CN208649377U - Deep cooling vacuumizes tempering furnace - Google Patents

Abstract

The utility model provides a kind of deep cooling and vacuumizes tempering furnace, comprising: furnace shell, the entrance of furnace shell are equipped with fire door, are additionally provided with nitrogen input pipe on furnace shell；For the liner that workpiece is put, it is coaxially installed in furnace shell and is formed between the inner sidewall of furnace shell airflow channel, the axial direction of liner is equipped with opposite the first open end and the second open end, and the second open end is located at the inlet side of furnace shell；Heating device is installed in liner；Vacuum evacuation device for vacuumizing to furnace shell inside, is installed on furnace shell；For spraying the liquid nitrogen transfer pipeline of liquid nitrogen into liner, liner is connected to from the outside of furnace shell；For opening and closing the first door body of the first open end, it is installed at the first open end, air exhausting device is installed on the inside of the first door body；And it for opening and closing the second door body for stating the second open end, is installed at the second open end.The utility model solves the problems, such as that traditional deep cooling and tempering method are low to the treatment effeciency of steel workpiece and oxidizable.

Description

Deep cooling vacuumizes tempering furnace

Technical field

The utility model relates to a kind of tempering furnaces, and in particular to a kind of deep cooling vacuumizes tempering furnace.

Background technique

There are a certain number of retained austenites in steel, influence the fatigue life of steel after quenching, surface is easy to wear, intolerant to Mill.In order to eliminate the retained austenite in steel, the heat treatment process generallyd use both at home and abroad at present be quenching after in tempering furnace Tempering, then carries out subzero treatment in deep cooling box again.Although this way can eliminate portion of residual austenite, due to this Two kinds of techniques are to carry out in two kinds of equipment respectively, and the processing time is long, and working efficiency is relatively low.Moreover, in tempering furnace Carrying out the way that generallys use of tempering is the air being passed through in furnace in nitrogen displacement furnace in tempering, thus protect workpiece not by Oxidation, but since the displacement of this way nitrogen is not thorough, still results in the oxidation of part workpiece, influence product quality.

Utility model content

To overcome the defects of present in the prior art, a kind of deep cooling is now provided and vacuumizes tempering furnace, to solve traditional deep cooling The problem low and oxidizable with treatment effeciency of the tempering method to steel workpiece.

To achieve the above object, provide a kind of deep cooling vacuumize tempering furnace and, comprising:

Furnace shell, the entrance of the furnace shell are equipped with fire door, are additionally provided with nitrogen input pipe on the furnace shell；

For the liner that workpiece is put, it is coaxially installed in the furnace shell and forms air-flow between the inner sidewall of the furnace shell Channel, the axial direction of the liner are equipped with opposite the first open end and the second open end, and second open end is located at described The inlet side of furnace shell；

Heating device is installed in the liner；

For to the vacuum evacuation device vacuumized inside the furnace shell, the vacuum evacuation device to be installed on the furnace shell On；

For spraying the liquid nitrogen transfer pipeline of liquid nitrogen into the liner, the liquid nitrogen transfer pipeline is from outside the furnace shell Side is connected to the liner；

For opening and closing the first door body of first open end, it is installed at first open end, first door body Inside air exhausting device is installed；And

For opening and closing the second door body of second open end, it is installed at second open end.

Further, First Heat Exchanger is additionally provided in the furnace shell, the First Heat Exchanger is located at the opposite of the furnace shell The side of the entrance.

Further, first door body is pivotably connected in the furnace shell by oscillating rod relative to the entrance On the first end inner wall of side, it is connected between the oscillating rod and the first end inner wall for driving the oscillating rod to swing To control the first door body masking or open the first cylinder of first open end.

Further, it is connected on the inside of the fire door and is opened for controlling the second door body masking or opening described second Second cylinder at mouth end, second door body are connected to second cylinder.

Further, the heating device includes multiple heat conduction rings, and multiple heat conduction rings are along the axial direction side of the liner It is arranged to interval.

Further, first open end is formed with towards the one of the outside of the liner and encloses deflector.

Further, the temperature-detecting device for detecting the temperature in the liner is installed in the liner.

