CN208266047U - Annealing furnace shaping area glass blows afloat control device and annealing furnace glass blows afloat equipment - Google Patents

Abstract

The utility model belongs to vehicle glass manufacturing equipment technical field, more particularly to a kind of annealing furnace shaping area glass blows afloat control device and annealing furnace glass blows afloat equipment, it includes main air inlet pipe, two five-way valves and several air blowing control assemblies for being used to control extraneous blowing pipe on-off that annealing furnace shaping area glass, which blows afloat control device, main air inlet pipe is connected with two five-way valves, and each air blowing control assembly is connected with two five-way valves to act under the control of two five-way valves.Since the high-speed gas entered in each air blowing control assembly is controlled by two five-way valves, it just ensure that the speed flowed into each air blowing control assembly is consistent in this way, so that each air blowing control assembly can control extraneous blowing pipe with keeping strokes blows afloat vehicle glass, so that each position of vehicle glass can firmly fit on molding die, and then ensure that the quality stability of vehicle glass pad pasting, it has been obviously improved the yield rate of vehicle glass film process.

Description

Annealing furnace shaping area glass blows afloat control device and annealing furnace glass blows afloat equipment

Technical field

The utility model belongs to vehicle glass manufacturing equipment technical field more particularly to a kind of annealing furnace shaping area glass is blown It plays control device and annealing furnace glass blows afloat equipment.

Background technique

In vehicle glass, in the manufacturing process of especially rear shelves tempered glass, wherein more important link is in tempering It is blown afloat and in furnace via mold compression moulding.Specifically: under the action of the blowing device that glass substrate is equipped in annealing furnace It is insufflated, and is closely abutted with molding die, compression moulding and carry out pad pasting under the action of molding die later.

In the prior art, to meet the harmony that air-flow is covered in vehicle glass surface, blowing device is generally provided with more Air blowing control assembly in road is to control the on-off of blowing pipe, and every group of air blowing control assembly is equipped with control valve to control air-flow On-off.However, there are the time differences for the response of each control valve, if that each control valve events are inconsistent will to lead to gas Stream sprays uneven, so as to be bonded tightness with molding die inhomogenous for the various pieces of vehicle glass, leads to glass of automobile The quality stability of glass pad pasting is deteriorated.

Utility model content

The purpose of this utility model is to provide a kind of annealing furnace shaping area glass to blow afloat control device and annealing furnace glass Blow afloat equipment, it is intended to which the control valve events for solving the air blowing control assembly that annealing furnace glass in the prior art blows afloat equipment are different The technical problem for causing and causing the quality stability of vehicle glass pad pasting poor.

In order to achieve the above purposes, the technical solution adopted by the utility model is:, and a kind of annealing furnace shaping area glass blows afloat control Device processed, including the main air inlet pipe for being connected with extraneous gas source, two five-way valves and several for controlling extraneous air blowing The air blowing control assembly of pipeline on-off, the main air inlet pipe are connected connection with two five-way valves, each air blowing control group Part is connected to realize the switching motion of air blowing under the control of two five-way valves with two five-way valves.

Further, two five-way valves be equipped with air-flow input, the first output end and second output terminal, the master into Tracheae is connected with the air-flow input, and the first output end and second output terminal of two five-way valves are connected separately with Primary Ioops pipe and second servo loop pipe, each air blowing control assembly is provided with the first ventilation end and the second ventilation end, each described First ventilation end of air blowing control assembly is connected with first loop pipe, the second ventilation of each air blowing control assembly End is connected with the second servo loop pipe.

Further, each air blowing control assembly includes the double acting gas for controlling extraneous gassing pipe on-off Cylinder, the first snorkel and the second snorkel, the first end and the inner plenum phase of the double-acting cylinder of first snorkel Connection, the second end of first snorkel are connected with first loop pipe, the first end of second snorkel and institute The external gas chamber for stating double-acting cylinder is connected, the second end phase of the second end of second snorkel and the second servo loop pipe Connection.

