include side installing mechanism, vacuum occur pump, No.1 aerodynamic slider, No. two suckers and No.1 motor, the No.1 aerodynamic slider are slidably connected the pneumatic sliding rail of the No.1, and the side of the No.1 aerodynamic slider is solid The fixed No.1 motor；The No.1 motor is rotatablely connected the vacuum and pumps, and the side that the vacuum pumps is fixed No. two suckers；The fixed side installing mechanism of the side wall that the vacuum pumps, and the side installing mechanism includes No.1 Sucker and No.1 electric putter；The No.1 electric putter is fixed on the side that the vacuum pumps, and the No.1 electric putter The fixed No.1 sucker in one end；The No.1 sucker is all connected with the vacuum with No. two suckers and pumps.

Specifically, four side installing mechanisms are fixed in cross-shaped structure in the side that the vacuum pumps, and described It is 0 ° -360 ° that rotation angle between pump and the No.1 motor, which occurs, for vacuum.

Specifically, the supporting module includes bracket, water circulating pump, strainer and transport roller, the bracket is fixed on described The side of machining box, and the top surface of the bracket is rotatablely connected the transport roller；The fixed filter in the inside of the bracket Net, and the inside of the bracket is equipped with the water circulating pump；The water circulating pump connects the high-pressure water nozzle.

Specifically, the section of the strainer uses the structure of triangle, and the strainer is fixed on the described of hollow structure The inner tip of bracket.

Specifically, the two sides of the machining box are equipped with protection band, and closure knot is run through in the inside of the machining box The pneumatic sliding rail of the No.1 of structure；Several installing mechanisms are equidistantly fixed in the side of the pneumatic sliding rail of No.1.

Specifically, the polishing part includes No. two Pneumatic guide rails, No. two aerodynamic sliders, No.1 edging module and No. two edgings Module；No. two Pneumatic guide rails are fixed on the top of the machining box, and the basal sliding of No. two Pneumatic guide rails connects Connect No. two aerodynamic sliders；The fixed No.1 edging module in the bottom of No. two aerodynamic sliders, the machining box Side-walls are equipped with second polishing part identical with the No.1 edging module.

Specifically, the No.1 edging module includes No. two electric putters, connection frame, No. two motors, No.1 polishing pad and two Number polishing pad, No. two electric putters are fixed on the bottom of No. two aerodynamic sliders, and the bottom of No. two motors is equipped with The connection frame；The inside of the connection frame is equipped with accommodating cavity, and No. two motors are installed in the inside of the connection frame；Institute The one end for stating No. two motors is rotatablely connected the No.1 polishing pad, and the inside of the No.1 polishing pad is equipped with described No. two polishings Disk；The inside of No. two polishing pads is equipped with material-dropping hole, and the material-dropping hole is connected to the accommodating cavity.

Specifically, the No.1 polishing pad uses disc-shaped structure, and the roughness of the No.1 polishing pad is greater than described The roughness of No. two polishing pads；The surface of No. two polishing pads is equidistantly opened in several horn-like material-dropping holes.

Specifically, the cleaning modul includes telescopic unit, sponge sheet, support arm and runner, the support arm is fixed on The inside of the machining box, and the bottom of the support arm is equipped with the sponge sheet；Two insides of the support arm pass through institute It states telescopic unit and is rotatablely connected the runner, the telescopic unit includes sleeve, spring and guide rod, and the sleeve is fixed on described The inside of support arm, and the inside of the sleeve connects the guide rod by the spring；The guide rod rotation connection is described to be turned Wheel.

Beneficial effects of the present invention:

(1) this processing technology use grinding apparatus, using telescopic fixed mechanism can to different size of glass into The stable fixation of row, reduces the percentage of damage of processing, while glass can be made to rotate, and provides convenience for comprehensive processing of glass.

(2) grinding apparatus that this processing technology uses, can then pass through the first edging if rectangle when carrying out edging processing Mechanism is polished in a manner of moving back and forth, if glass is circle, can by the rotation of glass to the edge of glass into Row polishing, use scope is wide, at the same polishing when utilize knockdown mill, polishing it is high-efficient, can polishing when voluntarily flow Polish out solvent, polishing it is more uniform.