Further, further include gas exhaustion line for being emitted into the gas in the liner outside the furnace shell, The gas exhaustion line is connected to the outside of the furnace shell from the inside of the liner.

The beneficial effects of the utility model are that the deep cooling of the utility model vacuumizes tempering furnace for two kinds of deep cooling and tempering Heat treatment process is combined together, and realizes both functions with an equipment, occupation area of equipment can be effectively reduced, section Cost-saving, avoiding workpiece, gapless shifts on space when two kinds of heat treatment process are handled, and improves working efficiency.In addition, in work Furnace shell (liner) is vacuumized using vacuum evacuation device before part tempering, the oxygen that can be effectively reduced in furnace shell (liner) contains Amount, compared with traditional nitrogen prepurging, it not only saves time and nitrogen, but also prepurging effect is more preferable, more thorough.This is practical new The deep cooling of type vacuumizes the air exhausting device (air draft fan blade) of tempering furnace, at the workpiece subzero treatment stage, by the nitrogen in liner (liquid nitrogen of the liquid nitrogen spray injection of liquid nitrogen transfer pipeline is gasified) arranges from the first open end of liner to airflow channel and in Second open end of gallbladder, which is arranged, carries out subzero treatment into liner to form circulation cold airflow to workpiece, so that in the short period It is interior to cool down to workpiece, subzero treatment is carried out to workpiece to realize, the retained austenite of inside workpiece can be effectively eliminated, make Part obtains relatively good mechanical property；At the workpiece tempering stage, air exhausting device (air draft fan blade) is by the nitrogen of liner (nitrogen of nitrogen input pipe input) forms circulation thermal current, carries out tempering to the workpiece in the liner, in turn So that workpiece is heated, is heated evenly.

Detailed description of the invention

Fig. 1 is that the deep cooling of the utility model embodiment vacuumizes the structural schematic diagram of tempering furnace.

Fig. 2 is the schematic diagram that the deep cooling of the utility model embodiment vacuumizes the cryogenic of tempering furnace.

Fig. 3 is the schematic diagram that the deep cooling of the utility model embodiment vacuumizes the annealed strip of tempering furnace.

Fig. 4 is the schematic diagram that the deep cooling of the utility model embodiment vacuumizes the circulation cold airflow of tempering furnace.

Fig. 5 is the schematic diagram that the deep cooling of the utility model embodiment vacuumizes the circulation thermal current of tempering furnace.

Fig. 6 is the structural schematic diagram that the deep cooling of the utility model embodiment vacuumizes the vacuum evacuation device of tempering furnace.

Fig. 7 is that the deep cooling of the utility model embodiment vacuumizes the gas exhaustion line and liquid nitrogen transfer pipeline of tempering furnace Structural schematic diagram.

Specific embodiment

Illustrate the embodiments of the present invention below by way of specific specific example, those skilled in the art can be by this theory Content disclosed by bright book understands other advantages and effect of the utility model easily.The utility model can also be by addition Different specific embodiments are embodied or practiced, and the various details in this specification can also be based on different viewpoints and answer With carrying out various modifications or alterations under the spirit without departing from the utility model.

Fig. 1 is that the deep cooling of the utility model embodiment vacuumizes the structural schematic diagram of tempering furnace, Fig. 2 is the utility model reality Schematic diagram, the Fig. 3 for the cryogenic that the deep cooling for applying example vacuumizes tempering furnace are vacuumized back for the deep cooling of the utility model embodiment The schematic diagram of the annealed strip of stove, the deep cooling that Fig. 4 is the utility model embodiment vacuumize the circulation cold airflow of tempering furnace Schematic diagram, Fig. 5 are that schematic diagram, Fig. 6 that the deep cooling of the utility model embodiment vacuumizes the circulation thermal current of tempering furnace are this reality The structural schematic diagram of the vacuum evacuation device of tempering furnace is vacuumized with the deep cooling of new embodiment, Fig. 7 is the utility model embodiment Deep cooling vacuumize the gas exhaustion line of tempering furnace and the structural schematic diagram of liquid nitrogen transfer pipeline.