Further, it is provided with the first atmospheric buffer device between first loop pipe and each first snorkel, First atmospheric buffer device is provided with air inlet and several gas outlets, the second end of first loop pipe and described first The air inlet of atmospheric buffer device is connected, the second end of each first snorkel respectively with first atmospheric buffer device Each gas outlet be connected.

Further, it is provided with the second atmospheric buffer device between the second servo loop pipe and each second snorkel, Second atmospheric buffer device is provided with gas outlet and several air inlets, the second end of the second servo loop pipe and described second The gas outlet of atmospheric buffer device is connected, the second end of each second snorkel respectively with second atmospheric buffer device Each air inlet be connected.

Further, first atmospheric buffer device and second atmospheric buffer device of seamless steel pipe by being made Closed cylinder.

Further, the main air inlet pipe is combined equipped with the air filtration of three linked piece formula.

Further, the three linked piece formula air filtration combination includes being mutually permanently connected and being set to the main air inlet pipe On air filter, pressure reducing valve and oil sprayer.

Further, the main air inlet pipe is equipped with the ball valve for controlling the air-flow on-off of the main air inlet pipe.

The utility model has the beneficial effects that the annealing furnace shaping area glass of the utility model blows afloat control device, when work, Extraneous gas source is passed through high-speed gas into main air inlet pipe, and high-speed gas passes through air-flow input of the main air inlet pipe from two five-way valves again End enters in two five-way valves, and enters in each air blowing control assembly from two five-way valves, then each air blowing control assembly Can under the control of high-speed gas integrating action, control the on-off of extraneous blowing pipe, and when each air blowing control assembly is dynamic After the completion of work, the gas in each air blowing control assembly is then discharged outside to from two five-way valves.So due to entering each air blowing High-speed gas in control assembly is controlled by two five-way valves, just ensure that flow into each air blowing control group in this way Speed in part is consistent, so that each air blowing control assembly can control extraneous blowing pipe with keeping strokes blows afloat vapour Vehicle glass ensure that vehicle glass so that each position of vehicle glass can firmly fit on molding die Various pieces and molding die be bonded that tightness is uniform, and then ensure that the quality stability of vehicle glass pad pasting, significantly Improve the yield rate of vehicle glass film process.

It is that the utility model uses another solution is that a kind of annealing furnace glass blows afloat equipment, include several glass Gassing pipe, it further includes having above-mentioned annealing furnace shaping area glass to blow afloat control device that the annealing furnace glass, which blows afloat equipment, institute It states annealing furnace shaping area glass and blows afloat each air blowing control assembly of control device and be fixedly installed in each glass respectively and blow The on-off of each glass gassing pipe is controlled in feed channel.

It include that above-mentioned annealing furnace shaping area glass blows afloat control since the annealing furnace glass of the utility model blows afloat equipment Device processed, then since each air blowing control assembly that above-mentioned annealing furnace shaping area glass blows afloat control device is by one two five Port valve control, each air blowing control assembly that such annealing furnace shaping area glass blows afloat control device can be in two five-way valves Lower integrating action is controlled, the on-off of each gassing pipe is controlled.So each gassing pipe being uniformly controlled in each air blowing control assembly It is each to vehicle glass can just to ensure that annealing furnace glass blows afloat equipment so simultaneously to all parts jet of vehicle glass down The consistency for the support force that a part is applied.

Detailed description of the invention

It, below will be to embodiment or the prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this is practical new Some embodiments of type for those of ordinary skill in the art without any creative labor, can be with It obtains other drawings based on these drawings.

Fig. 1 is the structural schematic diagram that annealing furnace shaping area provided by the embodiment of the utility model glass blows afloat control device.

