CN205907177U - Glass apparatus for producing - Google Patents

Abstract

The utility model relates to a glass apparatus for producing, through set up the electric boosting system on the melting end, the electric boosting system can fully heat the glass liquation in the first cavity. The tympanic bulla system can let in the bubble to the glass liquation in the first cavity, makes glass liquation and colorant mix more evenly to make the glass liquation carry out abundant heat exchange, the chemical composition and the distribution of temperature of glass liquation are also more even, set up mixing system at ka bochu, further carry out abundant stirring and mix to glass liquation and colorant, further guarantee the homogeneity after glass liquation and colorant mix. Set up hot air system of cooling portion and cooling air system of cooling portion respectively in cooling portion to can make the glass liquation in proper order through blowing hot -blastly and processing cold wind when the cooling, avoid temperature of each part of glass liquation the great difference in temperature to appear when the cooling, and then prevent that the problem in colour difference area from appearing in glass after the cooling, messenger glass's colour and quality are more even.

Description

A kind of glass production device

Technical field

This utility model is related to float glass field, more specifically, is to be related to a kind of glass production device.

Background technology

The technology of founding of float glass is the important step of glass production, and qualified batch is melted into through high-temperature heating Uniformly, vitreous humour that is flawless and meeting forming requirements or glass melts, technology of founding determines the yield of float glass, matter The key factor of amount, yield rate etc..Float glass found device, generally include and be sequentially connected the dog-house connecing, melting end, card Neck, cooling end and flow liquid road region and relevant apparatus.The melting technology of existing float glass and device are uncontrollable dark brown floating Method glass stable reserved in vitreous humour of multiple coloring agent in fusion process, may result in glass dark brown in the melting stage The problem of irregular colour even aberration band in glass, clarification, homogenization stage vitreous humour occurs clarification, homogenizing is insufficient and produce Add lustre to the problem of difference band, in vitreous humour cooling stage it is possible that hot inhomogeneities and the aberration band that leads to, the problems referred to above meeting Significant impact is caused to the product quality of dark brown float glass.

And the production process of the float glass of correlation is generally: various raw materials are prepared into batch according to formula, batch Form vitreous humour, and vitreous humour is cooled to 1150 DEG C about through fusing, clarification, vitreous humour is by the stream being connected with molten tin bath afterwards Fluid passage flows in molten tin bath, and vitreous humour continuously flows in molten tin bath and swims on relatively denser tin liquor surface, and it is from heavy sensation of the body Under power, the collective effect of surface tension, edge machine mechanical force and lehr roller pulling force, vitreous humour shakeouts on tin liquor face, Draw thin (accumulation), be shaped to the smooth glass tape of upper and lower surface.In the outer transition roller table of molten tin bath afterbody and the annealing kiln being attached thereto Under the traction of live-roller, glass tape is drawn upper transition roller table, transmits into annealing kiln, carries out annealing, cutting, obtains float glass and produces Product.

Utility model content

The purpose of this utility model is to provide a kind of glass production device it is intended to solve glass present in prior art Irregular colour and the problem that aberration band easily occurs.

For solving above-mentioned technical problem, the technical solution of the utility model is: provides with a kind of glass production device, wraps Include: melting end, it is provided with first chamber in described melting end, described melting end is provided with dog-house；Card neck, described card neck with described Melting end connects, and is provided with second chamber, described first chamber is connected with described second chamber in described card neck；Cooling end, described Cooling end is connected with described card neck, is formed as the 3rd chamber in described cooling end, and described second chamber is with described 3rd chamber even Logical；Electric boosting system, described electric boosting system is located on described melting end, for heating glass melts；Bubble systems, described Bubble systems are located on described melting end, for being passed through bubble to described glass melts；Stirring system, described stirring system sets On described card neck, flow to the described glass melts in described second chamber for stirring；Cooling end hot-air system, described Cooling end hot-air system on described 3rd chamber of described cooling end, for hot blast is blowed to described glass melts；And Cooling end cooling air system, described cooling end cooling air system on described 3rd chamber of described cooling end, described cooling Portion's hot-air system is spaced apart with described cooling end cooling air system and is arranged on described 3rd chamber, for melting to described glass Liquid heating and cooling.

In an embodiment of the present utility model, described electric boosting system includes: electrode unit, the first cooling water water inlet Unit, the first cooling water water unit and power supply unit, described electrode unit connects to the inwall of described first chamber, described Electrode unit generates heat to heat glass melts, and described first cooling water inlet unit and described first cooling water water unit are respectively It is connected with described electrode unit, described first cooling water inlet unit and described first cooling water water unit are used for cooling down described Electrode unit, said supply unit is electrically connected with described electrode unit, and said supply unit provides electric power for described electrode unit.