Shown in referring to Figure 1 to Figure 7, the utility model provides a kind of deep cooling and vacuumizes tempering furnace, comprising: furnace shell 11, furnace Door 12, liner 13, heating device, vacuum evacuation device 3, liquid nitrogen transfer pipeline 41, the first door body 5, air exhausting device and second Body 121.

Furnace shell 11 has an entrance.The entrance of furnace shell 11 is equipped with fire door 12.Nitrogen input pipe is formed on furnace shell 11 111.Nitrogen input pipe is connected to liner from the outside of furnace shell, for being filled with nitrogen into liner after vacuumize process.

Liner 13 is coaxially installed in furnace shell 11, and forms airflow channel between liner 13 and the inner sidewall of furnace shell 11.It is interior The axial direction of gallbladder 13 is equipped with the first open end and the second open end.Second open end is located at the side of the entrance of furnace shell, and first opens Mouth end is located at the side of the opposite inlet of furnace shell.Liner 13 is for putting workpiece to be processed.

Liquid nitrogen transfer pipeline 41 is for spraying liquid nitrogen into liner.The outside of liquid nitrogen transfer pipeline 41 from furnace shell 11 is connected to Liner 13.Multiple liquid nitrogen sprays 4 are installed, liquid nitrogen spray is located in liner 13 on liquid nitrogen transfer pipeline 41.Liquid nitrogen transfer pipeline 41 are connected with liquid nitrogen source.Liquid nitrogen spray 4 sprays liquid nitrogen in workpiece subzero treatment, is quickly reduced in liner using liquid nitrogen gasification Temperature.

Heating device is installed in liner 13, provides heat in workpiece tempering.

Vacuum evacuation device 3 is set to the outside of furnace shell 11 and is connected to furnace shell 11, carries out furnace shell pumping before workpiece tempering Vacuum, by furnace shell, liner air and nitrogen (gasified by the liquid nitrogen sprayed in liquid nitrogen transfer pipeline) outside discharge furnace shell.

First door body 5 is for opening and closing the first open end.The inside of first door body 5 is equipped with air exhausting device (6 He of air draft fan blade Driving motor 61).

Second door body 121 is used to open and close the second open end of liner, is installed at the second open end.Specifically, fire door Inside is connected with the second cylinder 122, and the second door body 121 is connected to the telescopic end of the second cylinder 122.Second cylinder 122 is for controlling It makes the masking of the second door body or opens the second open end.

The deep cooling of the utility model vacuumizes tempering furnace and is combined together two kinds of heat treatment process of deep cooling and tempering, with one Platform equipment realizes both functions, and occupation area of equipment can be effectively reduced, and saves cost, avoids the workpiece at two kinds of heat Spatially gapless shifts when managing process, improves working efficiency.In addition, using vacuum evacuation device to furnace before workpiece is tempered Shell (liner) vacuumizes, and the oxygen content that can be effectively reduced in furnace shell (liner), compared with traditional nitrogen prepurging, it is not Time and nitrogen are only saved, and prepurging effect is more preferable, more thorough.The deep cooling of the utility model vacuumizes the air draft dress of tempering furnace (air draft fan blade) is set, at the workpiece subzero treatment stage, (liquid nitrogen spray of liquid nitrogen transfer pipeline sprays by the nitrogen in liner Liquid nitrogen is gasified) it arranges from the first open end of liner to airflow channel and arranges into liner from the second open end of liner to be formed Recycle cold airflow to workpiece carry out subzero treatment so that within a short period of time give workpiece cooling, thus realize to workpiece into Row subzero treatment can effectively eliminate the retained austenite of inside workpiece, part is made to obtain relatively good mechanical property；In work When the part tempering stage, the nitrogen (nitrogen that nitrogen input pipe inputs) of liner is formed and is recycled by air exhausting device (air draft fan blade) Thermal current carries out tempering to the workpiece in the liner, so that workpiece is heated, is heated evenly.

