JP2019190801A - Heat treatment furnace - Google Patents

Abstract

To provide a heat treatment furnace provided with opening-closing dampers capable of smoothing the flow of a cooling fluid.SOLUTION: A heat treatment furnace 10 heat-treating a workpiece comprises: a heat treatment chamber 2 arranged with the workpiece to be heat-treated; a cooling fan 3 circulating a cooling fluid cooling the workpiece in the furnace; and opening-closing dampers 4, 5 changing the cooling flow of the cooling fluid. The opening-closing dampers 4, 5 are provided so as to have an angle to an opposing wall face 23a of the heat treatment chamber arranged so as to oppose to the cooling fan 3 in the opening positions 4a, 5a of the opening-closing dampers 4, 5.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a heat treatment furnace for heat treating a workpiece.

  A conventional heat treatment furnace includes a heat treatment chamber in which a work to be heat treated is disposed and an opening having lids on upper and lower walls, and a cooling fan that circulates a cooling fluid for cooling the work in the furnace. ing. When the workpiece is heated, the lid is closed, the workpiece is heated by a heater provided in the furnace, and when the workpiece is cooled, the lid is opened and a cooling fluid is supplied into the heat treatment chamber. Here, in order to quickly and uniformly cool the workpiece, the open / close damper shown in Patent Documents 1 and 2 is used to alternately switch the flow of the cooling fluid in the heat treatment chamber in the vertical direction.

JP 2011-231969 A JP 2002-249819 A

  Here, since the open / close damper is provided in the open position so as to be horizontal to the opposing wall surface of the heat treatment chamber disposed facing the cooling fan, when the cooling fluid passes through the open / close damper, There is a problem that pressure loss and fluid turbulence are likely to occur, and the cooling flow rate required for cooling the workpiece cannot be obtained.

  Therefore, an object of the present invention is to provide a heat treatment furnace including an open / close damper that can smooth the flow of a cooling fluid.

The present invention
A heat treatment furnace for heat treating a workpiece,
A heat treatment chamber in which workpieces to be heat treated are arranged;
A cooling fan for circulating a cooling fluid for cooling the workpiece in the furnace,
An open / close damper that changes the cooling flow of the cooling fluid, and
The open / close damper is provided at an open position of the open / close damper so as to have an angle with respect to an opposing wall surface of the heat treatment chamber disposed to face the cooling fan.

  According to the above configuration, by making the opening position of the open / close damper at an angle with respect to the opposing wall surface, the flow of the cooling fluid can be made smooth, the necessary flow rate is ensured, and the workpiece is uniformly cooled. can do.

  The present invention preferably further comprises the following configuration.

(1) The inner wall of the heat treatment furnace is provided with a support portion that supports the open / close damper at each of an open position and a close position of the open / close damper,
The support part has an opening at the center.

(2) The opening / closing damper is provided at an open position of the opening / closing damper so as to have an angle of 45 degrees with respect to the opposing wall surface.

(3) The opening / closing damper is provided so as to have an angle with respect to the opposing wall surface at a closing position of the opening / closing damper.

(4) In the configuration (3), the opening / closing damper is provided so as to have an angle of 45 degrees with respect to the opposing wall surface at the closing position of the opening / closing damper.

  According to the configuration (1), when the open / close damper is not positioned at the open position or the closed position while stably supporting the open / close damper in both the open position and the closed position, the opening of the support section A cooling flow path at the position can be secured.

  According to the configuration (2), since the opening position of the open / close damper has an angle of 45 degrees with respect to the opposing wall surface, the flow of the cooling fluid that bypasses the opposing wall surface can be made smoother.

  According to the configuration (3), since the opening / closing damper has an angle with respect to the opposing wall surface at the closed position, the cooling fluid flowing along the opening / closing damper forms a flow that flows away from the opposing wall surface. Can do.

  According to the configuration (4), since the closing position of the opening / closing damper has an angle of 45 degrees with respect to the opposing wall surface, the cooling fluid flowing along the opening / closing damper faces the opposing wall surface, and along the opposing wall surface. A flowing stream can be formed.

  ADVANTAGE OF THE INVENTION According to this invention, the heat processing furnace provided with the opening / closing damper which can make the flow of a cooling fluid smooth can be provided.

