CN109020178A - A kind of tempered glass production homogenization technique - Google Patents

Abstract

The invention belongs to glass homogenization technical field, specifically a kind of tempered glass produces homogenization technique, which includes the following steps, glass is placed in the heating chamber being pushed into homogeneous furnace on glass frame and carries out homogenization；Heating chamber bottom is equipped with shock module, is equipped at the top of heating chamber and preheats husky chamber, preheats husky chamber and is connect by water pipe with external water source；It preheats husky chamber lower end and is equipped with valve, preheat husky chamber two sides and be equipped with dust-break curtain, open valve, put down dust-break curtain, the sand after preheating is sprinkled upon on glass, homogenization is carried out to glass；After homogenization, water is passed through by opening water valve preheats husky intracavitary, waiting insulating process；After insulating process terminates, shock module vibration shakes off the sand on glass into sandbox；After sand is shaken off, the husky intracavitary water of preheating is fallen on glass by valve, is rinsed cooling to glass；The present invention improves the rate of glass thermally equivalent in homogenizing process, improves product quality.

Description

A kind of tempered glass production homogenization technique

Technical field

The invention belongs to glass homogenization technical field, specifically a kind of tempered glass produces homogenization work Skill.

Background technique

Non-glass body substance (such as: nickel sulfide) particle inside tempered glass be cause toughened glass self-explosion it is main because Element, this substance bring glass by the impurity in the raw material of production glass.It is some vulcanization nickel particles by a period of time it Crystal structure is converted to β state from α state, and during this transfer, the volume generation for vulcanizing nickel particle is largely swollen It is swollen.This volume expansion process forms the powerful internal stress of tempered glass, causes toughened glass self-explosion.

Reheating is carried out to tempered glass and the homogenization (also known as hot dipping processing) annealed is generally acknowledged solution self-destruction The effective ways of problem.Tempered glass is again heated to slow cooling after 290-300 degrees centigrade and held for some time, So that the nickel sulphide particles in tempered glass is completed crystal transition in homogenization, the glass that may be revealed is allowed to shift to an earlier date in factory It is broken.The self-destruction rate after tempered glass factory can be effectively reduced in the method, improves yield rate, reduces the friendship generated by self-destruction It logical transport, installation and does over again the influence of generation to subsequent handling.

However in the prior art, temperature uniform rate is lower during glass homogenize process, results at glass homogeneous The quality of reason is lower.

Summary of the invention

In order to make up for the deficiencies of the prior art, a kind of tempered glass proposed by the present invention produces homogenization technique, this hair It is bright that be mainly used for temperature uniform rate during solving the problems, such as glass homogenize process lower.

The technical solution adopted by the present invention to solve the technical problems is: a kind of tempered glass production of the present invention is equal Matter treatment process, the technique include the following steps:

S1: glass is placed in the heating chamber being pushed into homogeneous furnace on glass frame and carries out homogenization, heating chamber bottom Portion is equipped with the shock module with sandbox and contacts with glass frame bottom, is equipped at the top of heating chamber and preheats husky chamber, homogeneous furnace Internal heater is preheated to husky chamber is preheated, and is preheated husky chamber and is connect by water pipe with external water source, and controls water flow by water valve It is passed through；The homogeneous furnace is entering the temperature of air between heating chamber more uniformly, improves when hot-air reacts glass Effect improves the effect of glass homogeneous, improves product quality；

Husky chamber lower end is preheated in S2:S1 and is equipped with valve, is preheated husky chamber two sides and is equipped with dust-break curtain, puts down dust-break curtain, open valve Sand after preheating is sprinkled upon on glass and is sprayed at glass by the sand after preheating to glass progress homogenization by door On, sand and glass contact are evenly heated glass quickly；Since the specific heat capacity of sand is larger, preheating temperature elevation is uniform Change very fast, the time needed for reducing the equal qualitative response of glass, to improve the quality of glass homogeneous, dust-break curtain avoid sand grains with Air-flow, which enters blower, to be influenced to use；After homogenization, water is passed through by opening water valve preheats husky intracavitary, waiting insulating process；