In the present embodiment, furnace shell 11 is Horizontal cylinder shape structure, double furnace wall, band water-cooling jacket.In subzero treatment rank Section can further reduce the temperature of circulation cold airflow.Furnace shell 11 is by the shell with water-cooling jacket, furnace leg, truck guide rail group At.The open end of shell is equipped with furnace shell flange.Fire door is equipped with fire door flange.Pass through sealing between fire door flange and furnace shell flange Vacuum sealing may be implemented in circle.Likewise, fire door 12 is Double water-cooled nested structure, fire door 12 is articulated with furnace shell 11 by hinge and consolidates It is scheduled on together.

As a kind of preferable embodiment, it is equipped with First Heat Exchanger 7 in furnace shell, First Heat Exchanger is annular in shape, is located at furnace The side of the opposite inlet of shell.At the workpiece subzero treatment stage, the air-flow being discharged from the first open end is arranged via air draft fan blade After further decreasing temperature under the action of First Heat Exchanger, arranged from the second open end into liner via airflow channel.

In conjunction with shown in Fig. 4 and Fig. 5, the first door body 5 is pivotably connected in furnace shell by oscillating rod 52 relative to entrance On the first end inner wall of side.It is connected between oscillating rod 52 and first end inner wall for driving oscillating rod to swing to control first Door body masking or the first cylinder 51 for opening the first open end.Air exhausting device includes air draft fan blade 6 and for driving air draft fan blade Driving motor 61.The inside of first door body 5 is equipped with air draft fan blade 6.The outside of first door body 5 is equipped with driving motor 61. The output end of driving motor 61 extends to the inside of the first door body 5 and is drivingly connected in air draft fan blade 6.Specifically, being tempered in workpiece When processing stage, first to push oscillating rod that the first door body is shielded in liner is stretched out by the telescopic end of the first cylinder and is open End；At workpiece subzero treatment stage and vacuumize process stage, pulled back oscillating rod driving the by the telescopic end of the first cylinder One door body opens the first open end of liner, so that airflow channel is connected to the first open end and the second open end.

As a kind of preferable embodiment, the quantity of liquid nitrogen spray 4 be it is multiple, multiple intervals of liquid nitrogen sprays 4 are laid in The surrounding of air draft fan blade 6.Specifically, liquid nitrogen transfer pipeline 41 works as row in the surrounding that air draft fan blade is annularly arranged in of liner When wind fan blade operates, the liquid nitrogen that liquid nitrogen spray sprays equably blows to surrounding by air draft fan blade, and liquid nitrogen is made sufficiently to gasify, and improves money Source service efficiency.

In the present embodiment, heating device includes multiple heat conduction rings 21.Multiple heat conduction rings are between the axial direction of liner 13 Every setting.The cyclic direction of each heat conduction ring is consistent with the circumferencial direction of liner.Specifically, heat conduction ring is high-resistance electric heating (material: 1.4307) being made alloy, and the cross section of heat conduction ring is tubulose, using the fuel factor of electric current, when heat conduction ring is powered When, a large amount of heat can be generated on the surface of heat conduction ring, to heat workpiece.Heat conduction ring 21 is connected to electricity by heating electrode 22 Source.

As a kind of preferable embodiment, the circle that the first open end of liner is formed with towards the outside of liner 13 is led Flowing plate 131.In the present embodiment, deflector is in horn-like, and the big opening end (horn mouth) of deflector is arranged towards liner.Work as air draft When fan blade rotates, the gas in liner converges at the osculum end of deflector under the pump drainage of air draft fan blade on the inside of deflector, And the osculum end through deflector is arranged to airflow channel.

In conjunction with shown in Fig. 1 and Fig. 6, vacuum evacuation device 3 includes vacuum pipe 31, lobe pump 33 and sliding vane rotary pump 32.Sliding vane rotary pump 32 are connected to lobe pump 33.Lobe pump 33 is connected to vacuum pipe 31.Vacuum pipe 31 is connected to furnace shell 11.

