JP2742074B2 - Carburizing furnace - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a carburizing furnace for intermittently feeding an object to be carburized in a tunnel type furnace and carrying out carburizing, and carrying out the object to be carried out from an unloading vestible after carburizing. .

(Conventional technology) Conventionally, a continuous type carburizing furnace in which a workpiece (for example, gears) is intermittently fed in a tunnel type furnace to perform carburizing treatment, and after the carburizing treatment, the temperature is lowered and the workpiece is carried out from an unloading vestible. Is known.

That is, a plurality of jigs supporting an object to be processed are arranged in a tunnel type furnace so as to be movable in a straight line, and move intermittently every time a new jig is inserted by a pusher from the entrance. The preheated object is heated to a predetermined temperature (for example, 930 ° C.) (temperature rising period) and passed through an atmosphere of a carburizing gas (for example, propane gas or butane gas) (for carburizing diffusion). Period), and then the temperature is lowered to a predetermined temperature (for example, 860 ° C to 840 ° C) in order to remove thermal distortion (cooling and soaking period), and then moved to the unloading vestible for unloading to stabilize the atmosphere in the tunnel section. In order to keep it, it is held for a certain period of time (for example, about 1 minute), and is carried out to a quenching tank.

(Problems to be Solved by the Invention) However, the carburizing furnace as described above requires a considerable arrangement space, and requires a certain period of time for the carburizing treatment, so that there is a demand to increase production efficiency as much as possible.

Conventionally, in the case of carbonitriding, after carburizing and quenching in a continuous furnace, nitriding treatment is performed again by heating again in a batch furnace, so that production efficiency is poor.

The present invention has been made in view of the above points, and has as its object to provide a carburizing furnace that effectively utilizes a carry-out vestible as a soaking zone without increasing the installation space and improves production efficiency. Things.

(Means for Solving the Problems) In order to achieve the above-mentioned object, the present invention uses a gas introduction pipe, a heating pipe, and a discharge vestible which has been used only for holding for a predetermined time in order to stabilize the atmosphere in the tunnel section. By providing the means and the fan means, the apparatus is used as a processing furnace for carburizing or nitriding.

Specifically, a solution of the invention of claim 1 is to intermittently feed an object to be treated in a tunnel portion, perform carburizing, and carry out a carburizing process after carrying out a carburizing process from an unloading vestible connected to an outlet opening of the tunnel portion. In a tunnel-type carburizing furnace for carrying out an article, a shutter for partitioning the tunnel portion and the carrying-out vestible is provided at the outlet side opening so as to be openable and closable, and the carrying-out vestible has a carburizing gas or a carburizing gas in the carrying-out vestible. It is assumed that a gas introducing pipe for introducing a nitriding gas, a heating means for heating the inside of the carry-out vestible to a predetermined temperature, and an opening / closing door which is opened when carrying out the object to be treated from the carry-out vestible are provided. . Further, the gas introduction from the gas introduction pipe into the unloading vestibule is started when the processing object is loaded into the unloading vestible with the opening / closing door closed and the shutter is closed, and The opening / closing door is configured to be stopped when the opening / closing door is opened in order to carry out the escaping from the carrying-out vestibule, and the processing object carried into the carrying-out vestibule is carburized in the carrying-out vestibule with the shutter and the opening / closing door closed. It is configured to be subjected to nitriding treatment.

Further, a solution of the invention according to claim 2 is to intermittently feed the object to be treated in the tunnel portion to perform carburizing treatment, and to remove the object to be treated after the carburizing process from an unloading vestible connected to the outlet side opening of the tunnel portion. In the unloading tunnel type carburizing furnace, a shutter that partitions the tunnel portion and the unloading vestible is provided at the outlet side opening so as to be openable and closable, and the unloading vestible includes a carburizing gas or a nitriding gas in the unloading vestibule. A gas introduction pipe for introducing a gas, heating means for heating the inside of the unloading vestible to a predetermined temperature, and fan means for uniformizing a gas atmosphere in the unloading vestible are provided; And an opening / closing door that is opened when the object is carried out from the vehicle. Further, the gas introduction from the gas introduction pipe into the unloading vestibule is started when the object is loaded into the unloading vestible with the opening / closing door closed and the shutter is closed. The opening and closing door is configured to be stopped when the opening and closing door is opened in order to unload the object from the unloading vestibule. It is assumed that, while being subjected to the nitriding treatment, the unloading vestible is rapidly heated after unloading the workpiece.