(3) grinding apparatus that this processing technology uses, openable high-pressure nozzle carries out cooling and glass during the grinding process The cleaning on surface, collaboration cleaning mechanism can effectively reinforce cleaning effect, provide convenience for following process, save processing when Between.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the structural schematic diagram for the grinding apparatus that this processing technology uses；

Fig. 2 is the structural schematic diagram of fixed mechanism shown in FIG. 1；

Fig. 3 is machining box schematic diagram of internal structure shown in FIG. 1；

Fig. 4 is the first edging mechanism structural schematic diagram shown in Fig. 3；

Fig. 5 is cleaning mechanism structural schematic diagram shown in Fig. 3；

Fig. 6 is the structural schematic diagram of high-pressure water nozzle of the invention；

In figure: 1, the pneumatic sliding rail of No.1,2, installing mechanism, 21, side installing mechanism, 211, No.1 sucker, 212, No.1 electricity Push rod, 22, vacuum pump, 23, No.1 aerodynamic slider, 24, No. two suckers, 25, No.1 motor, 3, control switch, 4, support Module, 41, bracket, 42, water circulating pump, 43, strainer, 44, transport roller, 5, machining box, 51, protection band, 6, high-pressure water nozzle, 61, shell, 62, rubber piston, 63, nozzle, 7, polishing part, 71, No. two Pneumatic guide rails, 72, No. two aerodynamic sliders, 73, No.1 Edging module, 731, No. two electric putters, 732, connection frame, 7321, accommodating cavity, 733, No. two motors, 734, No.1 polishing pad, 735, No. two polishing pads, 7351, material-dropping hole, 74, No. two edging modules, 8, cleaning modul, 81, telescopic unit, 811, sleeve, 812, spring, 813, guide rod, 82, sponge sheet, 83, support arm, 84, runner.

Specific embodiment

In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below Specific embodiment is closed, the present invention is further explained.

As shown in Fig. 1 and Fig. 6, a kind of LOW-E glass production processing technology of the present invention, which includes following step It is rapid:

S1 crushes block stock in pulverizer；

Raw material smashed in S1 is dried S2 using dry hot-air；

Raw material in S2 is removed the iron tramp contained in raw material by electromagnet by S3；

The auxiliary material proportionally mixed preparing of raw material and production glass in S3 is formed mixture by S4；

Mixture in S4 is put into pot furnace and carries out high temperature melt by S5, forms liquid glass；

S6 pours into the liquid glass in S5 in glass-forming die, and liquid glass is cooled in glass-forming die Solid glass；

The solid glass formed in S6 is put into Equipment for Heating Processing and is annealed, is quenched by S7；

Glass after being heat-treated in S7 is cut, forms the transportable glass of certain specification by S8；

Glass after cutting in S8 is put into grinding apparatus by S9, and grinding apparatus polishes to the edge of glass；

S10, by S9, treated that glass is put into warehouse；

The grinding apparatus used in above-mentioned S9 includes the pneumatic sliding rail 1 of No.1, installing mechanism 2, control switch 3, supporting module 4, machining box 5, high-pressure water nozzle 6, polishing part 7 and cleaning modul 8, the pneumatic sliding rail 1 of No.1 are slidably connected for fixing The installing mechanism 2 of glass, and the inside of the pneumatic sliding rail 1 of the No.1 is run through and is fixed on the inside of the machining box 5； The fixed supporting module 4 in the bottom of the machining box 5, and the side of the supporting module 4 is equipped with the control switch 3； The high-pressure water nozzle 6 of the inner tip constant tilt of the machining box 5, and the inside of the machining box 5 is equipped with institute State polishing part 7；The bottom of the machining box 5 is fixed for clearing up the cleaning modul 8 of glass surface spot；The control Switch 3 is electrically connected the installing mechanism 2, the supporting module 4, the high-pressure water nozzle 6 and the polishing part 7；The height Pressing sprinkler head 6 includes shell 61, and for shell 61 by the cylinder composition of small one and large one two cup-shapeds, small cylinder is equipped with external screw thread, high Pressure sprinkler head 6 is mounted in machining box 5 by the external screw thread on small cylinder, and the upper end of small cylinder is equipped with threaded hole, screw rod rotation peace In threaded hole, rubber piston 62 is equipped in big cylinder, rubber piston 62, the lower end of screw rod is rotatably installed in rubber piston 62 Middle part, the upper end of screw rod is equipped with knob；The thickness of the rubber piston 62 is gradually increased from middle part to both sides, rubber piston 62 It is equipped with the nozzle 63 of multi-turn taper.

