JPH0534592B2 - - Google Patents

Description

Detailed Description of the Invention "Field of Industrial Application" The present invention is directed to driving a casing for heating a sample provided in a closed container in a continuous heating furnace mainly used for material experiments in a zero gravity state. It is about the mechanism.

"Prior Art" FIG. 3 shows an example of a conventional continuous heating furnace. This heating furnace is provided with a plurality of casings 32 for heat-treating experimental samples S inside a closed container 31 that is kept in a vacuum state.
These casings 32 are driven by a drive mechanism so that a plurality of samples S can be continuously subjected to treatments such as heating and cooling. The drive mechanism includes a first drive source (motor) 33 attached to the outside of the closed container 31, a shaft body (ball screw) 34 connected to the first drive source 33 inside the closed container 31, and a shaft body (ball screw) 34 connected to the first drive source 33. A ball screw nut 35 is screwed onto the body 34, and a swivel base 37 that supports the casing 32 is attached to the ball screw nut 35 via a bearing 36.
Furthermore, a second drive source (motor) 38 is fixed to the ball screw nut 35, and this second drive source 38
It has a structure in which a pinion 39 attached to the rotating base 37 meshes with a fan-shaped gear 40 attached to the rotating base 37. That is, the first drive source 33 rotates the shaft body 34 to move the casing 32 in the axial direction of the shaft body 34, and the second drive source 38 rotates the pinion 39 to rotate the casing 32 around the axis. It's becoming like that. In addition, the reference numeral 41 in the figure is a rotation stopper for the ball screw nut 35.

"Problems to be Solved by the Invention" However, in such a drive mechanism, the second drive source 38 is disposed inside the closed container 31, which increases the size of the closed container 31 and makes maintenance difficult. There is a problem that it is. Moreover, since the inside of the closed container 31 is in a vacuum, it is necessary to use a special drive source that can withstand use in a vacuum state. Therefore, it is conceivable to arrange the second drive source 38 outside the closed container 31, insert its rotating shaft into the closed container 31, and connect it to the pinion 39. Since another rotating shaft is provided at a distance from the shaft body 34, it is not possible to expect a significant reduction in the size of the closed container 31, and when the casing 32 moves in the axial direction, the pinion 39 The problem arises as to how to maintain the meshing of the fan-shaped gear 40.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a drive mechanism that allows the drive source to be disposed outside the sealed container, thereby making it possible to significantly downsize the sealed container. There is a particular thing.

"Means for Solving the Problems" The drive mechanism of the present invention has a cylindrical body rotatably provided in the container wall of a closed container, and a shaft body passing through the cylindrical body coaxially provided inside the cylindrical body. A screw is formed in a portion of the shaft located inside the closed container, and a swivel base is provided to be screwed onto the screw, and either the swivel base or the cylindrical body has a A connecting member extending in the axial direction of the shaft body is provided to be slidably connected to the other shaft body in the axial direction, and the shaft body and the cylindrical body are rotatably driven to the portions of the shaft body and the cylindrical body located outside the closed container. The first and second driving sources are connected to each other.

"Operation" In the present invention, by rotating the shaft body, the swivel base (casing) which is prevented from rotating by the connecting member moves in the axial direction, and by rotating the cylindrical body, the connecting member is attached to the cylindrical body. A swivel base connected to the cylindrical body rotates integrally with the cylindrical body.

``Example'' An example of the present invention will be described below with reference to FIGS. 1 and 2.

FIG. 1 schematically shows a continuous heating furnace for material experiments equipped with a drive mechanism according to the present invention, and reference numeral 1 in the figure indicates a closed container. This airtight container 1 is formed in the shape of a hollow cylinder, and a cylindrical body 2 penetrating the container wall is rotatably provided at the center of one end surface of the container via a bearing 3. This cylindrical body 2
has a flange portion 4 projecting outward in the radial direction at its inner end (one end located inside the closed container 1), and the central axis of the cylindrical body 2 is connected to the inside of the flange portion 4 via a bearing 5. A shaft body 6 passing through the top is provided. The portion of the shaft 6 located inside the airtight container 1 is a so-called ball screw, and a ball screw nut 7 is screwed into this portion, and a disk-shaped swivel base 8 is provided around the outer periphery of the ball screw nut 7. Fixed. This swivel base 8 is provided with a hole 9 passing through it in the axial direction of the shaft body 6. A rod-shaped connecting member 10 is slidably inserted into this hole 9, and one end thereof is attached to the flange of the cylindrical body 2. 4, and the other end is fixed to an arm 11 rotatably attached to the shaft body 6. A plurality of casings for heat-treating the sample S are placed on this rotating table 8, that is, a heating casing 12 and a cooling casing 1.
3. The sample replacement casing 14 and the like are supported. These casings 12, 13, 14 are
As shown in the figure, they are formed in a cylindrical shape, and are arranged at equal angles θ around the shaft 6 with their axial directions aligned with the axial direction of the shaft 6.

