CN109180012A - A kind of processing method of high intensity antifog glass - Google Patents

Abstract

System of the present invention provides a kind of processing method of high-intensitive antifog glass, successively the following steps are included: fluting, two surfaces of glass plate all form equally distributed recessed groove；Frosted；Cleaning；Glass plate is put into heat in high temperature furnace and strengthen by primary reinforcement；Secondary hardening injects reinforcing fibre glue into the recessed groove of glass plate, after standing drying；Antifog processing sprays anti-fog coating to two surfaces of glass plate respectively；Polishing, is processed by shot blasting the anti-fog coating on two surface of glass plate.Reinforcing fibre colloid is embedded in the inside of glass surface by the present invention, the mechanical strength of glass structure can be effectively improved, setting fluting procedure of processing is before High-Temperature Strengthening, glass structure after capable of effectively avoiding fluting movement damage from strengthening, High-Temperature Strengthening is set before injecting reinforcing fibre glue simultaneously, it can be avoided the performance of the environmental disruption reinforcing fibre glue of High-Temperature Strengthening, glass obtained has the function of good double-faced waterproofing mist simultaneously.

Description

A kind of processing method of high intensity antifog glass

Technical field

The present invention relates to glass processing field, the processing method for specifically disclosing a kind of high-intensitive antifog glass.

Background technique

Glass is amorphous inorganic non-metallic material, is usually primary raw material with a variety of inorganic minerals, is additionally incorporated a small amount of Made of auxiliary material, main component is silica and other oxides.Glass is widely used in building, automobile, daily, skill The fields such as art, medical treatment, chemistry, electronics, instrument, nuclear engineering.

Antifog glass is usually used in the fields such as building partition, vehicle glass, hazes needs by balancing glass for vehicle glass The temperature of glass two sides eliminates water mist；For hazing in building partition, then the mode of wiping is mostly used to remove water mist.Above two The mode for kind removing water mist all compares energy consumption, trouble, and due to different environmental conditions, the surfaces of glass plate two sides, which has, to haze May, it hazes for the outside of building glass window, then can not remove water mist, antifog glass in the prior art by way of wiping Glass can not effectively remove the water mist of glass two sides, and the mechanical strength of these glass is insufficient, is unable to satisfy building, automotive field pair The requirement of mechanical strength.

Summary of the invention

Based on this, it is necessary to it is directed to prior art problem, a kind of processing method of high-intensitive antifog glass is provided, it is obtained Glass has the function of good water-mist-proof, while having excellent toughness.

To solve prior art problem, the processing method that the present invention discloses a kind of high-intensitive antifog glass, successively include with Lower step:

A, it slots: slot treatment being carried out respectively to two surfaces of glass plate, two surfaces of glass plate all form equally distributed Recessed groove；

B, frosted processing frosted: is carried out respectively to two surfaces of glass plate；

C, it cleans: glass plate is cleaned up, and the moisture of dry removal glass pane surface；

D, primary reinforcement: glass plate is put into heating in 300~600 DEG C of high temperature furnace and strengthens 20~50min；

E, secondary hardening: injecting reinforcing fibre glue into the recessed groove of glass plate, and it is fine that reinforcement is formed after standing drying, in recessed groove Tie up colloid；

F, antifog processing: spraying anti-fog coating to two surfaces of glass plate respectively, and after standing 1~2h, baking obtains antifog painting Layer；

G, it polishes: the anti-fog coating on two surface of glass plate is processed by shot blasting.

Further, in step A, slot treatment is completed by laser slotting or chemical etching.

Further, in step A, the depth of recessed groove is 20~100 μm.

Further, in step A, recessed groove is distributed in reticular structure.

Further, in step C, glass plate is put passes through ultrasonic cleaning in the sink.

Further, in step D, the heating temperature of high temperature furnace is 300~450 DEG C, and heating time is 20~30min.

Further, in step E, reinforcing fibre glue is the stickiness resin for being mixed with glass fibre and/or carbon fiber.

Further, in step E, time of repose be 50~90min, drying temperature be 70~90 DEG C, baking time be 2~ 3h。

Further, in step F, baking temperature is 80~100 DEG C, and baking time is 3~5h.