In an embodiment of the present utility model, said supply unit includes: disconnecting switch, three-phase transformer, power supply Line and power supply, described power line is sequentially connected electrically described disconnecting switch and described three-phase transformer, one end of described power line with Described electrode unit electrical connection, the other end of described power line and described power electric connection.

In an embodiment of the present utility model, described melting end is provided with the electricity of the cavity wall running through described first chamber Pole through hole, described electrode unit includes: electrode, electrode water jacket, water jacket water inlet pipe, inlet valve, pressure gauge, water jacket outlet pipe and Flowing water Valve, described electrode inserts in described electrode through hole, and described power line is electrically connected with described electrode, described electrode water jacket set It is located at the periphery of described electrode, described electrode water jacket is connected with described water jacket water inlet pipe and described water jacket outlet pipe respectively, described Water jacket water inlet pipe is connected with described inlet valve, and described flowing water Valve is connected with described water jacket outlet pipe, described water jacket water inlet pipe Be connected with described pressure gauge, described water jacket water inlet pipe is connected with described first cooling water inlet unit, described water jacket outlet pipe with Described first cooling water water unit connection.

In an embodiment of the present utility model, described bubble systems include: the first compressed air unit, bubbling rifle, Thermocouple, the second cooling water inlet unit and the second cooling water water unit, described the of described bubbling rifle and described melting end One chamber connects, and described second cooling water inlet unit and the second cooling water water unit are connected with described bubbling rifle respectively, institute State the second cooling water inlet unit and the second cooling water water unit is used for cooling down described bubbling rifle, described first compressed air list First and described bubbling rifle is connected, and described first compressed air unit provides compressed gas for described bubbling rifle, and described thermocouple is inserted Enter in described bubbling rifle, described thermocouple is used for sensing the cooling water temperature of described bubbling rifle.

In an embodiment of the present utility model, described bubbling rifle includes: the body of a gun and gun barrel, and described gun barrel insertion is described In the body of a gun, described gun barrel be respectively arranged at two ends with rifle mouth and compressed air inlet, on the described body of a gun be spaced apart be provided with cooling water Import, coolant outlet and thermocouple jack, described cooling water inlet is connected with described second cooling water inlet unit, described cold But water out is connected with described second cooling water water unit, and one end of described gun barrel is with described first compressed air unit even Logical, the other end of described gun barrel is connected with the described first chamber of described melting end, and described thermocouple is inserted into described thermocouple In jack.

In an embodiment of the present utility model, described cooling end hot-air system includes: heat gun, natural gas unit and Compressed air unit, described natural gas unit is connected with described heat gun, and described compressed air unit is connected with described heat gun, Described natural gas unit provides natural gas for described heat gun, and described compressed air unit provides air, institute for described heat gun State heat gun to be arranged on described 3rd chamber of described cooling end.

In an embodiment of the present utility model, described heat gun includes gun barrel, deflector and gaseous mixture distribution grid, institute State deflector and described gaseous mixture distribution grid located at the inside of described gun barrel, described gun barrel is provided with rifle mouth, air intake and sky So gas entrance, described 3rd chamber of one end of described rifle mouth and described cooling end, the other end of described rifle mouth respectively with Described air intake connects with described gas inlet, and described air intake is connected with described compressed air unit, described natural Gas entrance is connected with described gas as single unit.

In an embodiment of the present utility model, described cooling end cooling air system includes: cooling wind air pressure gun, the second butterfly Valve, the second mass air flow sensor, the second air solenoid valve, the second centrifugal blower and cooling duct road, the one of described cooling duct road End is connected with described cooling wind air pressure gun, and the other end on described cooling duct road is connected with described second centrifugal blower, described cooling Wind air pressure gun is provided with the tuyere connecting with described cooling duct road, described cooling duct road is connected with turn the second butterfly valve, Two mass air flow sensor, the second air solenoid valve.

In an embodiment of the present utility model, described stirring system includes: water inlet pipe, outlet pipe and motor, described Water inlet pipe inserts in described outlet pipe, and water inlet pipe described in described Motor drive is rotated with described outlet pipe, and described water inlet pipe is extremely A few part is bent to form multiple stirrer gears.