S3: after insulating process terminates, shock module vibration shakes off the sand in S2 on glass into sandbox, passes through shake Dynamic to shake off the sand between glass, sand takes away the heat of glass, also sand has been avoided to be attached to glass surface, influences subsequent Cooling effect is carried out to glass, makes the reduction of glass homogeneous quality；Meanwhile the sand for dropping into sandbox recycles and reuses, and saves Resource improves resource utilization；

After sand is shaken off in S4:S3, opening valve falls in preheating husky intracavitary water on glass, rushes to glass It washes, cool down；Chilling is carried out to glass by water flow, to improve the quality after glass homogeneous；

Wherein, the homogeneous furnace used in S1, including furnace body, blower and heater are provided on furnace body and to be connected to blower Air inlet and air outlet；The furnace interior is separated into heating room, heating chamber, air inlet duct and exhaust passage；The heating chamber Room is set to furnace body middle position；The heater setting is indoor in heating；The air inlet duct is connected to heating room；It is described into Multiple crosswind hole is provided on the side wall of air duct and exhaust passage；Built-in air duct is additionally provided in the heating chamber；In described Setting air duct is the tubular structure that be connected to air inlet duct of one end, built-in air duct far from be provided on air inlet duct side it is multiple built in out Air port；The built-in air outlet setting is towards heating chamber side, with the gas temperature of each position in balanced heating chamber；Institute It states built-in air duct and air inlet duct connectivity part upper horizontal is provided with boss；The boss is arranged on the tube wall of air inlet duct, boss Successively it is vertically arranged with No.1 steel wire, No. two steel wires and No. three steel wires from left to right between bottom of furnace body；Described one Sliding shoe is provided with below number steel wire, No. two steel wires and No. three steel wires；No.1 steel wire upper end is arranged convex In groove on platform, the lower end of No.1 steel wire is fixed on sliding shoe；The upper end of No. two steel wires and No. three steel wires It is contacted with No.1 spring fixed on convex block, the lower end of No. two steel wires and No. three steel wires passes through No. two springs and is fixed on On sliding shoe, No. two steel wires and No. three steel wires contact with each other；The pull slot of bottom of furnace body setting is arranged in the sliding shoe In, sliding shoe is used to No.1 steel wire, No. two steel wires and No. three steel wires taking out cleaning；It is set on the air inlet duct right side wall It is equipped with several equally distributed movable plates；The movable plate is hinged on air inlet duct right side wall by bracket bias, movable plate Front end is contacted with No. three steel wires, and movable plate is used to stir the air in air inlet duct；

When work, blower air blast enters heating room by air inlet, and air enters in air inlet duct by the heating of heater, On the one hand, air is blown movable plate and is rotated centered on hinged place, in rotation process movable plate by the air agitation in air inlet duct, It heats the temperature of air more uniform, then is driven on No. three steel wires by the friction between movable plate and No. three steel wires Lower shaking makes No. three steel wires and No. two steel wires generate relative displacement, makes to need across No. three steel wires and No. two steel wires Air be further stirred, make the temperature of air enter heating chamber between more uniformly, improve hot-air it is anti-to glass Seasonable effect improves the effect of glass homogeneous, improves product quality；On the other hand, there are glass powder dirt, glass in heating chamber It after glass dust is blown by air, is recycled by gas, a part of glass dust adheres to and sequentially pass through on No. three steel wires, No. two Steel wire and No.1 steel wire be easy to cause the blocking of No. two steel wires and No. three steel wire net meshes, reduce the stream of air supply Smooth property, reduces the effect of reaction, is driven by movable plate and carries out relative friction and rolling between No. three steel wires and No. two steel wires It is dynamic, so that dust particles is fallen off or wear into smaller particle, the air flowed blows off, makes to react sustainable progress；For a period of time Afterwards, No.1 steel wire, No. two steel wires and No. three steel wires are pulled out by sliding shoe, to No.1 steel wire, No. two steel wires It is cleared up with No. three steel wire pull-outs, easy to operate, simple and fast, normal use when fully ensuring that work improves production effect Rate；Portion of air enters heating chamber by built-in air duct, improves the rate that gas is full of heating chamber, improves reaction effect Fruit；To guarantee air circulation, the air of entrance is discharged by exhaust passage, and is reentered blower and recycled.