As a kind of preferable embodiment, furnace shell 11 is equipped with temperature-detecting device.In temperature-detecting device is installed on In gallbladder, for detecting the temperature in liner.Specifically, temperature-detecting device is thermocouple 8.Thermocouple 8 extends in liner 13.? In the present embodiment, thermocouple includes the first thermocouple and the second thermocouple.First thermocouple is for accurately controlling in-furnace temperature.The Two thermocouples are used for real-time detection workpiece temperature.First thermocouple and the second thermocouple are all set in the middle part of liner close to workpiece Place, more can truly react in-furnace temperature (i.e. furnace gas temperature at workpiece), so as to according to specific process requirement accurately Temperature control.

In this embodiment, gas exhaustion line 9 is also equipped on furnace shell 11.Gas exhaustion line 9 is used for will be in liner Gas is emitted into outside furnace shell.The one end in the outside positioned at furnace shell of gas exhaustion line 9 is equipped with exhaust angle pedestal valve 91, gas row It puts and is additionally provided with the second heat exchanger 92 on pipeline 9.Specifically, the second heat exchanger is water cooling heat exchanger, it is mainly used at workpiece tempering Cold air when the reason stage to the gas cooling of discharge and subzero treatment stage to discharge heats up, to protect exhaust angled seat Valve extends the service life of pneumatic angle pedestal valve and ensures the leakproofness of entire gas exhaustion line.

The utility model provides the deep cooling tempering method for treating that a kind of deep cooling vacuumizes tempering furnace, comprising the following steps:

The subzero treatment stage:

Subzero treatment, deep cooling refer generally to the warm area range of 233K~77K.233K (about -40 DEG C) is generally single-stage vapor pressure The cold lowest temperature that can effectively reach of contraction, (about -196 DEG C) of 77K are liquid nitrogen atmospheric boiling point temperature.Deep cooling is that practical application is worked as In commonly use liquid nitrogen to realize the warm area of refrigeration.

S1: it opens fire door 12 and workpiece is placed in liner 13.

Workpiece is placed in liner 13 by the entrance of furnace shell 11 and the second open end of liner 13 specifically, opening fire door 12 In.

S2: closing fire door 12 and opens the first door body 51 and the second door body 122, the air exhausting device of 122 inside of the second door body In alignment with the first open end, airflow channel is connected to the second open end and the first open end of liner.

S3: spraying liquid nitrogen into liner 13 by liquid nitrogen transfer pipeline 41, and forming nitrogen reduces the temperature of liner.

S4: it opens air exhausting device and arranges the nitrogen in liner 13 to airflow channel and from the second open end from the first open end It arranges and carries out subzero treatment into liner to form circulation cold airflow to workpiece.

Specifically, opening driving motor to drive air draft fan blade 6 to rotate, air draft fan blade is directed at the first open end air draft, interior Liquid nitrogen (gasification is in nitrogen) in gallbladder is arranged to airflow channel.It is further through First Heat Exchanger during row is to airflow channel It is carried out at deep cooling into liner with forming circulation cold airflow to workpiece after reducing temperature through being arranged from airflow channel from the second open end Reason.

The vacuumize process stage:

S5: it after workpiece subzero treatment, opens vacuum evacuation device 3 and is vacuumized, so that shape in furnace shell 11 and liner 13 At vacuum state.

S6: vacuum evacuation device 3 is closed, and is filled with nitrogen into furnace shell 11 and liner 13 via nitrogen input pipe 111.

The tempering stage:

Tempering, will be reheated to that (pearlite is to Austria when heating lower than lower critical temperature Ac1 by the workpiece of quenching The start temperature of family name's body transformation) proper temperature, metal fever cooling in the media such as air or water, oil after keeping the temperature a period of time Treatment process.Or quenched alloy workpiece is heated to proper temperature, some time is kept the temperature, then slow or rapid cooling. It is generally used for reducing or eliminating the internal stress in quenched steel component, or reduces its hardness and strength, to improve its ductility or toughness. Quenched workpiece should be tempered in time, be matched by what is quenched and be tempered, and required mechanical property can be just obtained.

S7: the first door body 5 and second door body 121 are closed to close the first open end and the second open end of liner.

The telescopic end for controlling the first cylinder 51, which stretches out, pushes oscillating rod to control the first opening of the first door body closing liner End.The telescopic end for controlling the second cylinder 122, which stretches out, pushes the second door body to control the second opening of the second door body 121 closing liner End.