In the glass production device of this utility model embodiment, by arranging electric boosting system on melting end, electricity helps Molten system can fully heat the glass melts in first chamber.Bubble systems can be passed through to the glass melts in first chamber Bubble, is made glass melts be mixed with coloring agent more uniform, and makes glass melts carry out sufficient heat exchange, improve glass melts Refining quality, melting rate, thus eliminating the striped of stained glass and aberration band further, the chemical constituent of glass melts and Temperature Distribution is also more uniform, makes glass melts realize in the first chamber sufficiently melting, clarification and homogenization.Set at card neck Put stirring system, further glass melts and coloring agent sufficiently stirred and mix, be further ensured that glass melts and The mixed homogeneity of coloring agent.Setting cooling end hot-air system and cooling end cooling air system on cooling end, cooling end heat Wind system can blow hot blast to the glass melts in the 3rd chamber, it is to avoid glass melts the larger temperature difference in cooling, The problem preventing aberration band occurs, and reduces the temperature difference of glass melts each several part, cooling end cooling air system can be to glass melts Blow cold wind, such that it is able to be cooled down to glass melts that is to say, that cooling end hot-air system is respectively provided with cooling end With cooling end cooling air system, such that it is able to make glass melts sequentially pass through, in cooling, the process blowing hot blast and cold wind, keep away The larger temperature difference in cooling in the temperature exempting from glass melts each several part, and then prevents glass from aberration band after the cooling period Problem, makes the color of glass and quality more uniform, improves the quality of production and the productivity ratio of glass.

Brief description

Fig. 1 is the generalized section of the glass production device that this utility model provides；

Fig. 2 is the structural representation of the electric boosting system of the glass production device of this utility model embodiment；

Fig. 3 is the structural representation of the electrode unit of electric boosting system of the glass production device of this utility model embodiment Figure；

The structural representation of the bubble systems of glass production device of Fig. 4 this utility model embodiment；

The structural representation of the bubbling rifle of the glass production device of Fig. 5 this utility model embodiment；

The structural representation of the stirring system of glass production device of Fig. 6 this utility model embodiment；

The structural representation of the cooling end hot-air system of the glass production device of Fig. 7 this utility model embodiment；

The structural representation of the cooling end cooling air system of the glass production device of Fig. 8 this utility model embodiment.

Reference:

Melting end a；First chamber d；Dog-house e；Electrode through hole 110；Bubbling through hole 210；Gable j afterwards；Port k；

Card neck b；Second chamber f；

Cooling end c；3rd chamber g；Cooling end front wall h；

Electric boosting system 1；Electrode unit 100；Electrode 101；Electrode water jacket 102；Water jacket water inlet pipe 103；Inlet valve 104；Pressure gauge 105；Water jacket outlet pipe 106；Flowing water Valve 107；Power line 108；First cooling water inlet unit 120；First Cooling water water unit 130；Power supply unit 140；Disconnecting switch 141；Three-phase transformer 142；

Bubble systems 2；Bubbling rifle 200；Rifle mouth 201；Gun barrel 202；Cooling water inlet 203；Coolant outlet 204；Thermoelectricity Double jacks 205；Compressed air inlet 206；The body of a gun 207；Second cooling water inlet unit 220；Second cooling water water unit 230；First compressed air unit 240；

Stirring system 3；Water inlet pipe 310；Outlet pipe 320；Stirring rod 330；Stirrer gear 340；Motor 350；Shaft coupling 360； Change speed gear box 370；Bent axle 380；Go-cart 390；

Cooling end hot-air system 4；Heat gun 400；Rifle mouth 401；Gun barrel 402；Deflector 403；Gaseous mixture distribution grid 404； Hybrid chamber 405；Pod apertures 406；Air intake 407；Gas inlet 408；Ball valve 410；Gas pressure table 420；Natural gas Effusion meter 430；Electromagnetic valve for natural gas 440；First centrifugal blower 450；First air solenoid valve 460；First mass air flow sensor 470；First butterfly valve 480；Natural gas line 490；Compressed air piping 491；

Cooling end cooling air system 5；Cooling tuyere 501；Cooling wind air pressure gun 502；Second butterfly valve 510；Second air mass flow Meter 520；Second air solenoid valve 530；Second centrifugal blower 540；Cooling duct road 550.

Specific embodiment

In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to this utility model.It should be appreciated that specific embodiment described herein is only in order to explain This utility model, is not used to limit this utility model.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be directly another On one element or may be simultaneously present centering elements.When an element is referred to as " being connected to " another element, it is permissible It is directly to another element or may be simultaneously present centering elements.

Also, it should be noted the orientation term such as left and right, upper and lower in the present embodiment, be only each other relative concept or With the normal operating condition of product as reference, and should not be regarded as restrictive.

Specifically describe the glass production device according to this utility model embodiment below in conjunction with accompanying drawing.