It is the schematic of the heat processing furnace which concerns on embodiment of this invention. It is the schematic of the heat processing furnace at the time of changing the position of the opening-and-closing damper of FIG. It is the schematic of the heat processing furnace which shows the modification of an opening / closing damper. It is the schematic of the heat processing furnace at the time of changing the position of the opening-and-closing damper of FIG.

  FIG. 1 is a schematic view of a heat treatment furnace according to an embodiment of the present invention. As shown in FIG. 1, the heat treatment furnace 10 is a single-chamber vacuum heat treatment furnace, and in the furnace body 1 constituting the heat treatment furnace 10, a heat treatment chamber 2 in which a workpiece to be heat treated is disposed is disposed. ing. In order to circulate the cooling fluid (cooling gas) in the heat treatment chamber 2, openings 21 a and 22 a are respectively formed in the upper wall 21 and the lower wall 22 of the heat treatment chamber 2, and the opening 21 a can be moved up and down. The upper lid 21b can be opened and closed, and the opening 22a can be opened and closed by a vertically movable lower lid 22b. A stirring fan 26 is provided in the heat treatment chamber 2 for stirring the cooling gas in the heat treatment chamber.

  The cooling gas is, for example, an inert gas, and nitrogen gas, argon gas, helium gas, or a mixed gas of these gases is used.

  A cooling fan 3 that circulates the cooling fluid in the furnace is provided on one side of the heat treatment chamber 2. The cooling fan 3 is a centrifugal fan and is connected to a drive motor 31. The cooling fan 3 is rotated by driving of the drive motor 31 so that the cooling fluid is sucked in the axial direction and discharged in the circumferential direction.

  The heat treatment chamber 2 includes a side wall 23 having an opposing wall surface 23 a disposed to face the cooling fan 3.

  Opening and closing dampers 4 and 5 for changing the cooling flow of the cooling fluid are provided inside the furnace body 1 and outside the heat treatment chamber 2. One end of the open / close damper 4 is supported by a support portion 11 provided on the inner wall of the furnace body 1, and is provided between the open position 4 a and the close position 4 b so as to be rotatable about the support portion 11. . Here, the open position 4a is the position of the open / close damper 4 that opens the suction space 3a in which the suction portion of the cooling fan 3 is provided, and the close position 4b is the position of the open / close damper 4 that closes the suction space 3a. is there.

  The open / close damper 5 is supported at one end by a support portion 12 provided on the inner wall of the furnace body 1, and is provided to be rotatable around the support portion 12 between an open position 5 a and a close position 5 b. ing. Here, the open position 5a is the position of the opening / closing damper 5 that opens the suction space 3a, and the closing position 5b is the position of the opening / closing damper 5 that closes the suction space 3a.

  The open / close damper 4 is provided at an open position 4 a so as to have an angle with respect to the opposing wall surface 23 a of the heat treatment chamber 2 disposed to face the cooling fan 3. The angle θ1 formed by the open / close damper 4 and the opposing wall surface 23a at the open position 4a is preferably 45 degrees. The open / close damper 4 is provided so as to be orthogonal to the opposing wall surface 23a at the closed position 4b. That is, the angle θ2 formed by the opening / closing damper 4 and the opposing wall surface 23a at the closing position 4b is 90 degrees.

  On the inner wall of the heat treatment furnace 10, support portions 24 a and 24 b that support the open / close damper 4 are provided at the open position 4 a and the close position 4 b of the open / close damper 4. An opening 24a1 is formed in the center of the support portion 24a, and an opening 24b1 is formed in the center of the support portion 24b.

  The open / close damper 5 is provided at an open position 5 a so as to have an angle with respect to the opposing wall surface 23 a of the heat treatment chamber 2 disposed to face the cooling fan 3. The angle θ3 formed by the open / close damper 5 and the opposing wall surface 23a at the open position 5a is preferably 45 degrees. The open / close damper 5 is provided so as to be orthogonal to the opposing wall surface 23a at the closed position 5b. That is, the angle θ4 formed by the opening / closing damper 5 and the opposing wall surface 23a at the closing position 5b is 90 degrees.

  On the inner wall of the heat treatment furnace 10, support portions 25 a and 25 b that support the open / close damper 5 are provided at the open position 5 a and the close position 5 b of the open / close damper 5. An opening 25a1 is formed at the center of the support portion 25a, and an opening 25b1 is formed at the center of the support portion 25b.

  The heat treatment furnace 10 operates as follows.

