JPS6352785A - Power dumper - Google Patents

Abstract

PURPOSE:To improve the cooling efficiency of a cone by providing a cooling fin on the cone outer peripheral face in the power dumper equipped with the cone to absorb a laser light and the housing to store it and to cool the cone with the cooling water communicating the inner part. CONSTITUTION:Plural cooling fins 6 whose outer peripheral edges are closely fitting to the inner peripheral face of a housing 3 at the prescribed intervals in the axial direction are provided on the outer peripheral face of the cone 1 in a funnel shape of the lower end closed. An opening 7 is alternately provided at the peripheral edge part opposing to the diameter direction on each cooling fin 6. The bending path of the cooling water is then formed inside the housing 3 by these each cooling fin 6. In this power dumper, a laser light 5 is led by the cone 1, absorbed as a heat energy and this heat energy is disposed by being transmitted to the cooling water communicating inside the housing 3. Since the contact area of the cone 1 and cooling water is increased by the cooling fin 6 in this case the cooling efficiency of the cone 1 by the cooling water is made better and can be used as for high output.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a power damper that absorbs laser light and discards it as thermal energy, particularly a power damper that can be used for high output.

[Conventional technology]

Figure 2 shows a conventional power damper.
) is a funnel-shaped cone whose lower end is closed, (2) is an O-ring for waterproofing, (3) is a housing that accommodates the cone (1), and (3a) is provided at the lower end of this housing (3). (3b) is an outlet provided at the upper end of the housing (3); (4) is an outlet provided after cooling the cone (1) which is supplied from the inlet (3a) into the housing (3);
3b) is the cooling water discharged, and (5) is a laser beam such as a Co2 laser guided to the cone (1).

A conventional power damper is configured as described above, with a cone (
1), the laser beam (5) is absorbed as thermal energy, and this thermal energy is transferred to the cooling water flowing in the housing (3) and discarded.

[Problem that the invention seeks to solve]

In a conventional power damper like the one shown in 2, the cone (1)
Since only the outer surface of the cone (1) comes into contact with the cooling water (4), the contact area is small, and the cone (1) is in contact with the cooling water (4).
) could not be cooled sufficiently and could not be used for high output applications.

The present invention was made to solve these problems, and its object is to provide a power damper that can be sufficiently cooled with cone cooling water and used for high output applications.

[Means for solving problems]

The power damper according to the present invention is provided with cooling fins that come into contact with cooling water on the outer peripheral surface of the cone.

[Effect]

In this invention, since the cooling fins that come into contact with the cooling water are provided on the outer peripheral surface of the cone, the contact area of the cone with the cooling water increases, and the efficiency with which the cone is cooled by the cooling water increases accordingly. Therefore, it can be used for high output.

〔Example〕

FIG. 1 shows one embodiment of the present invention.
The same reference numerals as in the figures indicate the same or corresponding parts. (6) is a plurality of cooling fins provided on the outer circumferential surface of the cone (1) at required intervals in the axial direction, and the outer circumferential edge is in close contact with the inner circumferential surface of the housing (3). Openings (7) are provided alternately on the peripheral edges opposite in direction. Each of these cooling fins (6) forms a curved path in which the cooling water (4) flows in a curved manner within the housing (3).

In the power damper configured as described in -1-, the laser beam (5) is guided to the cone (1) and absorbed as thermal energy, and this thermal energy is absorbed by the cooling water flowing inside the housing (3). and discarded.

By the way, a plurality of cooling fins (6) are provided on the outer circumferential surface of the cone (1), and the cooling water (4) is heated by cooling fins (6).
6) and flows through the housing (3). Therefore, the contact area of the cone (1) with the cooling water (4) increases, and the cooling efficiency of the cone (1) by the percussion water (4) improves. Moreover, the cooling water (4) sequentially passes through the opening r1 (7) of each cooling fin (6) to the housing (3).
) can be bent to absorb the cooling water (4) and the cone (1).
) and the cooling fins (8), which improves the cooling efficiency of the cone (1) by the cooling water (4).
can be done. Therefore, the temperature ``-H'' of the cone (1) becomes small, and the larger output l/-the light (5) can be discarded.

In addition, in the embodiment described above, the cooling fins (6) are replaced with cones (
Although a plurality of cooling fins (1) are shown provided at required intervals in the axial direction on the outer circumferential surface of the cone (1), spiral blades may be provided on the outer circumferential surface of the cone (1) to form the cooling fins (6). In addition, in the second embodiment, cooling water (4
) is shown in which a bending path is formed, but it is simply a cone (
Just by providing the cooling fins (B) on the outer circumferential surface of 1), sufficient effects can be expected compared to conventional ones.

〔Effect of the invention〕

As explained below, in this invention, cooling fins that come into contact with the cooling water are provided on the outer peripheral surface of the cone, so that the contact area of the cone with the cooling water is substantially increased. It is possible to improve the cone cooling efficiency by the moving water.Therefore, there are effects such as suppressing the cone temperature "-H" and discarding higher output laser light.

[Brief explanation of drawings]

FIG. 1 is a sectional view of a power damper showing an embodiment of the present invention, and FIG. 2 is a view corresponding to FIG. 1 showing a conventional power damper. (1)...Cone, (3)...Housing, (4
)...Cooling water, (5)...Laser light, (8)...
Cooling fin, (7)...opening. In each figure, the same reference numerals indicate the same or corresponding parts.

Claims (2)

[Claims] (1) In a power damper equipped with a funnel-shaped cone with a closed bottom end that absorbs laser light, and a housing that houses the cone and cools the cone with cooling water flowing inside, the outer peripheral surface of the cone is , a power damper characterized by being provided with cooling fins that come into contact with cooling water. (2) The power damper according to claim 1, wherein a winding path for cooling water is formed in the housing by cooling fins.