Specifically, as depicted in figs. 1 and 2, the installing mechanism 2 includes side installing mechanism 21, vacuum generation pump 22, No.1 23, No. two suckers 24 of aerodynamic slider and No.1 motor 25, the No.1 aerodynamic slider 23 are slidably connected the pneumatic sliding rail of the No.1 1, and the fixed No.1 motor 25 in side of the No.1 aerodynamic slider 23；The No.1 motor 25 is rotatablely connected the vacuum Pump 22 occurs, and fixed No. two suckers 24 in side of pump 22 occur for the vacuum；The side wall that pump 22 occurs for the vacuum is solid The fixed side installing mechanism 21, and the side installing mechanism 21 includes No.1 sucker 211 and No.1 electric putter 212；The No.1 Electric putter 212 is fixed on the side that pump 22 occurs for the vacuum, and the fixed No.1 in one end of the No.1 electric putter 212 is inhaled Disk 211；The No.1 sucker 211 is all connected with the vacuum with No. two suckers 24 and pump 22 occurs, and the one side of glass is close to The installing mechanism 2 opens the vacuum and pump 22 occurs, using the No.1 sucker 211 and No. two suckers 24 to glass Attraction fixation is carried out, the No.1 electric putter 212 can be driven according to the size of glass, is allowed to stretch to suitable length.

Specifically, as shown in Fig. 2, four side installations are fixed in cross-shaped structure in the side that pump 22 occurs for the vacuum Mechanism 21, and it is 0 ° -360 ° that the rotation angle between pump 22 and the No.1 motor 25, which occurs, for the vacuum, in order to ensure fixation Stablize.

Specifically, as shown in Figure 1, the supporting module 4 include bracket 41, water circulating pump 42, strainer 43 and transport roller 44, The bracket 41 is fixed on the side of the machining box 5, and the top surface of the bracket 41 is rotatablely connected the transport roller 44； The fixed strainer 43 in the inside of the bracket 41, and the inside of the bracket 41 is equipped with the water circulating pump 42；The circulation Water pump 42 connects the high-pressure water nozzle 6, recycles to realize to cooling and cleaning water.

Specifically, as shown in Figure 1, the section of the strainer 43 uses the structure of triangle, and the strainer 43 is fixed on The inner tip of the bracket 41 of hollow structure, in order to carry out centralized collection to the clast of generation.

Specifically, as depicted in figs. 1 and 2, the two sides of the machining box 5 are equipped with protection band 51, and the machining box 5 Inside run through closed structure the pneumatic sliding rail 1 of the No.1；Several are equidistantly fixed in the side of the pneumatic sliding rail 1 of No.1 The installing mechanism 2, for the ease of realizing the processing of circulation.

Specifically, as shown in Figure 3 and Figure 4, the polishing part 7 includes 71, No. two aerodynamic sliders 72, one of No. two Pneumatic guide rails Number edging module 73 and No. two edging modules 74；No. two Pneumatic guide rails 71 are fixed on the top of the machining box 5, and institute The basal sliding for stating No. two Pneumatic guide rails 71 connects No. two aerodynamic sliders 72；The bottom of No. two aerodynamic sliders 72 is fixed The No.1 edging module 73, the side-walls of the machining box 5 are equipped with identical with the No.1 edging module 73 described the Two polishing parts 74 select different edging mechanisms that can carry out edging to glass of different shapes.

Specifically, as shown in Figure 3 and Figure 4, the No.1 edging module 73 include No. two electric putters 731, connection frame 732, No. two motors 733, No.1 polishing pad 734 and No. two polishing pads 735, No. two electric putters 731 are fixed on described No. two pneumatically The bottom of sliding block 72, and the bottom of No. two motors 733 is equipped with the connection frame 732；The inside of the connection frame 732 is equipped with Accommodating cavity 7321, and No. two motors 733 are installed in the inside of the connection frame 732；One end of No. two motors 733 turns The dynamic connection No.1 polishing pad 734, and the inside of the No.1 polishing pad 734 is equipped with No. two polishing pads 735；Described two The inside of number polishing pad 735 is equipped with material-dropping hole 7351, and the material-dropping hole 7351 is connected to the accommodating cavity 7321, by glass It is close to the installing mechanism 2 on one side, opens the vacuum and pump 22 occurs, utilize the No.1 sucker 211 and No. two suckers 24 pairs of glass carry out attraction fixation, can drive the No.1 electric putter 212 according to the size of glass, are allowed to stretch to suitable long Degree.