  When a workpiece is placed in the heat treatment chamber 2, the opening 21a of the upper wall 21 of the heat treatment chamber 2 is closed by the upper lid 21b, and the opening 22a of the lower wall 22 is closed by the lower lid 22b. And the workpiece | work in the heat processing chamber 2 is heat-processed.

  When the heat treatment of the workpiece is completed, the upper lid 21b moves upward, and the opening 21a of the upper wall 21 is opened. Further, the lower lid 22b moves downward, and the opening 22a of the lower wall 22 is opened.

  Then, as shown in FIG. 1, the opening / closing damper 4 is positioned at the closing position 4b, the opening / closing damper 5 is positioned at the opening position 5a, and the cooling fan 3 is activated. As a result, the cooling fluid discharged from the cooling fan 3 passes through the opening 24a1 of the support 24a and flows into the heat treatment chamber 2 from the opening 21a of the upper wall 21. Then, the cooling fluid that has cooled the workpiece in the heat treatment chamber 2 flows out of the heat treatment chamber 2 from the opening 22a of the lower wall 22, flows along the opening / closing damper 5 located at the closed position 5b, and is sucked into the cooling fan 3 It is.

  When a certain time has elapsed, as shown in FIG. 2, the opening / closing damper 4 is positioned at the open position 4a, and the opening / closing damper 5 is positioned at the closing position 5b. As a result, the cooling fluid discharged from the cooling fan 3 passes through the opening 25a1 of the support portion 25a and flows into the heat treatment chamber 2 from the opening 22a of the lower wall 22. And the cooling fluid which cooled the workpiece | work in the heat processing chamber 2 flows out of the heat processing chamber 2 from the opening part 21a of the upper wall 21, flows along the opening / closing damper 4 located in the closed position 4b, and is sucked into the cooling fan 3 It is.

  In this way, by alternately positioning the open / close dampers 4 and 5 at the open position and the close position, the flow of the cooling fluid in the heat treatment chamber 2 is alternately switched in the vertical direction, and the workpiece disposed in the heat treatment chamber 2 is moved. Cooling.

  According to the heat treatment furnace 10 configured as described above, the following effects can be exhibited.

(1) Since the open / close dampers 4 and 5 have an angle with respect to the opposing wall surface 23a at the open positions 4a and 5a, the flow of the cooling fluid can be made smooth and the necessary flow rate can be ensured. , Work can be cooled uniformly.

(2) Since the openings 24a1 and 24b1 are formed at the center of the support portions 24a and 24b, and the openings 25a1 and 25b1 are formed at the center of the support portions 25a and 25b, the open positions 4a and 5a and When the open / close dampers 4 and 5 are not positioned at the open positions 4a and 5a or the closed positions 4b and 5b while stably supporting the open / close dampers 4 and 5 at any of the closed positions 4b and 5b, the support portions 24a and 24b , 25a, 25b, the cooling flow path at the position can be secured by the openings 24a1, 24b1, 25a1, 25b1.

(3) Since the open / close dampers 4 and 5 have an angle of 45 degrees with respect to the opposing wall surface 23a at the open positions 4a and 5a, the flow of the cooling fluid bypassing the opposing wall surface 23a is made smoother. be able to.

(4) Since the open / close dampers 4 and 5 have an angle with respect to the opposing wall surface 23a at the closed positions 4b and 5b, the cooling fluid flowing along the open / close dampers 4 and 5 is away from the opposing wall surface 23a. A flow can be formed. In particular, since the open / close dampers 4 and 5 have an angle of 90 degrees with respect to the opposing wall surface 23a at the closed positions 4b and 5b, the cooling fluid flowing along the open / close dampers 4 and 5 flows from the opposing wall surface 23a. It is possible to make the flow flowing in the direction of leaving more smooth. As a result, the cooling fluid can be easily directed to the heat treatment chamber 2.

  In the above embodiment, the open / close damper 4 is provided so as to be orthogonal to the opposing wall surface 23a at the closed position 4b, and the open / close damper 5 is orthogonal to the opposing wall surface 23a at the closed position 5b. Is provided. However, the open / close dampers 4 and 5 may be provided at the closed positions 4b and 5b so as to have an angle rather than horizontal with respect to the opposing wall surface 23a.