No. two steel wires and No. three are equipped with ox horn frame between steel wire and sliding shoe；The intermediate position of the ox horn frame It is hinged with the fixed frame upper end that is fixed on sliding shoe, the both ends of ox horn frame respectively with No. two steel wires and No. three steel wire lower ends Contact；When work, No. three steel wires are moved down, and are pressed in the right end of ox horn frame, by the hinged rotation of ox horn frame, by No. two steel Silk screen is propped up upwards, on the one hand, is increased and is frustrated momentum between No. two steel wires and No. three steel wires, prevents No. two steel wires and three Mesh on number steel wire is blocked by glass dust；On the other hand, it is constantly moved up and down by No. three steel wires, improves No. two steel Dynamic frequency is frustrated between silk screen and No. three steel wires, makes the air across No. two steel wires and No. three steel wires is needed to be stirred Frequency is accelerated, and the rate of air themperature homogenization is improved, and improves the effect of the equal qualitative response of glass.

The ox horn frame upper outer circumference face is equipped with hangnail；The front end of the hangnail is arranged to arcuate structure, hangnail and two The contact of number spring；When work, ox horn by hangnail stirs No. two springs during being pressed down, and increases the vibration width of No. two springs Degree, to improve the vibration frequency between No. two steel wires and No. three steel wires, on the one hand, the amplitude of vibration increases, and makes mesh In dust preferably fall off, prevent from blocking, improve working efficiency；On the other hand, the quickening of vibration frequency frequency makes empty around The progress faster of the homogenization of temperature degree improves reaction effect.

The front end of the movable plate is provided with several equally distributed arc panels；The left end of the arc panel is circumferentially square It is equipped with several equally distributed volute springs upwards；The front end of the volute spring is arranged in the mesh of No. three steel wires； When work, volute spring front end contacts with No. three steel wires and is arranged in the mesh of No. three steel wires, improves volute spring band The effect of dynamic No. three steel wires shake, improves the rate that surrounding air is stirred, accelerates the homogenization of air themperature；Meanwhile it boring Large dust particle in mesh is effectively improved the fluency that air passes through to rejecting by shape spring at front end.

Corner between the arc panel and movable plate is equipped with air bag, corresponds on arc panel and opens on the position of volute spring Equipped with the venthole being connected to air bag；When work, as movable plate rotates, generates and squeeze when arc panel and No. three steel wires contact Pressure, by the way that air bag is arranged, on the one hand, ensure that the corner between arc panel and movable plate will not become because long-time squeezes Shape influences volute spring and contacts the effect generated with No. three steel wires, improves service life；On the other hand, by squeezing gas Gas in capsule is blown on No. three steel wires from discharge in venthole, is effectively blown off the dust rejected by volute spring, is protected Demonstrate,prove the fluency of air circulation.

Cavity is equipped in the sliding shoe；Gap is provided between the No.1 steel wire and No. two steel wires；Described Gap and cavity perforation connect；When work, gap avoids No.1 steel wire and No. two steel wires generate friction, influences No. two steel wires Effect caused by the relative displacement and shaking of net and No. three steel wires；Meanwhile the glass dust blown off can be blown by gap In cavity, periodically the glass dust accumulated in cavity is cleaned up, reduces the harm of dust bring.