Wherein, each appended drawing reference in figure:

10-main air inlet pipe 11-gas source, 12-air filtrations combination

13-21-the air-flow inputs of five-way valve of ball valve 20-two

22-the first output end 23-second output terminal, 30-air blowing control assembly

31-double-acting cylinder the 33-the second snorkels of the 32-the first snorkel

34-the first atmospheric buffer device 121-air filter of the 35-the second atmospheric buffer device

122-the 221-the first loop pipes of 123-oil sprayer of pressure reducing valve

231-second servo loop pipe 311-inner plenum, 312-piston rods

313-external gas chambers.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining the description of attached drawing 1 is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

In the description of the present invention, it should be understood that term " length ", " width ", "upper", "lower", " preceding ", The orientation or positional relationship of the instructions such as " rear ", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is based on attached Orientation or positional relationship shown in figure, is merely for convenience of describing the present invention and simplifying the description, rather than indication or suggestion Signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this The limitation of utility model.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be Mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

As shown in Figure 1, a kind of annealing furnace shaping area glass provided by the embodiment of the utility model blows afloat control device, including 10, two five-way valves 20 of main air inlet pipe for being connected with extraneous gas source and several for controlling extraneous blowing pipe on-off Air blowing control assembly 30, main air inlet pipe 10 is connected with two five-way valves 20, and each air blowing control assembly 30 is logical with two five Valve 20 is connected to realize the switching motion of air blowing under the control of two five-way valves 20.

Annealing furnace (DB furnace) shaping area glass provided by the embodiment of the utility model blows afloat control device, extraneous when work Gas source 11 is passed through high-speed gas into main air inlet pipe 10, and high-speed gas passes through main air inlet pipe 10 from the gas of two five-way valves 20 again Stream input terminal 21 enters in two five-way valves 20, and enters in each air blowing control assembly 30 from two five-way valves 20, then Each air blowing control assembly 30 can under the control of high-speed gas integrating action, control the on-off of extraneous blowing pipe, and work as After the completion of each air blowing control assembly 30 acts, the gas in each air blowing control assembly 30 is then expelled to from two five-way valves 20 outer Boundary.So since the high-speed gas entered in each air blowing control assembly 30 is controlled by two five-way valves 20, in this way Just it ensure that the speed flowed into each air blowing control assembly 30 is consistent, so that each air blowing control assembly 30 can It controls extraneous blowing pipe with keeping strokes blows afloat vehicle glass, so that each position of vehicle glass can be firmly Ground fits on molding die, ensure that uniform, the Jin Erbao that is bonded tightness of the various pieces of vehicle glass and molding die The quality stability for having demonstrate,proved vehicle glass pad pasting has been obviously improved the yield rate of vehicle glass film process.

In the present embodiment, as shown in Figure 1, two five-way valves 20 are equipped with air-flow input 21, the first output end 22 and the Two output ends 23, main air inlet pipe 10 are connected with air-flow input 21, and the first output end 22 and second of two five-way valves 20 is defeated Outlet 23 is connected separately with the first loop pipe 221 and second servo loop pipe 231, and each air blowing control assembly 30 is provided with the first ventilation The first ventilation end at end and the second ventilation end, each air blowing control assembly 30 is connected with the first loop pipe 221, each control of blowing Second ventilation end of component 30 is connected with second servo loop pipe 231.Specifically, since to be provided with air-flow defeated for two five-way valves 20 Enter end 21, the first output end 22 and second output terminal 23, then the high-speed flow in main air inlet pipe 10 can be from air-flow input 21 enter in two five-way valves 20, and from its first output end 22 or second output terminal under the control of two five-way valves 20 23 enter in the first loop pipe 221 or second servo loop pipe 231, and pass through from the first loop pipe 221 or second servo loop pipe 231 First ventilation end or the second ventilation end enter in each air blowing control assembly 30.So just realize through high-speed flow to each Air blowing control assembly 30 carries out action control.