The invention has the benefit that the processing method that the present invention discloses a kind of high-intensitive antifog glass, by reinforcing fibre Colloid is embedded in the inside of glass surface, can effectively improve the mechanical strength of glass structure, has finished glass excellent Toughness, setting fluting procedure of processing can effectively avoid fluting movement from damaging the glass structure after strengthening before High-Temperature Strengthening, High-Temperature Strengthening is set before injecting reinforcing fibre glue simultaneously, can be avoided the property of the environmental disruption reinforcing fibre glue of High-Temperature Strengthening Can, overall processing reliable consistent, glass obtained has the function of good double-faced waterproofing mist, water-mist-proof structure and glass plate simultaneously Between connection relationship it is reliable.

Specific embodiment

To further understand the features of the present invention, technological means and specific purposes achieved, function, below with reference to Present invention is further described in detail for specific embodiment.

The processing method that the embodiment of the present invention discloses a kind of high-intensitive antifog glass, successively the following steps are included:

A, it slots: slot treatment being carried out respectively to two surfaces of glass plate, two surfaces of glass plate all form equally distributed Recessed groove；

B, frosted: carrying out frosted processing to two surfaces of glass plate respectively, can provide good connection for subsequent processing Basis, two surfaces of glass plate, which are removed, to be provided with the position of recessed groove and is provided with frosted structure；

C, it cleaning: glass plate is cleaned up, and the moisture of dry removal glass pane surface, it is preferable that drying temperature is 50~ 70 DEG C, the clast that fluting and sanding step are formed is removed, can effectively ensure the reliability of following process；

D, primary reinforcement: glass plate is put into heating in 300~600 DEG C of high temperature furnace and strengthens 20~50min, glass is carried out high Medium-temperature reinforced processing；

E, secondary hardening: injecting reinforcing fibre glue into the recessed groove of glass plate, and it is fine that reinforcement is formed after standing drying, in recessed groove Tie up colloid, it is preferable that before injecting reinforcing fibre glue, guarantor first is stained with to the part on two surface of glass plate in addition to recessed groove Retaining tape after injecting reinforcing fibre glue, is pushed using a plate mould from the top of recessed groove, after the molding of reinforcing fibre colloid again It tears protective glue band off, can effectively avoid reinforcing fibre glue from being attached to the place other than recessed groove, can be effectively reduced to completion The required precision of the machine of injecting glue movement, while the position of plate mould limitation reinforcing fibre glue is set, it can be ensured that reinforcing fibre The cell wall of glue and recessed groove comes into full contact with, and can effectively improve reinforcing fibre colloid and recessed groove is adhesively joined effect, can be true Protect the processing effect of reinforcing fibre colloid；

F, antifog processing: spraying anti-fog coating to two surfaces of glass plate respectively, and after standing 1~2h, baking obtains antifog painting Layer, anti-fog coating are a kind of nano paints for being attached to substrate surface, water mist capable of being prevented to generate, a part of anti-fog coating attachment In in the frosted structure of glass pane surface, capable of effectively ensuring the adhesion effect of anti-fog coating, the attachment of another part anti-fog coating In the outer surface of reinforcing fibre colloid, the good connecting effect of reinforcing fibre colloid and anti-fog coating；

G, it polishes: the anti-fog coating on two surface of glass plate is processed by shot blasting, it can be ensured that the surface of finished glass is smooth, symbol The market demand is closed, while can effectively reinforce anti-fog effect.

Reinforcing fibre colloid is embedded in the inside of glass surface by the present invention, and the machinery that can effectively improve glass structure is strong Degree, makes finished glass have excellent toughness, and setting fluting procedure of processing can effectively avoid fluting dynamic before High-Temperature Strengthening Make the glass structure after damage is strengthened, while High-Temperature Strengthening is set before injecting reinforcing fibre glue, can be avoided High-Temperature Strengthening Environmental disruption reinforcing fibre glue performance, overall processing reliable consistent, glass obtained has good double-faced waterproofing simultaneously Mist function, the connection relationship between water-mist-proof structure and glass plate are reliable.