Beneficial effects of the present invention are as follows:

1. the present invention is by being sprayed on glass, sand and glass contact keep glass quick by the sand after preheating Be evenly heated；Since the specific heat capacity of sand is larger, preheating temperature elevation homogenization is very fast, reduces needed for the equal qualitative response of glass Time, to improve the quality of glass homogeneous；Dust-break curtain, which avoids sand grains from entering blower with air-flow, to be influenced to use.

2. the present invention has avoided sand from being attached to glass surface, has influenced by being shaken off the sand between glass by shaking It is subsequent that cooling effect is carried out to glass, make the reduction of glass homogeneous quality；Meanwhile the sand for dropping into sandbox recycles and reuses, It economizes on resources, improves resource utilization.

3. the present invention passes through setting air bag, on the one hand, it ensure that the corner between arc panel and movable plate, it will not be because of length Time extruding deforms, and influences volute spring and contacts the effect generated with No. three steel wires, improves service life；Another party Gas in air bag is blown on No. three steel wires from discharge in venthole by squeezing, will effectively be picked by volute spring by face The dust removed is blown off, and guarantees the fluency of air circulation.

Detailed description of the invention

The present invention will be further explained below with reference to the attached drawings.

Fig. 1 is process flow chart of the invention；

Fig. 2 is main view of the invention；

Fig. 3 is partial enlarged view at A in Fig. 2；

Fig. 4 is the structural schematic diagram of arc panel；

Fig. 5 is partial enlarged view at B in Fig. 2；

Fig. 6 is partial enlarged view at C in Fig. 5；

In figure: furnace body 1, heating room 2, heating chamber 3, air inlet duct 4, exhaust passage 5, built-in air duct 6, built-in air outlet 61, Boss 7, No.1 steel wire 71, two steel wire 72, three steel wire 73, sliding shoe 74, pull slot 75, ox horn frame 76, hangnail 77, movable plate 8, arc panel 81, volute spring 82, air bag 83.

Specific embodiment

It is said as follows using a kind of tempered glass production homogenization technique of Fig. 1-Fig. 6 to an embodiment of the present invention It is bright.

As depicted in figs. 1 and 2, a kind of tempered glass of the present invention produces homogenization technique, which includes such as Lower step:

S1: glass is placed in the heating chamber being pushed into homogeneous furnace on glass frame and carries out homogenization；Heating chamber bottom Portion is equipped with the shock module with sandbox and contacts with glass frame bottom, is equipped at the top of heating chamber and preheats husky chamber, homogeneous furnace Internal heater is preheated to husky chamber is preheated, and is preheated husky chamber and is connect by water pipe with external water source, and controls water flow by water valve It is passed through；The homogeneous furnace is entering the temperature of air between heating chamber more uniformly, improves when hot-air reacts glass Effect improves the effect of glass homogeneous, improves product quality；

Husky chamber lower end is preheated in S2:S1 and is equipped with valve, is preheated husky chamber two sides and is equipped with dust-break curtain, puts down dust-break curtain, open valve Sand after preheating is sprinkled upon on glass and carries out homogenization to glass by door；By the sand after preheating, it is sprayed at glass On, sand and glass contact are evenly heated glass quickly；Since the specific heat capacity of sand is larger, preheating temperature elevation is uniform Change very fast, the time needed for reducing the equal qualitative response of glass, to improve the quality of glass homogeneous；Dust-break curtain avoid sand grains with Air-flow, which enters blower, to be influenced to use；After homogenization, water is passed through by opening water valve preheats husky intracavitary, waiting insulating process；

S3: after insulating process terminates, shock module vibration shakes off the sand in S2 on glass into sandbox；Pass through shake Dynamic to shake off the sand between glass, sand takes away the heat of glass, also sand has been avoided to be attached to glass surface, influences subsequent Cooling effect is carried out to glass, makes the reduction of glass homogeneous quality；Meanwhile the sand for dropping into sandbox recycles and reuses, and saves Resource improves resource utilization；