S8: it opens heating device, open air exhausting device simultaneously, so that the nitrogen of liner is formed circulation thermal current, to liner 13 In workpiece carry out tempering.

Heating device is opened by heating heated by electrodes electrothermal ring, so that being evenly heated heating in liner.Meanwhile the row of unlatching The driving motor of wind apparatus is to drive air draft fan blade 6 to rotate, so that the air-flow (nitrogen) at 13 middle part of liner is blown via air draft fan blade 6 To the inner sidewall of liner 13 to form circulation thermal current, workpiece is evenly heated.

It should be noted that this specification structure depicted in this specification institute accompanying drawings, ratio, size etc., only to cooperate The bright revealed content of book is not intended to limit the utility model implementable so that those skilled in the art understands and reads Qualifications, therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or the adjustment of size, In the case where not influencing the effect of the utility model can be generated and the purpose that can reach, should all still fall in disclosed in the utility model Technology contents obtain and can cover in the range of.Meanwhile in this specification it is cited as "upper", "lower", "left", "right", " in Between " and " one " etc. term, be merely convenient to being illustrated for narration, rather than to limit the enforceable range of the utility model, Relativeness is altered or modified, under the content of no substantial changes in technology, when being also considered as the enforceable scope of the utility model.

Combine figure embodiment that the utility model is described in detail above, those skilled in the art can root Many variations example is made to the utility model according to above description.Thus, certain details in embodiment should not constitute practical to this Novel restriction, the utility model will be using the ranges that the appended claims define as protection scope.

Claims (8)

1. a kind of deep cooling vacuumizes tempering furnace characterized by comprising

Furnace shell, the entrance of the furnace shell are equipped with fire door, are additionally provided with nitrogen input pipe on the furnace shell；

For the liner that workpiece is put, it is coaxially installed in the furnace shell and forms air-flow between the inner sidewall of the furnace shell and lead to The axial direction in road, the liner is equipped with opposite the first open end and the second open end, and second open end is located at the furnace The inlet side of shell；

Heating device is installed in the liner；

For to the vacuum evacuation device vacuumized inside the furnace shell, the vacuum evacuation device to be installed on the furnace shell；

For spraying the liquid nitrogen transfer pipeline of liquid nitrogen into the liner, the liquid nitrogen transfer pipeline connects from the outside of the furnace shell It is connected to the liner；

For opening and closing the first door body of first open end, be installed at first open end, first door body it is interior Side is equipped with air exhausting device；And

For opening and closing the second door body of second open end, it is installed at second open end.

2. deep cooling according to claim 1 vacuumizes tempering furnace, which is characterized in that be additionally provided with the first heat exchange in the furnace shell Device, the First Heat Exchanger are located at the side of the relatively described entrance of the furnace shell.

3. deep cooling according to claim 1 vacuumizes tempering furnace, which is characterized in that first door body can by oscillating rod It is swingingly connected on the first end inner wall relative to the inlet side of the furnace shell, the oscillating rod and the first end It is connected between inner wall for driving the oscillating rod to swing to control the first door body masking or open first opening First cylinder at end.

4. deep cooling according to claim 1 vacuumizes tempering furnace, which is characterized in that be connected with and be used on the inside of the fire door It controls the second door body masking or opens the second cylinder of second open end, second door body is connected to described second Cylinder.

5. deep cooling according to claim 1 vacuumizes tempering furnace, which is characterized in that the heating device includes multiple thermally conductive Ring, multiple heat conduction rings are arranged along the axial direction interval of the liner.

6. deep cooling according to claim 1 vacuumizes tempering furnace, which is characterized in that first open end is formed with direction The one circle deflector in the outside of the liner.

7. deep cooling according to claim 1 vacuumizes tempering furnace, which is characterized in that be equipped in the liner for detecting The temperature-detecting device of temperature in the liner.

8. deep cooling according to claim 1 vacuumizes tempering furnace, which is characterized in that further include for will be in the liner Gas is emitted into the gas exhaustion line outside the furnace shell, and the gas exhaustion line is connected to described from the inside of the liner The outside of furnace shell.