Specifically, as shown in Figure 3 and Figure 4, the No.1 polishing pad 734 uses disc-shaped structure, and the No.1 is polished The roughness of disk 734 is greater than the roughness of No. two polishing pads 735；The surface of No. two polishing pads 735 equidistantly opens up In several horn-like material-dropping holes 7351, in order to improve grinding efficiency.

Specifically, as shown in Figure 3 and Figure 5, the cleaning modul 8 includes telescopic unit 81, sponge sheet 82,83 and of support arm Runner 84, the support arm 83 is fixed on the inside of the machining box 5, and the bottom of the support arm 83 is equipped with the sponge Piece 82；Two insides of the support arm 83 are rotatablely connected the runner 84, the telescopic unit 81 by the telescopic unit 81 Including sleeve 811, spring 812 and guide rod 813, the sleeve 811 is fixed on the inside of the support arm 83, and the sleeve 811 inside connects the guide rod 813 by the spring 812；The guide rod 813 is rotatablely connected the runner 84, in order to just In carrying out reinforcement cleaning to glass outer side.

The position for changing the installing mechanism 2 by the pneumatic sliding rail 1 of the No.1 is convenient for the processing of circulation, described Supporting module 4 is easy to implement the recycling of whole support and water, and the machining box 5 is convenient for processing to whole, the height The pressure realization of sprinkler head 6 is cooled down and is cleaned to inside, and the realization of polishing part 7 polishes to the edge of glass, is cleared up Glass outer side is cleared up in the realization of module 8；Specifically have:

(1) to needing to polish to glass when, the top that the glass polished will be needed to be placed in the supporting module 4 will The one side of glass is close to the installing mechanism 2, opens the vacuum and pump 22 occurs, utilize the No.1 sucker 211 and described two Number sucker 24 carries out attraction fixation to glass, can drive the No.1 electric putter 212 according to the size of glass, be allowed to stretch to conjunction Suitable length；

(2) fixed glass enters the inside of the machining box 5, root when opening the pneumatic sliding rail 1 of the No.1 Determining according to the shape of glass needs edging mechanism to be used；Described No. two of the No.1 edging module 73 are then driven if rectangle Electric putter 731 makes mill contact glass, makes the mobile polishing that can be realized back and forth of No. two aerodynamic sliders 72 at this time；Polishing When, the polishing solvent of 7321 inner containment of accommodating cavity can be flowed out by the material-dropping hole 7351, it is ensured that polishing is more filled Point, glass can be made to be rotated by 90 ° the polishing for carrying out the other side after the completion of polishing on one side by No. two motors 733；If circle Shape then drives No. two edging modules 74 and glass contact, and driving No. two motors 733 to rotate glass always can be complete At polishing；

(3) clast of generation can be rinsed by opening the high-pressure water nozzle 6 when polishing, while be cooled down, needle To different glass, can by the front-rear position of the small cylinder of adjustment housings 61, so that the dynamics of high pressure water jets to glass is moderate, Improve the processing efficiency of glass, at the same can by screwing knob so that screw rod rotation drive rubber piston 62 inwardly or to Outer movement, when needing biggish impact force, so that rubber piston 62 is to 61 inner recess of shell, shell 61 and rubber are living at this time Space between plug 62 reduces, and the pressure that water is gone out is increased, while the end of nozzle 63 is more concentrated, so that water flow Impact force it is bigger, when impact force is not required to too big so that rubber piston 62 is to 61 outer lug of shell, the end of nozzle 63 at this time Diverging, the impact of water flow weaken greatly；Clast enters in the strainer 43 and is trapped collection；The glass when glass is polished and rotated simultaneously The runner 84 of the cleaning modul 8 of the two sides of glass carries out rolling wiping to the spot of glass outer side, it is ensured that glass surface Cleaning, the spring 812 of the junction of the runner 84 can make the runner 84 be retracted into the support arm 83 or pop-up pair Different-thickness glass outer side is cleared up.

Wherein the No.1 motor 25,733 model of No. two motors use RS-280；The No.1 electric putter 212, two Number 731 model of electric putter uses RD-DA-200406；It is a kind of vacuum pump, model X-150 that pump 22, which occurs, for the vacuum.