In the present embodiment, as shown in Figure 1, each air blowing control assembly 30 includes for controlling extraneous gassing pipe on-off Double-acting cylinder 31, the first snorkel 32 and the second snorkel 33, the first end of the first snorkel 32 and double-acting cylinder 31 Inner plenum 311 be connected, the second end of the first snorkel 32 is connected with the first loop pipe 221, the second snorkel 33 First end is connected with the external gas chamber 313 of double-acting cylinder 31, the second end and second servo loop pipe 231 of the second snorkel 33 Second end be connected.Specifically, due to the presence of double-acting cylinder 31, and the first end of the first snorkel 32 and double acting gas The inner plenum 311 of cylinder 31 is connected, and the first end of the second snorkel 33 is connected with the inner plenum 311 of double-acting cylinder 31 It is logical, in this way when needing double-acting cylinder 31 to control extraneous gassing pipe closure, it can make high-speed flow logical from two five First output end 22 of valve 20 be conveyed into the first loop pipe 221 and from the first loop pipe 221 by each first snorkel 32 into Enter the inner plenum 311 to each double-acting cylinder 31, and then the piston rod 312 of double-acting cylinder 31 is pushed to stretch out, so that double cropping Extraneous gassing pipe closure can be controlled with cylinder 31.And the gas in the external gas chamber 313 of double-acting cylinder 31 can be with piston The movement of bar 312 and be extruded in the second snorkel 33, then enter two by second servo loop pipe 231 by the second snorkel 33 In the five-way valve 20 of position, and it is discharged from two five-way valves 20 in the external world.And when the air blowing for needing double-acting cylinder 31 to control the external world When pipeline is opened, high-speed flow can make to be conveyed into second servo loop pipe 231 from the second output terminal 23 of two five-way valves 20 And the external gas chamber 313 of each double-acting cylinder 31 is entered by each second snorkel 33 from second servo loop pipe 231, and then push The piston rod 312 of double-acting cylinder 31 retracts, and enables double-acting cylinder 31 to control extraneous gassing pipe and opens.And double acting Gas in the inner plenum 311 of cylinder 31 can be extruded in the first snorkel 32 with the movement of piston rod 312, then by One snorkel 32 is entered in two five-way valves 20 by the first loop pipe 221, and is discharged from two five-way valves 20 in outer Boundary.

In the present embodiment, as shown in Figure 1, being provided with the first gas between the first loop pipe 221 and each first snorkel 32 Buffer unit 34 is pressed, the first atmospheric buffer device 34 is provided with air inlet and several gas outlets, the second end of the first loop pipe 221 Be connected with the air inlet of the first atmospheric buffer device 34, the second end of each first snorkel 32 respectively with the first pressure buffer Each gas outlet of device 34 is connected.Specifically, by being provided between the first loop pipe 221 and each first snorkel 32 One atmospheric buffer device 34 can be first when high-speed flow flows to each first snorkel 32 from the first loop pipe 221 It is buffered in one atmospheric buffer device 34, the air-flow of flow speed stability enters respectively from the first atmospheric buffer device 34 again later In first snorkel 32, the air-flow of the inner plenum 311 entered in each double-acting cylinder 31 just further ensure that in this way Flow velocity is consistent, and then further ensure that keeping strokes for each double-acting cylinder 31, ensure that by each double-acting cylinder 31 The consistency on each gassing pipe closure opportunity of control.

In the present embodiment, as shown in Figure 1, being provided with the second gas between second servo loop pipe 231 and each second snorkel 33 Buffer unit 35 is pressed, the second atmospheric buffer device 35 is provided with gas outlet and several air inlets, the second end of second servo loop pipe 231 Be connected with the gas outlet of the second atmospheric buffer device 35, the second end of each second snorkel 33 respectively with the second pressure buffer Each air inlet of device 35 is connected.Specifically, by being provided between second servo loop pipe 231 and each second snorkel 33 Two atmospheric buffer devices 35 can be first when high-speed flow flows to each second snorkel 33 from second servo loop pipe 231 It is buffered in two atmospheric buffer devices 35, the air-flow of flow speed stability enters respectively from the second atmospheric buffer device 35 again later In second snorkel 33, the air-flow of the external gas chamber 313 entered in each double-acting cylinder 31 just further ensure that in this way Flow velocity is consistent, and then further ensure that keeping strokes for each double-acting cylinder 31, ensure that by each double-acting cylinder 31 Each gassing pipe of control opens the consistency on opportunity.