  FIG. 3 is a schematic view of a heat treatment furnace 10 showing a modification of the open / close dampers 4 and 5, and FIG. 4 is a schematic view when the position of the open / close damper in FIG. 3 is changed. As shown in FIGS. 3 and 4, the angle θ5 formed between the open / close damper 4 and the opposing wall surface 23a at the closed position 4b is 45 degrees, and the angle formed between the open / close damper 5 and the opposing wall surface 23a at the closed position 5b. θ6 is 45 degrees.

  As shown in FIG. 3, when the open / close damper 4 is located at the closed position 4b and the open / close damper 5 is located at the open position 5a, the cooling fluid discharged from the cooling fan 3 causes the opening 24a1 of the support portion 24a to open. Pass through and flow into the heat treatment chamber 2 from the opening 21 a of the upper wall 21. Then, the cooling fluid that has cooled the workpiece in the heat treatment chamber 2 flows out of the heat treatment chamber 2 from the opening 22a of the lower wall 22, flows along the opening / closing damper 5 located at the closed position 5b, and is sucked into the cooling fan 3 It is.

  Then, as shown in FIG. 4, when the open / close damper 4 is positioned at the open position 4a and the open / close damper 5 is positioned at the close position 5b, the cooling fluid discharged from the cooling fan 3 flows into the opening portion of the support portion 25a. 25a1 passes through the opening 22a of the lower wall 22 and flows into the heat treatment chamber 2. And the cooling fluid which cooled the workpiece | work in the heat processing chamber 2 flows out of the heat processing chamber 2 from the opening part 21a of the upper wall 21, flows along the opening / closing damper 4 located in the closed position 4b, and is sucked into the cooling fan 3 It is.

  In this way, by alternately positioning the open / close dampers 4 and 5 at the open position and the close position, the flow of the cooling fluid in the heat treatment chamber 2 is alternately switched in the vertical direction, and the workpiece disposed in the heat treatment chamber 2 is moved. Cooling.

  Since the open / close dampers 4 and 5 have an angle of 45 degrees with respect to the opposing wall surface 23a at the closed positions 4b and 5b, the cooling fluid flowing along the open / close dampers 4 and 5 is directed to the opposing wall surface 23a, A flow flowing along the opposing wall surface 23a can be formed. As a result, the flow rate of the cooling fluid near the opposing wall surface 23a can be increased.

  In the present embodiment, the heat treatment furnace 10 is a single-chamber heat treatment furnace having one heat treatment chamber 2, but the present invention can also be applied to a multi-chamber heat treatment furnace having a plurality of heat treatment chambers.

  Various modifications and changes can be made without departing from the spirit and scope of the invention as set forth in the appended claims.

  The present invention can provide a heat treatment furnace including an open / close damper that can smooth the flow of the cooling fluid, and thus has great industrial utility value.

1 Furnace
11 Supporting part 12 Supporting part
2 Heat treatment room
21 Upper wall 22 Lower wall
23 side wall 23a
24a support part 24b support part
25a support part 25b support part
26 Stirring fan
3 Cooling fan
31 Drive motor
4 Opening and closing damper
4a Open position 4b Closed position
5 Opening and closing damper
5a Open position 5b Closed position
10 Heat treatment furnace

Claims (5)

A heat treatment furnace for heat treating a workpiece,
A heat treatment chamber in which workpieces to be heat treated are arranged;
A cooling fan for circulating a cooling fluid for cooling the workpiece in the furnace,
An open / close damper that changes the cooling flow of the cooling fluid, and
The open / close damper is a heat treatment furnace provided at an open position of the open / close damper so as to have an angle with respect to an opposing wall surface of the heat treatment chamber disposed to face the cooling fan. The inner wall of the heat treatment furnace is provided with a support portion that supports the open / close damper at each of an open position and a close position of the open / close damper,
The heat treatment furnace according to claim 1, wherein an opening is formed at a center of the support portion.   3. The heat treatment furnace according to claim 1, wherein the open / close damper is provided so as to have an angle of 45 degrees with respect to the opposing wall surface at an open position of the open / close damper.   The heat treatment furnace according to any one of claims 1 to 3, wherein the open / close damper is provided so as to have an angle with respect to the opposing wall surface at a closed position of the open / close damper.   The heat treatment furnace according to claim 4, wherein the opening / closing damper is provided so as to have an angle of 45 degrees with respect to the opposing wall surface at a closing position of the opening / closing damper.

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