On the other hand, first and second drive sources (for example, motors) 15 and 16 are attached to the outer surface of the closed container 1,
Pulleys 17 and 18 are fixed to the rotation shafts of both drive sources 15 and 16, respectively. Further, pulleys 19 and 20 are fixed to the outer end of the cylindrical body 2 and the outer end of the shaft body 6 protruding from this outer end, respectively. Then, the pulley 17 of the first drive source 15 is connected to the pulley 2 of the shaft body 6 via the timing belt 21.
0, the pulley 18 of the second drive source 16 connects to the pulley 1 of the cylindrical body 2 via the timing belt 22.
It is connected to 9. In addition, the reference numeral 23 in the figure is an insertion port for the sample S, and it is arranged on the other end surface of the closed container 1 in correspondence with the positions of the casings 12, 13, and 14. Further, reference numeral 24 is a cooling piece that uses liquid as a coolant, and can move in the radial direction of the cooling casing 13 to come into contact with and separate from the sample S. Further, reference numeral 25 indicates each casing 12, 1
3 and 14 are shown, and are drawn out to the outside of the closed container 1 through the inside of the cylindrical body 2.

Next, a case in which an experiment is performed in which a material is heat treated using the continuous heating furnace for material experiments configured as described above will be explained in the order of steps.

*Process Samples S are set in all the insertion ports 23, and the inside of the closed container 1 is evacuated.

*Process The first drive source 15 is driven to rotate the shaft body 6 in the forward direction, and the swivel table 8, which is prevented from rotating by the connecting member 10, is moved in the axial direction of the shaft body 6. That is, the casings 12, 13, and 14 are moved forward in the axial direction from the chain line in FIG. 1 as shown by the solid line. At this time, each sample S is accommodated in each casing 12, 13, 14.

*Process The sample S housed in the heating casing 12 is heated.

*Process The shaft body 6 is reversely rotated by the first drive source 15, and the casings 12, 13, and 14 are moved backward from the solid line to a position away from the sample S as shown by the chain line.

*Process Drive the second drive source 16 to rotate the cylindrical body 2 counterclockwise in FIG. 2 by an angle θ. At this time,
A swivel base 8 connected to the cylindrical body 2 by a connecting member 10 rotates in the same direction and at the same angle as the cylindrical body 2.
That is, the cooling casing 13 rotates behind the sample S that has been heated by the heating casing 12.

*Step Repeat the above steps and steps. In other words,
At the same time that the already heated sample S is housed in the cooling casing 13 and cooled, a new sample S housed in the heating casing 12 is heated.

*Step Repeat the above steps, steps, and steps.
However, during the heating and cooling process, an inert gas (for example, helium gas) is blown into the sample replacement casing 14 at the same time, and the already cooled sample S accommodated in the sample replacement casing 14 is Collect the sample, set a new sample, and evacuate it again.

*Process After repeating the above steps, the second drive source 16
Rotate the swivel table 8 clockwise by an angle of 2θ,
Return to initial position.

Thereafter, the above steps ~ are repeated, and finally, the vacuum state of the closed container 1 is released, and all the samples S are collected from inside the closed container 1, and the experiment is completed.

In the above embodiment, the ball screw nut 7 is screwed onto the ball screw portion of the shaft body 6, but the structure is not limited to this. For example, a long ball screw nut may be fixed to the shaft body 6, and The ball screws may be screwed together and the swivel base 8 may be fixed to the ball screws. In addition, the connecting member 10
may be fixed to the swivel base 8 and slidably connected to the flange portion 4 of the cylindrical body 2.

"Effects of the Invention" As explained above, according to the present invention, a cylindrical body is rotatably provided in the container wall of a closed container and passes through the wall, and a shaft body that is rotatable with respect to the cylindrical body is placed at the center of the cylindrical body. Since the swivel table, which is provided so as to pass through the shaft and is screwed onto the shaft, is connected to the cylindrical body via the connecting member, the following excellent effects can be obtained.

By connecting a drive source to a portion of the cylindrical body located outside the closed container, the swivel table can be rotated to rotate the casing around the axis.
That is, by arranging the drive source outside the closed container, the closed container can be significantly downsized and maintenance can be easily performed.

Since the cylindrical body and the swivel base are rotated together by the connecting member, if the wiring or piping to the casing is passed through the inside of the cylindrical body, the piping, wiring, etc. will not be twisted when the swivel base is rotated. In other words,
The durability of the heating furnace can be improved.

Since the drive source or power transmission means such as belts and gears can be placed outside the closed container, these parts are less susceptible to the effects of heat inside the closed container, such as thermal deformation, and the vibrations of the drive source are removed from the closed container. Difficult to transfer to internal samples. In other words, the accuracy of the heating furnace as an experimental device can be improved.

[Brief explanation of the drawing]

1 and 2 show one embodiment of the present invention, FIG. 1 is a schematic sectional view, and FIG. 2 is a -
3 is a schematic sectional view showing an example of a conventional continuous heating furnace. 1... Airtight container, 2... Cylindrical body, 6... Shaft body,
8... Swivel base, 10... Connecting member, 12, 13,
14...Casing, 15...First drive source, 1
6... Second drive source, 21, 22... Timing belt, 25... Piping, S... Sample.

Claims (1)

[Claims] 1. In a continuous heating furnace for materials experiments, in which a casing for heating experimental samples is provided inside a closed container kept in a vacuum state, a cylinder penetrating the wall of the closed container is provided. A body is rotatably provided, a shaft penetrating the cylindrical body is coaxially and rotatably provided inside the cylindrical body, a screw is formed in the portion of the shaft located inside the closed container, and A swivel base that is screwed onto the screw to support the casing is provided, and either the swivel base or the cylindrical body is provided with a connecting member extending in the axial direction of the shaft body so as to be slidable in the axial direction relative to the other. for materials experiments, characterized in that first and second drive sources for rotationally driving the shaft and the cylinder are connected to the parts of the shaft and the cylinder located outside the closed container, respectively. Drive mechanism of continuous heating furnace.