According to the first and second aspects of the present invention, the carburizing gas or the nitriding gas is introduced from the gas introduction pipe into the unloading vestible, and is heated to a predetermined temperature by the heating means. In this case, the unloading vestible is used as a part of a furnace for performing the carburizing process or as a furnace for performing the nitriding process by making the atmosphere uniform by the fan means.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 to 3, which show the structure of a carburizing furnace, reference numeral 1 denotes a tunnel type carburizing furnace, in which a plurality of workpieces 4 set in a jig 3 are linearly arranged in a tunnel portion 2 having a predetermined length. The temperature is raised, carburized and diffused, and the soaking temperature is reduced in order from the inlet side to the outlet side.

Then, the next workpiece 4 set on the jig 3 (tray) is pushed by a pusher (not shown) every unit time from the entrance of the tunnel section 2 to push the tunnel section 2.
The workpiece 4 (the jig 3) is intermittently fed at a time interval corresponding to the unit time along a pair of rails (not shown).

An exit opening 5 is provided on one side of the exit portion of the tunnel section 2, and an unloading vestible 6 for unloading the workpiece 4 is continuously provided through the exit opening 5. A shutter 7 is provided in the outlet side opening 5 so as to be openable and closable,
The inside of the tunnel section 2 and the inside of the carry-out vestible 6 are hermetically partitioned by the shutter 7 so that the atmosphere in the tunnel section 2 is not damaged.

The movement of the workpiece 4 from the exit portion of the tunnel portion 2 into the unloading vestible 6 is performed by a pusher 8 provided on the side opposite to the unloading vestible with respect to the exit portion of the tunnel portion 2.
It is to be performed in.

A burner 11 as a heating unit for heating the inside of the unloading vestible to a soaking temperature, a fan unit 12 for equalizing the atmosphere and temperature in the unloading vestible 6, and a carburizing gas are introduced into the unloading vestible 6. Gas inlet pipe for
13 are provided so that carburizing is performed in the unloading vestible. The above burner
Numeral 11 denotes an indirect heating type that burns in a tube and heats with the radiant heat.

However, when the workpiece 4 is unloaded from the unloading vestibule for quenching, the temperature in the unloading vestibule 6 rapidly decreases. It is designed to be rapidly heated.

Reference numeral 15 denotes an opening / closing door provided on the unloading vestible 6, which is opened and closed by a cylinder 16.
When the workpiece 4 is carried out, the opening / closing door 15 is opened by the operation of the cylinder 16, and the workpiece 4 is quenched by the operation of the pusher 17 provided on the opposite side to the carrying-out vestible 6 from the opening / closing door 15. For this purpose, it is carried out from the carrying-out vestible 6 to the quenching tank 18. Reference numeral 19 denotes a pipe for a sample pump for controlling the atmosphere.

With the above configuration, the workpiece 4 can be held in the unloading vestible 6 for a time corresponding to the unit time for intermittently feeding the jig 3, so that during the holding time, carburization occurs in the unloading vestible. Processing can be performed, and the carburizing time in the tunnel portion 2 can be shortened accordingly, so that the unit time for intermittently feeding the jig 3 can be shortened, thereby increasing the furnace space. Without this, the production efficiency can be improved.

Specifically, for example, the unit time for intermittently feeding the jig 3 is
If the time is 16 minutes, a new cycle starts by turning off a timer (not shown), and the jig 3 on which the workpiece 4 located at the end of the tunnel section 2 is loaded is pushed out by the pusher 8 to the vestable side. When the movement is started and the shutter 7 is opened, the processing object 4 is moved together with the jig 3 from the inside of the tunnel portion 2 into the unloading vestible 6, and it takes approximately 40 to 50 seconds until the shutter 7 is closed. Also, turn off the timer
Before the end of the cycle, the opening / closing door 15 is opened, and the workpiece 4 is carried out together with the jig 3 in order to transfer the workpiece 4 to the quenching tank 18 by the pusher 17. Since it takes up to 40 seconds, the processing object 4 can be held in the unloading vestible 6 for about 13 minutes.