As shown in Figures 1 to 8, this utility model provides a kind of glass production device and includes: melting end a, card neck b, cold But portion c, electric boosting system 1, bubble systems 2, stirring system 3, cooling end hot-air system 4 and cooling end cooling air system 5.Specifically Ground, is provided with first chamber d, melting end is provided with dog-house e, card neck b is connected with melting end a, is provided with card neck b in melting end a Second chamber f, first chamber d is connected with second chamber f, and cooling end c is connected with card neck b, is formed as the 3rd chamber in cooling end c G, second chamber f is connected with the 3rd chamber g.Electric boosting system 1 is located on melting end a, and electric boosting system 1 is used for heating glass and melts Liquid.Bubble systems 2 are located on melting end a, and bubble systems 2 are used for being passed through bubble to glass melts.Stirring system 3 is located at card neck b On, stirring system 3 is used for stirring and flows to the glass melts in second chamber f.Cooling end hot-air system 4 is located at cooling end c's On 3rd chamber g, cooling end hot-air system 4 is used for blowing hot blast to glass melts, and cooling end cooling air system 5 is located at cooling end On the 3rd chamber g of c, cooling end cooling air system 5 is spaced apart with cooling end hot-air system 4 and is arranged on the 3rd chamber g, cooling Portion's cooling air system 5 is used for blowing cold wind to glass melts.

According to the glass production device of this utility model embodiment, by electric boosting system 1, electricity are arranged on melting end a System of fluxing 1 can fully heat the glass melts in first chamber d.Bubble systems 2 can melt to the glass in first chamber d Liquid is passed through bubble, so that glass melts is mixed with coloring agent more uniform, and makes glass melts carry out sufficient heat exchange, improves glass Glass liquation refining quality, melting rate, thus eliminating the striped of stained glass and aberration band, the chemistry of glass melts further Component and Temperature Distribution are also more uniform, make glass melts realize sufficient fusing, clarification and homogenization in first chamber d.? At card neck b, stirring system 3 is set, further glass melts and coloring agent is sufficiently stirred and mix, be further ensured that Glass melts and the mixed homogeneity of coloring agent.Setting cooling end hot-air system 4 and cooling end cooling wind system on cooling end c System 5, cooling end hot-air system 4 can blow hot blast to the glass melts in the 3rd chamber g, it is to avoid glass melts go out in cooling The existing larger temperature difference, prevents the problem of aberration band from occurring, and reduces the temperature difference of glass melts each several part, cooling end cooling air system 5 Cold wind can be blowed to glass melts, such that it is able to be cooled down to glass melts that is to say, that being respectively provided with cooling end c Cooling end hot-air system 4 and cooling end cooling air system 5, blow hot blast such that it is able to make glass melts sequentially pass through in cooling Process with cold wind, it is to avoid the temperature of glass melts each several part the larger temperature difference in cooling, and then prevents glass cold The problem of aberration band but occurs afterwards, makes the color of glass and quality more uniform, improve the quality of production and the productivity ratio of glass.

It is understood that the glass production device of this utility model embodiment to can be used for manufacturing various tools coloured Stained glass, such that it is able to make the coloring agent in stained glass more uniform in the various pieces distribution of glass, does not have aberration band Problem produce, the quality of stained glass is more preferable.Glass production device of the present utility model can be used for manufacturing dark-brown glass.

As shown in Figures 2 and 3, in a specific embodiment of the present utility model, electric boosting system 1 includes: electrode Unit 100, the first cooling water inlet unit 120, the first cooling water water unit 130 and power supply unit 140.Wherein, electrode list Unit 100 connects to the inwall of first chamber d, and electrode unit 100 generates heat to heat glass melts, the first cooling water inlet unit 120 and first cooling water water unit 130 be connected with electrode unit 100 respectively, the first cooling water inlet unit 120 and first is cold But water water unit 130 is used for cooling down electrode unit 100, and power supply unit 140 is electrically connected with electrode unit 100, power supply unit 140 There is provided electric power for electrode unit 100.Specifically, after electrode unit 100 is switched on power by power supply unit 140, electrode unit 100 Produce heat and glass melts can be carried out with heat treated, the first cooling water water unit 130 and the first cooling water inlet unit 120 can be radiated and cooling treatment to electrode unit 100, prevent electrode unit 100 temperature too high, such that it is able to improve The service life of electrode unit 100.Thus, the electrode unit 100 in electric boosting system 1 can be by way of electrode generates heat pair Glass melts heat, and the first cooling water inlet unit 120 and the first cooling water water unit 130 are used for electrode unit 100 carry out cooling treatment, make the operation of electric boosting system 1 more stable.

In a specific embodiment of the present utility model, power supply unit 140 includes: disconnecting switch 141, three phase-change pressure Device 142, power line 108 and power supply, power line 108 is sequentially connected electrically disconnecting switch 141 and three-phase transformer 142, power line 108 One end electrically connect with electrode unit 100, the other end of power line and power electric connection.Thus, power supply unit 140 electrically connects There are disconnecting switch 141, disconnecting switch 141, the operation such that it is able to make power supply unit 140 is more stablized and safety.

