JPH0121511Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to an improvement of a graphite heater.

Graphite heaters are unique as a heat source that can heat up to several thousand degrees in a non-oxidizing atmosphere, but at the same time, they are a heat source that does not pollute the atmosphere.
For example, it has been conventionally used for melting and pulling up semiconductors.

This type of heater has a cylindrical body with axial slits alternately provided at both ends, and resistive heating is achieved by supplying electricity to the slits. The terminal is fixed by attaching it to a voltage reduction fixing clamp.

However, there are two connection terminals in the case of single phase,
In the case of a three-phase type, there are only three, and together with the fact that there are many slits in the cylindrical body,
If the graphite heater is not fixed properly, slight vibrations may occur in the entire unit depending on the magnitude of the current, etc., and if used for a long time, shorts may occur between the slits at the top end, or the connection terminals may not be used for fixing the power supply. There is a problem in that the entire heater becomes unusable due to damage caused by sparks between the heater and the clamp.

The present invention relates to a structure of a graphite heater that does not have such inconvenience, in which a flange portion protruding inward is provided at one end of the cylindrical body, and axial slits are formed alternately from both ends of the cylindrical body. A multiple of the number of slits 2 or 3 are provided on the flange portion, and connecting terminals are provided in multiples of slits 2 or 3, and two or three connecting terminals and a power supply fixing clamp are fixed with carbon bolts, while the remaining two or three A spare connection terminal and a fixing clamp are fixed.

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

FIGS. 1 and 2 are a schematic longitudinal sectional front view and a schematic plan view showing a graphite heater used in a single-phase power source.

The lower end of the cylindrical body is provided with a flange that protrudes inward, and the cylindrical body has a
A large number of axial slits are cut alternately from both ends. Four connection terminals 3, 4, 3', and 4', which are multiples of 2, are provided on the flange portion separated by the slits in a nearly point symmetrical manner. The connection terminals 3 and 4 are fixed with a power supply fixing clamp 5 and a carbon bolt 6, while the remaining two spare connection terminals 3' and 4' are fixed with a fixation clamp and a carbon bolt 6.
is fixed. Single-phase power supplies 1 and 2 are connected to the clamp 5 for fixing both power supplies.

In addition, in FIG. 1, 8 is a heat insulation cylinder.

In addition, the fixing clamp is the power supply fixing clamp 5.
electrically insulated.

In the graphite heater with the above configuration, all of the connection terminals 3 and 4 connected to the single-phase power supplies 1 and 2 and the spare connection terminals 3' and 4' are connected to the power supply fixing clamp 5.
In addition to being fixed with the fixing clamp, the connection terminals 3, 4, 3', and 4' are provided on the flange part that is perpendicular to the cylindrical body, increasing the number of fixing locations and increasing the number of connection terminals in the direction perpendicular to the axis. Since the strength against heat is increased, micro vibrations can be reduced, and shots caused by contact between the slits at the upper end and the heater and the heat insulating cylinder 8 can be reduced.

Furthermore, since the contact area between the connection terminals 3 and 4 and the power supply fixing clamp 5 is large, and both are fixed with the carbon bolts 6, the contact resistance between the two is reduced, and the carbon bolts 6 are conductive. Therefore, the current flow between the connection terminals 3, 4 and the power supply fixing clamp 5 is stabilized, reducing damage caused by sparks, etc., and even if the connection terminals 3, 4 are damaged, spare connection terminals 3', 4' can be used. By using this, the heater can be used continuously, and the life of the heater can be extended.

3 and 4 are a schematic longitudinal sectional front view and a schematic plan view showing a graphite heater used in a three-phase power source.

Similar to graphite heaters used in single-phase power supplies, this graphite heater also has a flange portion that protrudes inward at the lower end of the cylindrical body, and a large number of axial Slits are cut alternately from both ends. The flange portion separated by the slit has six connecting terminals 3, 4, which are multiples of 3.
4' are provided almost point-symmetrically, and three of them, 3, 4, 4', are fixed with a power supply fixing clamp 5 and a carbon bolt 6, while the remaining three spare connection terminals are is fixed with a carbon bolt 6 with an insulator 7 and a fixing clamp interposed therebetween. Three-phase power supplies 1, 2, and 2' are connected to the three power supply fixing clamps 5.

In addition, in FIG. 3, 8 is a heat insulation cylinder.

The graphite heater configured as described above has the same effects as the graphite heater used in a single-phase power source.

As described above, according to the present invention, compared to the conventional technology, the number of fixing points is increased, and the strength in the direction perpendicular to the axis is increased. It is possible to reduce shoots caused by contact between the heater and the heat insulating cylinder.

In addition, the contact resistance between the connection terminal and the power supply fixing clamp is reduced, and the carbon bolt is conductive, so the current flow between the connection terminal and the power supply fixation clamp is stable, reducing damage caused by sparks, etc. In addition, even if the connecting terminal is damaged, by using a spare connecting terminal, the heater can be connected and used, and the life of the heater itself can be extended.

[Brief explanation of the drawing]

1 and 2 show a schematic longitudinal sectional front view and a schematic plan view showing an embodiment of the graphite heater of the present invention, FIGS. 3 and 4 show other embodiments, and FIG. FIG. 4 is a schematic plan view of FIG. 3. 1, 2, 2'... Power supply, 3, 3', 4, 4'...
Connection terminal, 5... Clamp, 6... Bolt, 7...
...Insulator, 8...Heat insulation tube.

Claims (1)

[Scope of utility model registration request] A flange portion protruding inward is provided at one end of the cylindrical body, axial slits are provided alternately from both ends of the cylindrical body, and connection terminals in multiples of 2 or 3 are provided on the flange portion approximately point symmetrically. provided, and 2
Alternatively, a graphite heater characterized in that three connection terminals and a power supply fixing clamp are fixed with carbon bolts, while the remaining two or three spare connection terminals and a fixation clamp are fixed.