When the timer is turned off and a new cycle starts, rapid heating is performed by the burner 11, that is, by increasing the supply amounts of the butane gas supply system and the air supply system connected to the burner 11, and after a few minutes (shutter). After about 60 seconds (after closing 7), the temperature becomes 840 to 860 ° C., and the workpiece 4 is held in the unloading vestible 6 at that temperature. When the opening / closing door 15 is opened to unload the workpiece 4, the temperature in the unloading vestible 6 rapidly decreases, and when the unloading of the workpiece 4 is completed and the opening / closing door 15 is closed, 700 is required.
To 750 ° C. The rapid heating by the burner 11 is performed together with the stirring by the fan means 12 so that the temperature and atmosphere in the unloadable vestible 6 are made uniform, so that the production efficiency is not impaired.

The gas is introduced from the gas introduction pipe 13 by the shutter 7.
V is introduced amount for closing and beginning at the same time, to the initial predetermined atmosphere is a V _1, after a predetermined time, the carbon potential is 0.9% approximately, the amount introduced is less than the above V _{1 The} atmosphere is kept at approximately 0.9% (constant) of the carbon potential by being controlled between ₂ . When the opening / closing door 15 is opened, the supply of the additional gas into the carry-out vestible 6 is stopped, and the carbon potential is reduced. However, when the shutter 7 is closed, the above control is repeated again.

In the above embodiment, the unloading vestible 6 is used as a part of the carburizing furnace, but it can be used as a nitriding furnace by introducing a nitriding gas from a gas inlet pipe. In this way, when carbonitriding is conventionally performed, nitriding treatment is performed by reheating in a batch furnace after carburizing and quenching, but there is no need for reheating, and production efficiency of carbonitriding treatment is improved. .

(Effects of the Invention) Since the inventions of claims 1 and 2 are configured as described above,
The production efficiency can be improved by effectively utilizing the unloading vestible as a part of the carburizing furnace or the nitriding furnace without increasing the furnace space.

[Brief description of the drawings]

Drawings show an embodiment of the present invention, FIG. 1 is a longitudinal sectional view of a main part of a carburizing furnace, FIG. 2 is a sectional view taken along the line II-II of FIG.
FIG. 3 is a schematic plan view of the relevant part, and FIG. 4 is a time chart. 1 ... carburizing furnace, 2 ... tunnel section, 4 ... workpiece, 5
… Exit side opening, 6… Vestible, 7… Shutter, 11… Burner (heating means), 12… Fan means, 13
... gas inlet pipe, 15 ... openable door.

Claims (2)

(57) [Claims] 1. A tunnel type carburizing furnace for intermittently feeding an object to be carburized in a tunnel portion, carburizing the object, and carrying out the carburized object from a carry-out vestible connected to an outlet opening of the tunnel portion. In the outlet-side opening, a shutter for separating the tunnel portion and the unloading vestible is provided so as to be openable and closable, and the unloading vestible has a gas for introducing a carburizing gas or a nitriding gas into the unloading vestible. An introduction pipe, heating means for heating the inside of the unloading vestible to a predetermined temperature, and an opening / closing door opened when unloading the workpiece from the unloading vestibule, gas introduction from the gas introduction pipe into the unloading vestibule; Is
The process is started when the object is loaded into the unloading vestible and the shutter is closed with the opening / closing door closed, and stopped when the opening and closing door is opened to unload the object from the unloading vestible. The carburizing or nitriding process is performed on the object loaded into the unloading vestible while the shutter and the opening / closing door are closed. Furnace. 2. A tunnel type carburizing furnace for intermittently feeding an object to be carburized in a tunnel portion, carburizing the object, and carrying out the carburized object from a carry-out vestible connected to an outlet opening of the tunnel portion. In the outlet-side opening, a shutter for separating the tunnel portion and the unloading vestible is provided so as to be openable and closable, and the unloading vestible has a gas for introducing a carburizing gas or a nitriding gas into the unloading vestible. An introduction pipe, a heating unit that heats the inside of the unloading vestibule to a predetermined temperature, a fan unit that equalizes the gas atmosphere in the unloading vestibule, and an opening / closing door that is opened when the workpiece is unloaded from the unloading vestible. Provided, gas introduction into the unloading vestible from the gas introduction pipe,
The process is started when the object is loaded into the unloading vestible and the shutter is closed with the opening / closing door closed, and stopped when the opening and closing door is opened to unload the object from the unloading vestible. The object loaded into the unloading vestibule is carburized or nitrided in the unloading vestibule with the shutter and the opening / closing door closed, while the unloading vestible is unloaded after the unloading vestible is unloaded. A carburizing furnace characterized by being configured to be rapidly heated.