FR2612619A1 - Method for limiting the intake of air into a furnace, and furnace for implementing this method - Google Patents

Abstract

The present invention relates to a method for limiting the intake of air into a furnace, such as a forging furnace, as well as a furnace for implementing this method. According to the invention, a curtain of gas is formed by injecting compressed air through a slot placed at the intake of the furnace in the vicinity of the lower part of the opening, this slot being oriented so as to produce a curtain of air which lies substantially inside a dihedron, the intersecting edge of which is constituted by the slot and the faces of which form an angle with the plane of the opening of the oven which lies between approximately 10 and 50 DEG , the injection of compressed air through the slot being triggered upon opening the door of the furnace and stopped substantially upon closing it.

Description

DESCRIPTION
The present invention relates to a method for limiting the air in a furnace having an opening defined by its width and height, in front of which moves a door which is open to introduce or extract a load in the oven and windowed during processing of a charge in the furnace, a defined neutral or reducing conductive atmosphere being injected and held therein, a gas curtain being formed in front of the opening of the door so as to limit the air inlets to said oven.

 The thermal treatment of the materials is usually carried out at a high temperature. protective atmosphere, in general reducing. In discontinuous door ovens such as forging furnaces, there is a risk of pollution of the enclosure, by outside air when the door to introduce or extract a load.

 One known technique to avoid this phenomenon is to use jets of inert gas at high speed around the oven door. For further details, reference may be made to US Pat. Nos. 4,448,616, US Pat. No. 3,575,398, US Pat. No. 1,818,159, and GB.A.478,879.

 In particular, US Pat. No. 3,575,398 describes a furnace in which a ramp may be arranged at the bottom of the door and the inert gas jet directed vertically upwards, while one or more injections Inert gas or active gas are simultaneously held inside the enclosure to condition it.

 If the processes described above have in certain cases an efficiency to avoid the air inlets, they require on the other hand the large flows of inert gas in the ramp. They are therefore expensive and are not used in practice.

the process according to the present invention is based on the observation that it is possible under certain conditions to inject compressed air in front of the oven door while avoiding the entry of air into it, a phenomenon which is a priori unexpected.

 According to the present invention, the method is characterized in that said gas curtain is formed by injecting air through a slot placed at the entrance of the oven, around the lower part of the opening, this slot being oriented to produce a curtain of air currants substantially within a dihedron whose ridge is formed by the slot and whose faces are at an angle to the plane of the opening of the canary furnace between about 10 and soc, the injection of air carprirré through the slot being triggered the opening of the door and stopped substantially as soon as it closes.

 According to a preferred embodiment of the invention, the injection speed of compressed air must be sufficient to ensure an oxygen concentration in the furnace less than or equal to about 1%.

In this aim, the method according to the invention is characterized in that the speed of the compressed air at the outlet of the slot is equal to

<tb> Irair <SEP> = 4X <SEP> h <SEP> i <SEP> xA1efour
<tb><SEP> L1 <SEP> e
<tb> with air = air velocity at the exit of the slot &alpha; = correction coefficient varying between 1.5 and 6.5
h = height of the oven opening (meter)
L1 = width of the slot (meter)
oven = volumetric mass of the atmosphere gas in the oven (kg / m)
air = volumetric mass of air under normal conditions of
temperature and pressure (kg / m3)
Preferably, the flow rate Q furnace of the atmosphere injected into the furnace as soon as the door is opened and until closing thereof will be at most equal to

<tb> t3 <SEP> x <SEP> L2 <SEP> x <SEP> h <SEP> xw
<Tb>
L2 being the width of the oven entrance expressed in meters.

(In general, L2 will be slightly lower than L1)
From the closing of the oven door, the flow of the atmosphere injected into it will be just sufficient to oppose the return of air into the oven, said air inlets being generally due to the absence of complete sealing of heat treatment furnaces.

The coefficient 4 will be determined according to the desired maximum oxygen concentration in the furnace. The other parameters of the formula being fixed, the rate of injection of air into the slot is varied until a measured concentration of oxygen equal to the desired concentration is obtained. The air curtain will be oriented in the middle position, of the order of 300. The coefficient α, once determined by an oven, the other parameters, such as even, furnace and the injection direction of the air may vary, without modification of the coefficient
The invention also relates to a forge kiln carportant including an opening provided with a door for the entry and exit of the load to be treated in the oven, characterized in that it also comprises a ramp with a slot s extending over the entire width of the oven, place at the inlet thereof, in its lower part, and means for injecting air carmine through the slot, the latter being oriented so that the curtain of carved air generated through the said slot is located inside a dihedron whose ridge is formed by the slot and whose planes are at an angle between 10 and 50 from the plane of the opening of the oven. Preferably, the slot will be continuous over the entire width of the oven.