In a specific embodiment of the present utility model, melting end a is provided with the electricity of the cavity wall running through first chamber d Pole through hole 110, electrode unit 100 includes: electrode 101, electrode water jacket 102, water jacket water inlet pipe 103, inlet valve 104, pressure Table 105, water jacket outlet pipe 106 and flowing water Valve 107, in electrode 101 insertion electrode through hole 110, power line 108 and electrode 101 Electrical connection, electrode water jacket 102 is set in the periphery of electrode 101, and electrode water jacket 102 is gone out with water jacket water inlet pipe 103 and water jacket respectively Water pipe 106 connects, and water jacket water inlet pipe 103 is connected with inlet valve 104, and flowing water Valve 107 is connected with water jacket outlet pipe 106, water Set water inlet pipe 103 is connected with pressure gauge 105, and water jacket water inlet pipe 103 is connected with the first cooling water inlet unit 120, water jacket water outlet Pipe 106 is connected with the first cooling water water unit 130.Thus, in the sheathed electrode water jacket in the periphery of electrode 101 102, and electrode Water jacket 102 is radiated to electrode by the first cooling water inlet unit 120 and the first cooling water water unit 130 and is cooled down, Temperature such that it is able to avoid electrode 101 is too high, makes the running status of electrode 101 more stable.

As shown in Figure 4 and Figure 5, in a specific embodiment of the present utility model, bubble systems 2 include: the first pressure Contracting air element 240, bubbling rifle 200, thermocouple, the second cooling water inlet unit 220 and the second cooling water water unit 230. Wherein, bubbling rifle 200 is connected with first chamber d of melting end a.Specifically, first chamber d of melting end a is provided with bubbling Through hole 210, thus bubbling rifle 200 can be arranged in bubbling through hole 210, and can be to bubbling in first chamber d.Second is cold But water inlet unit 220 and the second cooling water water unit 230 are connected with bubbling rifle 200 respectively, the second cooling water inlet unit 220 and second cooling water water unit 230 be used for cooling down bubbling rifle 200, the first compressed air unit 240 is with bubbling rifle 200 even Connect, the first compressed air unit 240 provides compressed gas for bubbling rifle 200, thermocouple is inserted in bubbling rifle 200, thermocouple For sensing the cooling water temperature of bubbling rifle 200.Thus, the first compressed air unit 240 can provide gas for bubbling rifle 200 Body, can provide gas for the glass melts bubbling in first chamber d of melting end a, bubbling can stir glass melts, strengthen The clarification and homogenization effect of glass melts, improves refining quality, and bubbling can strengthen skin glass liquation and deep layer glass Heat exchange between liquation, thus improve melting rate.

In a specific embodiment of the present utility model, bubbling rifle 200 includes the body of a gun 207 and gun barrel 202, gun barrel 202 insertion the body of a guies 207 in, gun barrel 202 be respectively arranged at two ends with rifle mouth 201 and compressed air inlet 206, on the body of a gun 207 be spaced Open up and be equipped with cooling water inlet 203, coolant outlet 204 and thermocouple jack 205, cooling water inlet 203 and the second cooling water Inlet unit 220 connects, and coolant outlet 204 is connected with the second cooling water water unit 230, one end of gun barrel 202 and first Compressed air unit 240 connects, and the other end of gun barrel 202 is connected with first chamber d of melting end a, and thermocouple is inserted into thermoelectricity In double jacks 205.Specifically, the body of a gun 207 and gun barrel 202 are arranged for hollow, and the caliber of gun barrel 202 is less than the caliber of the body of a gun 207, Thus gun barrel 202 can be nested in the body of a gun 207, the inner peripheral surface of the body of a gun 207 is spaced apart setting with the outer peripheral face of gun barrel 202, thus Cooling water can be filled in the space between the inner peripheral surface of the body of a gun 207 and the outer peripheral face of gun barrel 202, such that it is able to gun barrel 202 are cooled down.Thermocouple is inserted in thermocouple jack 205, thus thermocouple can be to the cooling water temperature of bubbling rifle 200 Sensed it is ensured that bubbling rifle 200 is stable normal.

Alternatively, the first compressed air unit 240 includes steeping frequency control system and bubble diameter control system, steeps frequency control system For controlling the frequency of giving vent to anger of bubble, bubble diameter control system is used for controlling the radial dimension of bubble.Thus bubbling rifle 200 can be more The good size by controlling bubble and frequency are more accurately to control the agitated conditions of glass melts.

As shown in fig. 7, in a specific embodiment of the present utility model, cooling end hot-air system 4 includes: heat gun 400th, natural gas unit, the second compressed air unit, natural gas unit is connected with heat gun 400, the second compressed air unit with Heat gun 400 connects, and natural gas unit provides natural gas for heat gun 400, and the second compressed air unit provides for heat gun 400 Air, heat gun 400 is arranged on the 3rd chamber g of cooling end c.Thus, natural gas unit provide for heat gun 400 natural Gas, the second compressed air unit provides air for heat gun 400, thus the natural gas in heat gun 400 is burnt with compressed air Jet out flames or thermal current blows to glass melts, and then heat treatment can be carried out to glass melts.