In the present embodiment, as shown in Figure 1, the first atmospheric buffer device 34 and the second atmospheric buffer device 35 are served as reasons Closed cylinder made of seamless steel pipe.Specifically, by making the first atmospheric buffer device 34 and the second atmospheric buffer device 35 are made of cylinder closed made of seamless steel pipe, then have benefited from the leakproofness of seamless steel pipe, the first pressure buffer dress Set 34 and the second high-speed gas in atmospheric buffer device 35 just will not leak into the external world, ensure that high-speed gas respectively from first Atmospheric buffer device 34 and the second atmospheric buffer device 35 enter gas when each first snorkel 32 and each second snorkel 33 Pressure.

In the present embodiment, as shown in Figure 1, main air inlet pipe 10 is equipped with three linked piece formula air filtration combination 12.Three linked piece Formula air filtration combination 12 includes being mutually permanently connected and being set to air filter 121, pressure reducing valve 122 in main air inlet pipe 10 With oil sprayer 123.Specifically, due to the presence of air filtration combination 12 in main air inlet pipe 10, then the height in main air inlet pipe 10 Fast gas can be first in the air mistake of air filtration combination 12 before the air-flow input 21 for entering two five-way valves 20 Its impurity swept along is filtered out under the filtering of filter 121, so that entering in the first loop pipe 221 and second servo loop pipe 231 Gas it is more pure, avoid impurity and block the first loop pipe 221, second servo loop pipe 231, each first snorkel 32 and Ge The phenomenon that two snorkel 33, occurs.

Further, and due to the presence of pressure reducing valve 122, institute can be acted according to each double-acting cylinder 31 of driving in this way The size of air pressure is needed to adjust the pressure of high-speed gas, and then guarantees that high-speed gas is entering in each double-acting cylinder 31 Pressure is appropriate when portion's gas chamber 311 and external gas chamber 313, can push the piston rod 312 of double-acting cylinder 31 in place, in turn It ensure that effective control of 31 pairs of each double-acting cylinder extraneous each gassing pipe closure and unlatching.

Further, due to the presence of oil sprayer 123, such oil sprayer 123 can be spurted into main air inlet pipe 10 Lubricating oil, then the profit to two five-way valves 20 and each double-acting cylinder 31 can be realized in lubricating oil under the drive of high-speed gas It is sliding, so that two five-way valves 20 are opened to its first output end 22 and second output terminal 23 and the control of closure is more suitable Freely, while but also the piston rod 312 of each double-acting cylinder 31 to extend and retract process more accurate and smooth.

In the present embodiment, as shown in Figure 1, main air inlet pipe 10 is equipped with the air-flow on-off for controlling main air inlet pipe 10 Ball valve 13.Specifically, it by the way that ball valve 13 is arranged in main air inlet pipe 10, is just realized in this way to 10 on-off of main air inlet pipe and control And to the flow velocity of the high-speed gas to circulate in main air inlet pipe 10 and the adjusting of pressure.

Preferably, pneumatic ball valve 13 can be selected in ball valve 13, then since the thrust bearing being equipped in pneumatic ball valve 13 can Play the role of being substantially reduced valve rod moment of friction, such valve rod can keep its performance to stablize during long-term military service Property, and then also ensure stability of the ball valve 13 during long service.

It is highly preferred that pneumatic ball valve 13 may further be embodied as full-bore pneumatic ball valve 13, reduces with can dramatically flow through in this way The fluid resistance of the high-speed gas of ball valve 13.It so just ensure that pressure of the high-speed gas when entering each double-acting cylinder 31 It is maintained at appropriate value, and then maintains the accurate operation of double-acting cylinder 31.

The utility model embodiment additionally provides a kind of annealing furnace glass and blows afloat equipment, includes several glass gas blow pipes Road, it further includes having above-mentioned annealing furnace shaping area glass to blow afloat control device, annealing furnace shaping area that annealing furnace glass, which blows afloat equipment, Each air blowing control assembly 30 that glass blows afloat control device is fixedly installed on each glass gassing pipe respectively to control each glass The on-off of gassing pipe.It specifically, include above-mentioned steel since the annealing furnace glass of the utility model embodiment blows afloat equipment Change furnace shaping area glass and blow afloat control device, then since above-mentioned annealing furnace shaping area glass blows afloat each air blowing control of control device Component 30 processed is controlled by two five-way valves 20, and such annealing furnace shaping area glass blows afloat each air blowing of control device Control assembly 30 can under the control of two five-way valves 20 integrating action, control the on-off of each gassing pipe.It is so each to blow Pipeline can just guarantee in this way under being uniformly controlled of each air blowing control assembly 30 simultaneously to all parts jet of vehicle glass Annealing furnace glass blows afloat the consistency of support force that equipment applies vehicle glass various pieces.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (10)