 The invention will be better understood with the aid of the following embodiment, given in a nonlimiting manner, together with the figures which represent - Figure 1, a schematic view from above along the axis BB of the zone of the inlet of an oven according to the invention, - Figure 2, a schematic view along the axis Ax of the same inlet zone of the furnace.

 In these figures, the inlet 1 of the oven has a width L2 and a height h; delimited by the side walls 2, 3 on the one hand and the upper and lower walls 4, 5 on the other. The furnace carries a sliding door 6 which slides along the wall 4 until it bears on an extension 7 of the bottom wall 5. This extension 7 constitutes a charge introduction plate into the furnace. I1 is provided in its end farthest from the furnace inlet a rappe for the injection of compressed air 8 provided with a slot 9 dashed in the figure. This ramp 8 has a length L1 substantially equal to or greater than the width L2 of the oven inlet. It is connected to compressed air injection means not shown in these figures. The slot 9 is oriented towards the outside of the oven and forms an angle with respect to the vertical parallel to the inlet of the oven. This angle dW can vary between 100 and 500. The geometry of this slot must be such that the injection of carprirré air creates a curtain of air schematized by the arrow 10 and which remains inside the dihedral whose edge is constituted by the slot 9 and delimited by planes making a tab with respect to the vertical varying between 10 and 50.

 As indicated above, as soon as the oven door is raised, an injection of compressed air is triggered, preferably at a speed as indicated above. During this time, the flow rate of the atmosphere injected into the furnace, by means not shown in the figure, is limited to the value Qfour indicated above.

When the load has been introduced or removed from the oven, the door slides vertically and closes the latter, which triggers, as soon as the carclete closure, stopping the injection of the air curtain through the slot 9. synchronization between the injection of air compressed through the slot and the opening of the door can be achieved simply using synchronization means, known per se, which are not part of the present invention.

 This method and the associated device have the main purpose of improving the sealing of furnaces such as forge furnaces with electric heating. The application of these methods and apparatus allows in particular the use of an economical nitrogen form of a protective atmosphere instead of air in the furnace itself, possibly mixed with hydrogen, for example, when it is desired to have reducing atmospheres.

Claims (6)

 l.Procédé to limit the air intakes in an oven carportant an opening, defines by its width and height, in front of which moves a door which is open to introduce or extract a load in the oven and closed during the treatment of a charge in the furnace, a defined, neutral or reducing deposit atmosphere being injected and held therein, a gas curtain being formed in front of the door opening so as to limit air entrances to said furnace, characterized in that said gas curtain is formed by injecting purified air through a slot placed at the entrance of the furnace, in the vicinity of the lower part of the opening, this slot being oriented so as to produce a curtain of air departing from the entrance of the oven and substantially within a dihedron whose ridge is formed by the slot and whose faces are at an angle with the plane of the opening of the oven between about 10 th t 50, the injection of compressed air through the slot being triggered as soon as the door is opened and stopped substantially as soon as it is closed.  2.Procédé according to claim 1, characterized in that the speed of the air carprirré at the exit of the slot is equal to

 3.Procédé according to claim 2, characterized in that the flow rate of the atmosphere injected into the oven from the opening of the door and until the closing thereof, is at most equal to  temperature and pressure (kg / m3)  air = volumetric mass of air under normal conditions of  oven = volumetric mass of the atmosphere gas in the oven (kg / m)  L "= width of the slot (meter)  cl coefficient of correction varying between 1.5 and 6.5 h = height of the opening of the oven (meter) <tb> with #air = air speed at the exit of the slot <tb> Xair <SEP> -cxx <SEP> h <SEP> h <SEP> X- \ pf \ <tb> L2 being the width of the oven input expressed in meters. <tb> Qfour4 * * 3 <SEP> x <SEP> L2 <SEP> x <SEP> h <SEP> xT \ <SEP> hlPair  4 Process according to claim 3, characterized in that as soon as the door is closed, the flow rate of atmosphere injected into the oven is just sufficient to oppose the return of air into the oven.  5.Forging forging forging including an opening (1) provided with a door (6) for introducing and extracting a charge to be treated in the oven, characterized in that it also comprises a ramp (8) provided with a slot (9) extending over the entire width L2 of the furnace, placed at the entrance of the oven, in its lower part as well as air injection means canprime through the slot (9), the latter being oriented so that the curtain of compressed air generated through said slot is inside a dihedron whose ridge is constituted by the slot (9) and whose planes are at an angle of between about 10 and soc relative to the plane of the opening (1) of the oven.  6. Oven according to claim 5, characterized in that the slot (9) is continuous.