In a specific embodiment of the present utility model, heat gun 400 includes gun barrel 402, deflector 403, mixing Edema caused by disorder of QI fabric swatch 404, deflector 403 and gaseous mixture distribution grid 404 located at the inside of gun barrel 402, gun barrel 402 be provided with rifle mouth 401, Air intake 407, gas inlet 408, one end of rifle mouth 401 is connected with the 3rd chamber g of cooling end c, rifle mouth 401 another End is connected with air intake 407 and gas inlet 408 respectively, and air intake 407 is connected with the second compressed air unit, natural Gas entrance 408 is connected with gas as single unit.Specifically, as shown in fig. 7, the inside of heat gun 400 is provided with hybrid chamber 405, natural Gas enters through gas inlet 408, enters hybrid chamber 405 by pod apertures 406 and mixes with compressed air, mixed gas are blended Edema caused by disorder of QI fabric swatch 404 and deflector 403 enter gun barrel 402, spray burning by heat gun rifle mouth 401.

In a specific embodiment of the present utility model, natural gas unit includes: ball valve 410, gas pressure table 420th, natural gas flowmeter 430, electromagnetic valve for natural gas 440 and natural gas line 490, one end of natural gas line 490 is passed through sky So gas, the other end of natural gas line 490 is connected with the gas inlet 408 of heat gun 400, on natural gas line 490 successively It is connected with ball valve 410, gas pressure table 420, natural gas flowmeter 430, electromagnetic valve for natural gas 440.Thus, by natural Setting gas pressure table 420 and natural gas flowmeter 430 in feed channel 490, such that it is able to monitor in natural gas line 490 The pressure of natural gas and flow, setting ball valve 410 and electromagnetic valve for natural gas 440 on natural gas line 490, such that it is able to basis Need the natural gas in natural gas line 490 is turned on and off, such that it is able to convenient control cooling end hot blast System 4.

In a specific embodiment of the present utility model, the second compressed air unit includes: the first centrifugal blower 450th, the first air solenoid valve 460, the first mass air flow sensor 470, the first butterfly valve 480, compressed air piping 491, compressed air One end of pipeline 491 is connected with the first centrifugal blower 450, and the other end of compressed air piping 491 is entered with the air of heat gun 400 Mouthfuls 407 connections, compressed air piping 491 is connected with turn the first air solenoid valve 460, the first mass air flow sensor 470 and the One butterfly valve 480.Thus, compressed air can be provided to heat gun 400 by the first centrifugal blower 450, and empty by first Air-flow gauge 470 can detect the flow of the air in compressed air piping 491, by the first air solenoid valve 460 and first Butterfly valve 480 can control the circulation status of the air in compressed air piping 491, such that it is able to more easily control cooling end heat Wind system 4.

As shown in figure 8, in a specific embodiment of the present utility model, cooling end cooling air system 5 includes: cooling Wind air pressure gun 502, the second butterfly valve 510, the second mass air flow sensor 520, the second air solenoid valve 530, the second centrifugal blower 540 and cold But air pipe line 550, the one end on cooling duct road 550 is connected with cooling wind air pressure gun 502, the other end on cooling duct road 550 and the Two centrifugal blowers 540 connect, and cooling wind air pressure gun 502 is provided with the cooling tuyere 501 connecting with cooling duct road 550, cools down wind Second butterfly valve 510, the second mass air flow sensor 520 and the second air solenoid valve 530 are connected with turn on pipeline 550.Thus, pass through Second centrifugal blower 540 can provide compressed air to cool down glass melts for cooling end cooling air system 5, and in cooling wind Pipeline 550 is provided with the second mass air flow sensor 520, such that it is able to detect the flow of the air in cooling duct road 550, in cooling Air pipe line 550 is provided with the second butterfly valve 510 and the second air solenoid valve 530, such that it is able to control the sky in cooling duct road 550 The circulation status of gas, can more easily control cooling end cooling air system 5.

As shown in fig. 6, in a specific embodiment of the present utility model, stirring system 3 includes: water inlet pipe 310, go out Water pipe 320 and motor 350, in water inlet pipe 310 insertion outlet pipe 320.Specifically, at least a portion bent of water inlet pipe 310 Become multiple stirrer gears 340, thus stirrer gear 340 can stir glass melts, at least one of water inlet pipe 310 and outlet pipe 320 Divide and constitute stirring rod 330, motor 350 can drive stirring rod 330 to rotate, and then stirrer gear 340 can be driven to rotate.

Alternatively, stirring system 3 also includes: shaft coupling 360, change speed gear box 370 and bent axle 380, and specifically, motor 350 drives Dynamic shaft coupling 360 rotates, and shaft coupling 360 is in transmission connection with bent axle 380, and bent axle 380 is in transmission connection with stirring rod 330.