1. a kind of annealing furnace shaping area glass blows afloat control device, it is characterised in that: including for being connected with extraneous gas source Main air inlet pipe, two five-way valves and several for controlling the air blowing control assembly of extraneous blowing pipe on-off, the main air inlet The connection that is connected with two five-way valves is managed, each air blowing control assembly is connected with two five-way valves described The switching motion of air blowing is realized under the control of two five-way valves.

2. annealing furnace shaping area according to claim 1 glass blows afloat control device, it is characterised in that: described two five logical Valve is equipped with air-flow input, the first output end and second output terminal, and the main air inlet pipe is connected with the air-flow input, institute The first output end and second output terminal for stating two five-way valves are connected separately with the first loop pipe and second servo loop pipe, each described to blow Gas control assembly is provided with the first ventilation end and the second ventilation end, and the first ventilation end of each air blowing control assembly is and institute It states the first loop pipe to be connected, the second ventilation end of each air blowing control assembly is connected with the second servo loop pipe.

3. annealing furnace shaping area according to claim 2 glass blows afloat control device, it is characterised in that: each air blowing control Component processed includes the double-acting cylinder, the first snorkel and the second snorkel for controlling extraneous gassing pipe on-off, described The first end of first snorkel is connected with the inner plenum of the double-acting cylinder, the second end of first snorkel and institute It states the first loop pipe to be connected, the first end of second snorkel is connected with the external gas chamber of the double-acting cylinder, institute The second end for stating the second snorkel is connected with the second end of the second servo loop pipe.

4. annealing furnace shaping area according to claim 3 glass blows afloat control device, it is characterised in that: first circuit It is provided with the first atmospheric buffer device between pipe and each first snorkel, first atmospheric buffer device is provided with air inlet Mouth and several gas outlets, the second end of first loop pipe are connected with the air inlet of first atmospheric buffer device, respectively The second end of first snorkel is connected with each gas outlet of first atmospheric buffer device respectively.

5. annealing furnace shaping area according to claim 4 glass blows afloat control device, it is characterised in that: the second servo loop It is provided with the second atmospheric buffer device between pipe and each second snorkel, second atmospheric buffer device is provided with outlet Mouth and several air inlets, the second end of the second servo loop pipe are connected with the gas outlet of second atmospheric buffer device, respectively The second end of second snorkel is connected with each air inlet of second atmospheric buffer device respectively.

6. annealing furnace shaping area according to claim 5 glass blows afloat control device, it is characterised in that: first air pressure Buffer unit and second atmospheric buffer device are the closed cylinder made of seamless steel pipe.

7. described in any item annealing furnace shaping areas glass blows afloat control device according to claim 1~6, it is characterised in that: institute Main air inlet pipe is stated to combine equipped with the air filtration of three linked piece formula.

8. annealing furnace shaping area according to claim 7 glass blows afloat control device, it is characterised in that: the three linked piece formula Air filtration combination includes being mutually permanently connected and being set to air filter, pressure reducing valve and mist of oil in the main air inlet pipe Device.

9. described in any item annealing furnace shaping areas glass blows afloat control device according to claim 1~6, it is characterised in that: institute Main air inlet pipe is stated equipped with the ball valve for controlling the air-flow on-off of the main air inlet pipe.

It include several glass gassing pipes, which is characterized in that the annealing furnace glass 10. a kind of annealing furnace glass blows afloat equipment It further includes having the right that 1~9 described in any item annealing furnace shaping areas glass is required to blow afloat control device, the steel that glass, which blows afloat equipment, Each air blowing control assembly that change furnace shaping area glass blows afloat control device is fixedly installed in each glass gas blow pipe respectively The on-off of each glass gassing pipe is controlled on road.