LOW-E glass production process equipment of the invention can be to different size of using the telescopic installing mechanism 2 Glass carries out stable fixation, reduces the percentage of damage of processing, while glass can be made to rotate, and provides just for comprehensive processing of glass Benefit；It can then be beaten in a manner of moving back and forth the No.1 edging module 73 when carrying out edging processing if rectangle Mill can polish to the edge of glass by the rotation of glass, use scope is wide, while beating if glass is circle When mill utilize knockdown mill, polishing it is high-efficient, can polishing when voluntarily outflow polishing solvent, polishing it is more uniform； The openable high-pressure water nozzle 6 carries out cooling and the cleaning of glass surface during the grinding process, cooperates with the cleaning modul 8 can It is effective to reinforce cleaning effect, convenience is provided for following process, saves the time of processing.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the description in above embodiment and specification only illustrates the present invention Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these variation and Improvement is both fallen in the scope of protection of present invention.The claimed scope of the invention is by appended claims and its equivalent Object defines.

Claims (10)

1. a kind of LOW-E glass production processing technology, which is characterized in that the technique the following steps are included:

S1 crushes block stock in pulverizer；

Raw material smashed in S1 is dried S2 using dry hot-air；

Raw material in S2 is removed the iron tramp contained in raw material by electromagnet by S3；

The auxiliary material proportionally mixed preparing of raw material and production glass in S3 is formed mixture by S4；

Mixture in S4 is put into pot furnace and carries out high temperature melt by S5, forms liquid glass；

S6 pours into the liquid glass in S5 in glass-forming die, and liquid glass is cooled to solid-state in glass-forming die Glass；

The solid glass formed in S6 is put into Equipment for Heating Processing and is annealed, is quenched by S7；

Glass after being heat-treated in S7 is cut, forms the transportable glass of certain specification by S8；

Glass after cutting in S8 is put into grinding apparatus by S9, and grinding apparatus polishes to the edge of glass；

S10, by S9, treated that glass is put into warehouse；

The grinding apparatus used in above-mentioned S9 includes the pneumatic sliding rail of No.1 (1), installing mechanism (2), control switch (3), branch hold mode Block (4), machining box (5), high-pressure water nozzle (6), polishing part (7) and cleaning modul (8), the pneumatic sliding rail of No.1 (1) are sliding The dynamic installing mechanism (2) connected for fixing glass, and the inside of the pneumatic sliding rail of the No.1 (1) is run through and is fixed on institute State the inside of machining box (5)；The fixed supporting module (4) in the bottom of the machining box (5), and the supporting module (4) side is equipped with the control switch (3)；The high pressure water jets of the inner tip constant tilt of the machining box (5) Head (6), and the inside of the machining box (5) is equipped with the polishing part (7)；The bottom of the machining box (5) is fixed for Clear up the cleaning modul (8) of glass surface spot；The control switch (3) is electrically connected the installing mechanism (2), described Supporting module (4), the high-pressure water nozzle (6) and the polishing part (7)；The high-pressure water nozzle (6) includes shell (61), shell Body (61) is made up of the cylinder of small one and large one two cup-shapeds, and small cylinder is equipped with external screw thread, and high-pressure water nozzle (6) passes through on small cylinder External screw thread be mounted in machining box (5), the upper end of small cylinder is equipped with threaded hole, and screw rod is rotatably installed in threaded hole, big cylinder In be equipped with rubber piston (62), rubber piston (62), the lower end of screw rod is rotatably installed in the middle part of rubber piston (62), screw rod Upper end be equipped with knob；The thickness of the rubber piston (62) is gradually increased from middle part to both sides, and rubber piston (62) is equipped with The nozzle (63) of multi-turn taper.

2. a kind of LOW-E glass production processing technology according to claim 1, it is characterised in that: the installing mechanism (2) Pump (22), No.1 aerodynamic slider (23), No. two suckers (24) and No.1 motor occurs including side installing mechanism (21), vacuum (25), the No.1 aerodynamic slider (23) is slidably connected the pneumatic sliding rail of the No.1 (1), and the No.1 aerodynamic slider (23) The fixed No.1 motor (25) in side；The No.1 motor (25) is rotatablely connected the vacuum and pump (22) occurs, and described true Fixed No. two suckers (24) in side of pump (22) occur for sky；The fixed side installation of side wall of pump (22) occurs for the vacuum Mechanism (21), and the side installing mechanism (21) includes No.1 sucker (211) and No.1 electric putter (212)；The No.1 electricity pushes away Bar (212) is fixed on the side that pump (22) occurs for the vacuum, and the fixed No.1 in one end of the No.1 electric putter (212) Sucker (211)；The No.1 sucker (211) and No. two suckers (24) are all connected with the vacuum and pump (22) occur.