After sand is shaken off in S4:S3, opening valve falls in preheating husky intracavitary water on glass, rushes to glass It washes, cool down；Chilling is carried out to glass by water flow, to improve the quality after glass homogeneous；

Wherein, the homogeneous furnace used in S1, including furnace body 1, blower and heater are provided on furnace body 1 and are connected to blower Air inlet and air outlet；Heating room 2, heating chamber 3, air inlet duct 4 and exhaust passage 5 are separated into inside the furnace body 1；It is described Heating chamber 3 is set to 1 middle position of furnace body；The heater setting is in heating room 2；The air inlet duct 4 and heating room 2 Connection；Multiple crosswind holes are provided on the air inlet duct 4 and the side wall of exhaust passage 5；In being additionally provided in the heating chamber 3 Set air duct 6；The built-in air duct 6 is the tubular structure that one end is connected to air inlet duct 4, and built-in air duct 6 is far from 4 side of air inlet duct On be provided with multiple built-in air outlets 61；The built-in setting of air outlet 61 is towards 3 side of heating chamber, with balanced heating chamber The gas temperature of each position in room 3；The built-in air duct 6 is provided with boss 7 with 4 connectivity part upper horizontal of air inlet duct；It is described convex Platform 7 is arranged on the tube wall of air inlet duct 4, and boss 7 and furnace body are successively vertically arranged with No.1 steel wire between 1 bottom from left to right 71, No. two steel wires 72 and No. three steel wires 73；Under 71, No. two steel wires 72 of the No.1 steel wire and No. three steel wires 73 Side is provided with sliding shoe 74；71 upper end of No.1 steel wire is arranged in the groove on boss 7, the lower end of No.1 steel wire 71 It is fixed on sliding shoe 74；No.1 spring of the upper end of No. two steel wires 72 and No. three steel wires 73 with fixation on convex block The lower end of contact, No. two steel wires 72 and No. three steel wires 73 passes through No. two springs and is fixed on sliding shoe 74, No. two steel wires Net 72 and No. three steel wires 73 contact with each other；The sliding shoe 74 is arranged in the pull slot 75 of 1 bottom of furnace body setting, sliding shoe 74 are used to 71, No. two steel wires 72 of No.1 steel wire and No. three steel wires 73 taking out cleaning；It is set on 4 right side wall of air inlet duct It is equipped with several equally distributed movable plates 8；The movable plate 8 is hinged on 4 right side wall of air inlet duct by bracket bias, movable plate 8 front end is contacted with No. three steel wires 73, and movable plate 8 is used to stir the air in air inlet duct 4；

When work, blower air blast enters heating room 2 by air inlet, and air enters air inlet duct 4 by the heating of heater In, on the one hand, air is blown movable plate 8 and is rotated centered on hinged place, and movable plate 8 is by the sky in air inlet duct 4 in rotation process Gas mixing is dynamic, heats the temperature of air more uniform, then drives three by the friction between movable plate 8 and No. three steel wires 73 Number steel wire 73 teetertotters, and so that No. three steel wires 73 and No. two steel wires 72 is generated relative displacements, makes to need across No. three steel Silk screen 73 and the air of No. two steel wires 72 are further stirred, and keep the temperature of air more equal between entrance heating chamber 3 It is even, effect when hot-air reacts glass is improved, the effect of glass homogeneous is improved, improves product quality；On the other hand, it heats There are glass powder dirt in chamber 3 is recycled after glass dust is blown by air by gas, the attachment of a part of glass dust and according to It is secondary pass through on No. three steel wires 73, No. two steel wires 72 and No.1 steel wire 71, be easy to cause No. two steel wires 72 and No. three steel The blocking of 73 mesh of silk screen reduces the fluency of air supply, reduces the effect of reaction, drives No. three steel wires by movable plate 8 Relative friction and shaking are carried out between net 73 and No. two steel wires 72, so that dust particles is fallen off or wear into smaller particle, are flowed Dynamic air is blown off, and makes to react sustainable progress；After a period of time, by sliding shoe 74 by 71, No. two steel wires of No.1 steel wire Net 72 and No. three steel wires 73 pull out, and clear up 71, No. two steel wires 72 of No.1 steel wire and No. three pull-outs of steel wire 73, Easy to operate, simple and fast, normal use when fully ensuring that work improves production efficiency；Portion of air passes through built-in air duct 6 Into heating chamber 3, the rate that gas is full of heating chamber 3 is improved, improves reaction effect；To guarantee air circulation, entrance Air is discharged by exhaust passage 5, and is reentered blower and recycled.