Alternatively, shaft coupling 360 includes two, and correspondingly, bent axle 380 also includes two, and motor 350 has two drivings Axle, two drive shafts of motor 350 are connected with two shaft couplings 360 respectively, and two shaft couplings 360 are connected with two bent axles 380, Two bent axles 380 are connected with stirring rod 330 respectively.

Alternatively, the position of stirring system 3 can be moved, thus the stirrer gear 330 on stirring system 3 and stirring rod 340 Can adjust the position in second chamber f of card neck b, such that it is able to more preferable stirring glass melts.Specifically, stirring Mix system 3 bottom and be provided with go-cart 390, thus stirring system 3 can more easily be moved by go-cart 390.

Cooling end cooling air system 5 be provided with multiple, multiple cooling end cooling air systems 5 be spaced apart is arranged on cooling end c's On 3rd chamber g.Thus, by multiple cooling end cooling air systems 5, cold wind is blowed to glass melts, glass melts can be entered Row is quick to be cooled down and lowers the temperature.

Alternatively, cooling end hot-air system 4 also is provided with multiple, and multiple cooling end hot-air systems 4 are arranged on the of cooling end c On three chamber g, thus multiple cooling end hot-air system 4 blows hot blast to glass melts, glass melts each several part can be reduced The temperature difference.Alternatively, cooling end cooling air system 5 is arranged on the cooling end side wall of cooling end c, that is, cooling end cooling wind system System 5 is located at the both sides of the horizontal direction of the 3rd chamber g.

In a specific embodiment of the present utility model, specifically, melting end a, card neck b and cooling end c can be with shapes Become the larger melting furnaces being sequentially communicated, multipair port k is provided with melting end a.Specifically, as shown in figure 1, from left to right, On melting end a, interval offers eight couples of port k successively.Alternatively, electric boosting system 1 is arranged on the bottom of first chamber d, also It is that electric boosting system 1 inserts formula the bottom of for, electric boosting system 1 is located between the 6th couple of port k of dog-house e and melting end a, electrode 101 and electrode water jacket 102 be arranged in electrode through hole 110.Alternatively, bubbling rifle 200 is arranged on the bottom of first chamber d, drum Bubble system 2 is located between the 5th couple of port k and the 6th couple of port k.

Alternatively, stirring system 3 is in and is horizontally disposed with that is to say, that water inlet pipe 310 and outlet pipe 320 substantially set in level Put.Stirring system 3 is arranged at the card neck b between rear gable j and cooling end front wall h, is preferably provided with the right side with card neck b, It is exactly the downstream of card neck b.In a specific embodiment of the present utility model, stirring system 3 is provided with two, two stirring systems System 3 is arranged on the both sides of the horizontal direction of card neck b.

Alternatively, cooling end hot-air system 4 is arranged on the both sides of the 3rd chamber g of cooling end c, thus cooling end hot blast system System 4 can blow hot blast from side to glass melts.Specifically, cooling end hot-air system 4 is located at middle part and the cooling of cooling end c Between portion front wall h.

In the glass production device of this utility model embodiment, when glass melts are located at cooling end c, it is in float glass process glass The cooling stage of glass.When glass melts are located near bubble systems 2, it is in the float glass clarification and homogenization stage.

These are only preferred embodiment of the present utility model, not in order to limit this utility model, all in this practicality Any modification, equivalent and improvement made within new spirit and principle etc., should be included in guarantor of the present utility model Within the scope of shield.

Claims (10)

1. a kind of glass production device, comprising:

Melting end, is provided with first chamber in described melting end, and described melting end is provided with dog-house；

Card neck, described card neck is connected with described melting end, is provided with second chamber in described card neck, described first chamber and described the Two chamber；

Cooling end, described cooling end is connected with described card neck, is formed as the 3rd chamber in described cooling end, described second chamber with Described 3rd chamber；

It is characterized in that, described glass production device also includes:

Electric boosting system, described electric boosting system is located on described melting end, for heating glass melts；

Bubble systems, described bubble systems are located on described melting end, for being passed through bubble to described glass melts；

Stirring system, described stirring system is located on described card neck, for stirring flow in described second chamber described in Glass melts；

Cooling end hot-air system, described cooling end hot-air system on described 3rd chamber of described cooling end, for right Described glass melts blow hot blast；

Cooling end cooling air system, described cooling end cooling air system is on described 3rd chamber of described cooling end, described Cooling end cooling air system is spaced apart with described cooling end hot-air system and is arranged on described 3rd chamber, for described glass Glass liquation blows cooling wind.