3. a kind of LOW-E glass production processing technology according to claim 2, it is characterised in that: the vacuum pumps (22) four side installing mechanisms (21) are fixed in cross-shaped structure in side, and pump (22) and described one occurs for the vacuum Rotation angle between number motor (25) is 0 ° -360 °.

4. a kind of LOW-E glass production processing technology according to claim 1, it is characterised in that: the supporting module (4) Including bracket (41), water circulating pump (42), strainer (43) and transport roller (44), the bracket (41) is fixed on the machining box (5) side, and the top surface of the bracket (41) is rotatablely connected the transport roller (44)；The inside of the bracket (41) is fixed The strainer (43), and the inside of the bracket (41) is equipped with the water circulating pump (42)；The water circulating pump (42) connects institute State high-pressure water nozzle (6).

5. a kind of LOW-E glass production processing technology according to claim 4, it is characterised in that: the strainer (43) Section uses the structure of triangle, and the strainer (43) is fixed on the inner tip of the bracket (41) of hollow structure.

6. a kind of LOW-E glass production processing technology according to claim 1, it is characterised in that: the machining box (5) Two sides be equipped with protection band (51), and the inside of the machining box (5) run through closed structure the pneumatic sliding rail of the No.1 (1)；Several installing mechanisms (2) are equidistantly fixed in the side of the pneumatic sliding rail of No.1 (1).

7. a kind of LOW-E glass production processing technology according to claim 1, it is characterised in that: polishing part (7) packet Include No. two Pneumatic guide rails (71), No. two aerodynamic sliders (72), No.1 edging module (73) and No. two edging modules (74)；Described two Number Pneumatic guide rail (71) is fixed on the top of the machining box (5), and the basal sliding of No. two Pneumatic guide rails (71) connects Connect No. two aerodynamic sliders (72)；The fixed No.1 edging module (73) in the bottom of No. two aerodynamic sliders (72), institute The side-walls for stating machining box (5) are equipped with the No.1 edging module (73) identical second polishing part (74).

8. a kind of LOW-E glass production processing technology according to claim 7, it is characterised in that: the No.1 edging mould Block (73) includes No. two electric putters (731), connection frame (732), No. two motors (733), No.1 polishing pad (734) and No. two polishings Disk (735), No. two electric putters (731) are fixed on the bottom of No. two aerodynamic sliders (72), and No. two motors (733) bottom is equipped with the connection frame (732)；The inside of connection frame (732) is equipped with accommodating cavity (7321), and described The inside for connecting frame (732) is installed by No. two motors (733)；One end rotation connection described one of No. two motors (733) Number polishing pad (734), and the inside of the No.1 polishing pad (734) is equipped with No. two polishing pads (735)；No. two polishings The inside of disk (735) is equipped with material-dropping hole (7351), and the material-dropping hole (7351) is connected to the accommodating cavity (7321).

9. a kind of LOW-E glass production processing technology according to claim 8, it is characterised in that: the No.1 polishing pad (734) disc-shaped structure is used, and the roughness of the No.1 polishing pad (734) is greater than the thick of No. two polishing pads (735) Rugosity；The surface of No. two polishing pads (735) is equidistantly opened in several horn-like material-dropping holes (7351).

10. a kind of LOW-E glass production processing technology according to claim 1, it is characterised in that: the cleaning modul It (8) include telescopic unit (81), sponge sheet (82), support arm (83) and runner (84), the support arm (83) is fixed on described The inside of machining box (5), and the bottom of the support arm (83) is equipped with the sponge sheet (82)；The two of the support arm (83) Inside is rotatablely connected the runner (84) by the telescopic unit (81), and the telescopic unit (81) includes sleeve (811), bullet Spring (812) and guide rod (813), the sleeve (811) are fixed on the inside of the support arm (83), and the sleeve (811) Inside connects the guide rod (813) by the spring (812)；The guide rod (813) is rotatablely connected the runner (84).