As shown in Figure 5 and Figure 6, ox horn frame is equipped between No. two steel wires 72 and No. three steel wires 73 and sliding shoe 74 76；The intermediate position of the ox horn frame 76 and the fixed frame upper end being fixed on sliding shoe 74 are hinged, the both ends point of ox horn frame 76 End in contact is not descended with No. two steel wires 72 and No. three steel wires 73；When work, No. three steel wires 73 are moved down, and are pressed in ox horn frame 76 right end is propped up No. two steel wires 72 by the hinged rotation of ox horn frame 76 upwards, on the one hand, increases No. two steel wires Momentum is frustrated between 72 and No. three steel wires 73, prevents the mesh on No. two steel wires 72 and No. three steel wires 73 by glass dust Blocking；On the other hand, it is constantly moved up and down, is improved between No. two steel wires 72 and No. three steel wires 73 by No. three steel wires 73 Frustrate dynamic frequency, accelerate the frequency for needing the air across No. two steel wires 72 and No. three steel wires 73 to be stirred, improve empty The rate of gas equalizing temperature improves the effect of the equal qualitative response of glass.

As shown in fig. 6, the 76 upper outer circumference face of ox horn frame is equipped with hangnail 77；The front end of the hangnail 77 is arranged to arc Shape structure, hangnail 77 are contacted with No. two springs；When work, ox horn passes through hangnail 77 during being pressed down and stirs No. two springs, Increase the vibration amplitude of No. two springs, to improve the vibration frequency between No. two steel wires 72 and No. three steel wires 73, a side The amplitude in face, vibration increases, and so that the dust in mesh is preferably fallen off, prevents from blocking, and improves working efficiency；On the other hand, it shakes The quickening of dynamic frequency frequency makes the progress faster of the homogenization of ambient air temperature, improves reaction effect.

As shown in Figure 3 and Figure 4, the front end of the movable plate 8 is provided with several equally distributed arc panels 81；The arc The left end of shape plate 81 is along the circumferential direction equipped with several equally distributed volute springs 82；The front end of the volute spring 82 is set It sets in the mesh of No. three steel wires 73；When work, 82 front end of volute spring is contacted with No. three steel wires 73, and is arranged at No. three In the mesh of steel wire 73, the effect that volute spring 82 drives the shake of No. three steel wires 73 is improved, surrounding air is improved and is stirred Rate, accelerate the homogenization of air themperature；Meanwhile 82 front end of volute spring is effectively by large dust particle in mesh to rejecting Improve the fluency that air passes through.

As shown in figure 3, the corner between the arc panel 81 and movable plate 8 is equipped with air bag 83, corresponded on arc panel 81 The venthole being connected to air bag 83 is offered on the position of volute spring 82；When work, as movable plate 8 rotates, arc panel 81 Generate extruding when contacting with No. three steel wires 73, pass through setting air bag 83, on the one hand, ensure that arc panel 81 and movable plate 8 it Between corner will not because long-time squeeze deform, influence volute spring 82 contacted with No. three steel wires 73 generation effect Fruit improves service life；On the other hand, No. three steel wires are blown to by squeezing for the gas in air bag 83 to be discharged from venthole On 73, effectively the dust rejected by volute spring 82 is blown off, guarantees the fluency of air circulation.