2. glass production device as claimed in claim 1 is it is characterised in that described electric boosting system includes: electrode unit, One cooling water inlet unit, the first cooling water water unit and power supply unit, described electrode unit connects to described first chamber Inwall on, described electrode unit generates heat to heat glass melts, described first cooling water inlet unit and described first cooling Water water unit is connected with described electrode unit respectively, described first cooling water inlet unit and described first cooling water water outlet list Unit is used for cooling down described electrode unit, and said supply unit is electrically connected with described electrode unit, and said supply unit is described electricity Pole unit provides electric power.

3. glass production device as claimed in claim 2 is it is characterised in that said supply unit includes: disconnecting switch, three-phase Transformator, power line and power supply, described power line is sequentially connected electrically described disconnecting switch and described three-phase transformer, described power supply One end of line is electrically connected with described electrode unit, the other end of described power line and described power electric connection.

4. glass production device as claimed in claim 3 runs through described first chamber it is characterised in that described melting end is provided with The electrode through hole of the cavity wall of room, described electrode unit includes: electrode, electrode water jacket, water jacket water inlet pipe, inlet valve, pressure gauge, Water jacket outlet pipe and flowing water Valve, described electrode inserts in described electrode through hole, and described power line is electrically connected with described electrode, institute State the periphery that electrode water jacket is set in described electrode, described electrode water jacket respectively with described water jacket water inlet pipe and described water jacket water outlet Pipe connects, and described water jacket water inlet pipe is connected with described inlet valve, and described flowing water Valve is connected with described water jacket outlet pipe, described Water jacket water inlet pipe is connected with described pressure gauge, and described water jacket water inlet pipe is connected with described first cooling water inlet unit, described water Set outlet pipe is connected with described first cooling water water unit.

5. glass production device as claimed in claim 1 is it is characterised in that described bubble systems include: the first compressed air Unit, bubbling rifle, thermocouple, the second cooling water inlet unit and the second cooling water water unit, described bubbling rifle is molten with described The described first chamber in change portion connects, described second cooling water inlet unit and the second cooling water water unit respectively with described drum Bubble rifle connects, and described second cooling water inlet unit and the second cooling water water unit are used for cooling down described bubbling rifle, and described the One compressed air unit is connected with described bubbling rifle, and described first compressed air unit provides compressed gas for described bubbling rifle, Described thermocouple is inserted in described bubbling rifle, and described thermocouple is used for sensing the temperature of described bubbling rifle.

6. glass production device as claimed in claim 5 is it is characterised in that described bubbling rifle includes: the body of a gun and gun barrel, described Gun barrel insert the described body of a gun in, described gun barrel be respectively arranged at two ends with rifle mouth and compressed air inlet, on the described body of a gun be spaced apart It is provided with cooling water inlet, coolant outlet and thermocouple jack, described cooling water inlet is single with described second cooling water water inlet Unit's connection, described coolant outlet is connected with described second cooling water water unit, and one end of described gun barrel is pressed with described first Contracting air element connects, and the other end of described gun barrel is connected with the described first chamber of described melting end, described thermocouple insertion To in described thermocouple jack.

7. glass production device as claimed in claim 1 is it is characterised in that described cooling end hot-air system includes: heat gun, Natural gas unit and compressed air unit, described natural gas unit is connected with described heat gun, described compressed air unit and institute State heat gun to connect, described natural gas unit provides natural gas for described heat gun, described compressed air unit is described hot blast Rifle provides air, and described heat gun is arranged on described 3rd chamber of described cooling end.

8. glass production device as claimed in claim 7 is it is characterised in that described heat gun includes gun barrel, deflector and mixes Close edema caused by disorder of QI fabric swatch, described deflector and described gaseous mixture distribution grid located at the inside of described gun barrel, described gun barrel be provided with rifle mouth, Described 3rd chamber of air intake and gas inlet, one end of described rifle mouth and described cooling end, described rifle mouth The other end is connected with described air intake and described gas inlet respectively, and described air intake is with described compressed air unit even Logical, described gas inlet is connected with described gas as single unit.

9. glass production device as claimed in claim 1 is it is characterised in that described cooling end cooling air system includes: cooling Wind air pressure gun, the second butterfly valve, the second mass air flow sensor, the second air solenoid valve, the second centrifugal blower and cooling duct road, described cold But one end of air pipe line is connected with described cooling wind air pressure gun, and the other end on described cooling duct road is with described second centrifugal blower even Logical, described cooling wind air pressure gun is provided with the tuyere connecting with described cooling duct road, and described cooling duct road is connected with turn Second butterfly valve, the second mass air flow sensor, the second air solenoid valve.

10. glass production device as claimed in claim 1 is it is characterised in that described stirring system includes: water inlet pipe, water outlet Pipe and motor, described water inlet pipe inserts in described outlet pipe, and water inlet pipe described in described Motor drive is rotated with described outlet pipe, institute At least a portion stating water inlet pipe is bent to form multiple stirrer gears.