In the present embodiment, in step A, slot treatment is completed by laser slotting or chemical etching, the essence of laser slotting Degree is higher, and cost is relatively low for chemical etching.

In the present embodiment, in step A, the depth of recessed groove is 20~100 μm, can effectively ensure reinforcing fibre colloid Thickness, so that it is guaranteed that the reinforcing effect of mechanical strength, while recess groove depth appropriate will not influence the knot of glass plate itself Structure can effectively ensure the mechanical strength of finished glass entirety.

In the present embodiment, in step A, recessed groove is distributed in reticular structure, i.e., all recessed grooves are connected to form netted Structure can effectively improve the firm performance of reinforcing fibre colloid, strong so as to effectively improve the whole machinery of finished glass Degree.

In the present embodiment, in step C, glass plate is put in the sink through ultrasonic cleaning, the cleaning of ultrasonic cleaning Effect is good, can effectively remove the dirt being hidden in fine pits structure, can effectively for following process provide one it is excellent Processing basis.

In the present embodiment, in step D, the heating temperature of high temperature furnace is 300~450 DEG C, heating time is 20~ 30min。

In the present embodiment, in step E, reinforcing fibre glue is the stickiness resin for being mixed with glass fibre and/or carbon fiber, glass Glass fiber and carbon fiber are provided with stronger mechanical performance, can effectively improve the mechanical strength of finished glass structure, stickiness tree Rouge can be epoxy resin.

In the present embodiment, in step E, after injecting reinforcing fibre glue, time of repose is 50~90min, and drying temperature is 70~90 DEG C, baking time is 2~3h.

In the present embodiment, in step F, baking temperature is 80~100 DEG C, and baking time is 3~5h.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously Limitations on the scope of the patent of the present invention therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to guarantor of the invention Protect range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (9)

1. it is a kind of high intensity antifog glass processing method, which is characterized in that successively the following steps are included:

A, it slots: slot treatment being carried out respectively to two surfaces of glass plate, two surfaces of glass plate all form equally distributed Recessed groove；

B, frosted processing frosted: is carried out respectively to two surfaces of glass plate；

C, it cleans: glass plate is cleaned up, and the moisture of dry removal glass pane surface；

D, primary reinforcement: glass plate is put into heating in 300~600 DEG C of high temperature furnace and strengthens 20~50min；

E, secondary hardening: injecting reinforcing fibre glue into the recessed groove of glass plate, and it is fine that reinforcement is formed after standing drying, in recessed groove Tie up colloid；

F, antifog processing: spraying anti-fog coating to two surfaces of glass plate respectively, and after standing 1~2h, baking obtains antifog painting Layer；

G, it polishes: the anti-fog coating on two surface of glass plate is processed by shot blasting.

2. a kind of processing method of high-intensitive antifog glass according to claim 1, which is characterized in that in step A, fluting Processing is completed by laser slotting or chemical etching.

3. a kind of processing method of high-intensitive antifog glass according to claim 1 or 2, which is characterized in that in step A, The depth of recessed groove is 20~100 μm.

4. a kind of processing method of high-intensitive antifog glass according to claim 3, which is characterized in that in step A, recess Slot is distributed in reticular structure.

5. a kind of processing method of high-intensitive antifog glass according to claim 1, which is characterized in that in step C, glass Plate is put passes through ultrasonic cleaning in the sink.

6. a kind of processing method of high-intensitive antifog glass according to claim 1, which is characterized in that in step D, high temperature The heating temperature of furnace is 300~450 DEG C, and heating time is 20~30min.

7. a kind of processing method of high-intensitive antifog glass according to claim 1, which is characterized in that in step E, reinforce Viscose is the stickiness resin for being mixed with glass fibre and/or carbon fiber.

8. a kind of processing method of high-intensitive antifog glass according to claim 7, which is characterized in that in step E, stand Time is 50~90min, and drying temperature is 70~90 DEG C, and baking time is 2~3h.

9. a kind of processing method of high-intensitive antifog glass according to claim 1, which is characterized in that in step F, baking Temperature is 80~100 DEG C, and baking time is 3~5h.