As shown in figure 5, being equipped with cavity in the sliding shoe 74；It is set between the No.1 steel wire 71 and No. two steel wires 72 It is equipped with gap；The gap and cavity perforation connect；When work, gap avoids No.1 steel wire 71 and No. two steel wires 72 produce Raw friction influences effect caused by the relative displacement and shaking of No. two steel wires 72 and No. three steel wires 73；Meanwhile blowing off Glass dust can be blown into cavity by gap, periodically be cleaned up the glass dust accumulated in cavity, reduced dust and brought Harm.

Concrete operations process:

When work, blower air blast enters heating room 2 by air inlet, and air enters air inlet duct 4 by the heating of heater In, on the one hand, air is blown movable plate 8 and is rotated centered on hinged place, and movable plate 8 is by the sky in air inlet duct 4 in rotation process Gas mixing is dynamic, heats the temperature of air more uniform, then drives three by the friction between movable plate 8 and No. three steel wires 73 Number steel wire 73 teetertotters, and so that No. three steel wires 73 and No. two steel wires 72 is generated relative displacements, makes to need across No. three steel Silk screen 73 and the air of No. two steel wires 72 are further stirred, and keep the temperature of air more equal between entrance heating chamber 3 It is even, effect of the hot-air to glass when is improved, the effect of glass homogeneous is improved, improves product quality, reduces production cost；It is another Aspect, there are glass powder dirt in heating chamber 3, and after glass dust is blown by air, a part of glass dust, which adheres to, simultaneously successively to be worn 73, No. two steel wires 72 of No. three steel wires and No.1 steel wire 71 are crossed, No. two steel wires 72 and No. three steel wires 73 are be easy to cause The blocking of mesh reduces the fluency of air supply, reduces the effect of reaction, by movable plate 8 drive No. three steel wires 73 with Relative friction and shaking are carried out between No. two steel wires 72, so that dust particles is fallen off or wear into smaller particle, the sky flowed Air-blowing is fallen, and makes to react sustainable progress；After a period of time, by sliding shoe 74 by 71, No. two 72 and of steel wire of No.1 steel wire No. three steel wires 73 pull out, and clear up 71, No. two steel wires 72 of No.1 steel wire and No. three pull-outs of steel wire 73, operation side Just, simple and fast, normal use when fully ensuring that work improves production efficiency.

Although the present invention be illustrated by specific embodiment, it will be appreciated by those skilled in the art that, do not departing from In the case where the scope of the invention, various transformation and equivalent substitute can also be carried out to the present invention.In addition, being directed to particular condition or material Material, can do various modifications to the present invention, without departing from the scope of the present invention.Therefore, the present invention is not limited to disclosed tool Body embodiment, and should include the whole embodiments fallen within the scope of the appended claims.

Claims (6)

1. a kind of tempered glass produces homogenization technique, which is characterized in that the technique includes the following steps:

S1: glass is placed in the heating chamber being pushed into homogeneous furnace on glass frame and carries out homogenization, heating chamber bottom is set There is the shock module with sandbox to contact with glass frame bottom, heating chamber top, which is equipped with, preheats husky chamber, adds in homogeneous furnace Hot device is preheated to husky chamber is preheated, and is preheated husky chamber and is connect by water pipe with external water source, and controls water flow by water valve and be passed through；

Husky chamber lower end is preheated in S2:S1 and is equipped with valve, is preheated husky chamber two sides and is equipped with dust-break curtain, puts down dust-break curtain, open valve, it will Sand after preheating, which is sprinkled upon on glass, carries out homogenization to glass, after homogenization, opens water valve for water and is passed through preheating It is husky intracavitary, wait insulating process；

S3: after insulating process terminates, shock module vibration shakes off the sand in S2 on glass into sandbox；

After sand is shaken off in S4:S3, opening valve falls in preheating husky intracavitary water on glass, glass is rinsed, It is cooling；

Wherein, the homogeneous furnace used in S1, including furnace body (1), blower and heater are provided on furnace body (1) and are connected to blower Air inlet and air outlet；Heating room (2), heating chamber (3), air inlet duct (4) and outlet air are separated into inside the furnace body (1) Road (5)；The heating chamber (3) is set to furnace body (1) middle position；The heater setting is in heating room (2)；It is described Air inlet duct (4) heats room (2) connection；Multiple crosswind holes are provided on the side wall of the air inlet duct (4) and exhaust passage (5)；Institute It states in heating chamber (3) and is additionally provided with built-in air duct (6)；The built-in air duct (6) is the tubulose that one end is connected to air inlet duct (4) Structure, built-in air duct (6) are provided with multiple built-in air outlets (61) on separate air inlet duct (4) side；The built-in air outlet (61) setting is towards heating chamber (3) side, with the gas temperature of balanced heating chamber (3) interior each position；The built-in wind Road (6) and air inlet duct (4) connectivity part upper horizontal are provided with boss (7)；Tube wall of boss (7) setting in air inlet duct (4) On, No.1 steel wire (71), No. two steel wires are successively vertically arranged between boss (7) and furnace body (1) bottom from left to right (72) and No. three steel wires (73)；The lower section of the No.1 steel wire (71), No. two steel wires (72) and No. three steel wires (73) It is provided with sliding shoe (74)；No.1 steel wire (71) upper end is arranged in the groove on boss (7), No.1 steel wire (71) Lower end be fixed on sliding shoe (74)；The upper end of No. two steel wires (72) and No. three steel wires (73) with convex block (7) The No.1 spring of upper fixation contacts, and the lower end of No. two steel wires (72) and No. three steel wires (73) passes through No. two springs and is fixed on On sliding shoe (74), No. two steel wires (72) and No. three steel wires (73) contact with each other；The sliding shoe (74) is arranged in furnace body (1) in the pull slot (75) of bottom setting, sliding shoe (74) is used to No.1 steel wire (71), No. two steel wires (72) and No. three Steel wire (73) takes out cleaning；Several equally distributed movable plates (8) are provided on air inlet duct (4) right side wall；The work Movable plate (8) is hinged on air inlet duct (4) right side wall by bracket bias, and the front end of movable plate (8) connects with No. three steel wires (73) Touching, movable plate (8) are used to stir the air in air inlet duct (4).

2. a kind of tempered glass according to claim 1 produces homogenization technique, it is characterised in that: No. two steel wires Ox horn frame (76) are equipped between net (72) and No. three steel wires (73) and sliding shoe (74)；The intermediate position of the ox horn frame (76) It is hinged with the fixed frame upper end that is fixed on sliding shoe (74), the both ends of ox horn frame (76) respectively with No. two steel wires (72) and three End in contact under number steel wire (73).

3. a kind of tempered glass according to claim 2 produces homogenization technique, it is characterised in that: the ox horn frame (76) upper outer circumference face is equipped with hangnail (77)；The front end of the hangnail (77) is arranged to arcuate structure, hangnail (77) with No. two Spring contact.

4. a kind of tempered glass according to claim 1 produces homogenization technique, it is characterised in that: the movable plate (8) front end is provided with several equally distributed arc panels (81)；The left end of the arc panel (81) is set on along the circumferential direction There are several equally distributed volute springs (82)；Net of the front end setting of the volute spring (82) in No. three steel wires (73) Intraocularly.

5. a kind of tempered glass according to claim 4 produces homogenization technique, it is characterised in that: the arc panel (81) corner between movable plate (8) is equipped with air bag (83), on the position that volute spring (82) are corresponded on arc panel (81) Offer the venthole being connected to air bag (83).

6. a kind of tempered glass according to claim 1 produces homogenization technique, it is characterised in that: the sliding shoe (74) cavity is equipped in；Gap is provided between the No.1 steel wire (71) and No. two steel wires (72)；The gap and sky Chamber perforation connection.