JPS60195813A - Method of producing insulating seat - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [From:! [1] Technical field] This relates to an insulating seat used in a semi-premature body stack.

[Prior art]

Conventionally, there have been semi-dedicated stacks in the devices used by loquats and samurai, such as the half/1 stack shown in Kotobuki Publication No. 57-3'i'258 and Utility Model Publication No. 57-2QlliL). The heck the stack knows.・J41 diagram is Tomokai Sho 5
7-2oxC.

It is a half-double body stack that does not accept υ public @#IC, and as shown in the figure, there are insulators + 31 all interposed between the half-one body element (11 and the water cooling block (2)), and the spines. F and D) are brought into pressure contact using a strong pressure contact force.

However, in this stack of 47 half bodies of
) is conducted to the water cooling block (2) and absorbed by the water flowing inside the pipe, so the insulation seat must have good thermal conductivity and must be able to withstand strong pressure. It's something you don't need.

As shown in Figures 2 and 3, the conventional insulator +31 has a diameter of 20~1 mm as shown in Figures 2 and 3.
00mm, thickness 0.1~Q, approximately 5mm round insulating plate (with a contact agent (5a) on the image side of 41) (5
1)) w Therefore, the remaining end disk (6a) (61:+) with a slightly smaller diameter than the insulating plate 41 is fixed, and its peripheral part is covered with an inexpensive and easily processed insulating material (7) such as a comb. It is the one that surrounded the area and exceeded the creepage distance.This constellation +3J Vc
11 with inferior crystal price and ffN performance! ! , Edge plate ゛4) Gold II? , < Because of this, it is possible to obtain a low-cost heat-transmitting rod with good appearance, and it is reinforced with a metal disk (hammer) (6-piece) that has 4-metal heat conduction characteristics. Because of this, it has the advantage of being strong against pressure limits, swamps, and other external impacts.

As another example of this loquat tψ seat t3+, as shown in Figure iJ4, there is a circumference in which the circumferential edge of one gold bq plate (+>b) protrudes from the circumferential edge of the insulating plate □4).・iA! +'dS
(6c) Form 2, hire in the 11th section (6C);
17 There are some that prevent the peripheral edge of the loquat root 14) from being exposed.

In this way, a metal disk (hammer) (6b
) 1 hair 41 agent (5a) (5b) Vc and fixed 1ψ seat +: t+ K Atteke loquat/spout plate '4) Thickness Due to problems with the overall processing technology, it is not possible to make it that thin. There was a limit due to the nature of heat. Cut, metal 4Fi (θ)
(6b) and the fixation rlIi of the insulating plate (4) are processed frt
There are many cases where unevenness or curvature occurs due to the degree of bending. Enki 141 and Kin 1 Kawaita (tradition) (6
b) There will be a part where the parts are not in close contact with each other, and that part will be very weak against pressure contact force, so there is a risk that the insulation 141, which has good mechanical strength, will be destroyed. )
Also, there is a risk that the strength of the tube will be reduced in areas where the J agent (qi) (+ on 5) and the parts that are not in close contact will be lowered.

This statement 11 was made in view of the point VC mentioned in 1. , coating, 1 liter of mamomo steaming I, etc.
An insulating film is formed by the lJ adhesion method,
How to make a C-necked rim with an insulating seat that has a non-optical VC shield against the B tangent and also has a thermal plate property? Proposal-C.

[Example of origin] Figure 45 d The first example of this invention is completely illustrated,
In the figure, (8) is a solid flat plate made of metal such as aluminum or steel, and has good heat resistance, and (9) is the entire main surface of this solid flat plate (8), which has good thermal printing uniformity. Ceramic, boron blide, formed by thermal spraying, coating, vacuum heat 44, UK bonding 47,
The insulating film of the resin car, (7) Kehi,
Surround the periphery of the flat plate (81) and the insulating film (9) with gold, and quickly increase the creepage distance by 1 inch.
It is a loquat and child material of J Koya Easy Com etc.

L, 11 members C Lowamata (9) or 11 note hard attachment <"formed by the 4 force method"! En 1 condolence Vζ・(ritte iJ
, water j1n-11su (≦)) is solid I fortune 1 and heat 1 yen 1. (
8) νL i'ri lJ' L
/ Because it is formed, the ultimate layer 11Qt9! There is no need to worry about bending the curve, just the conventional ノ + n ir snout, F) 6 ho; edge plate 141? Compared to this, there are fewer irregularities in Table 1111, so it is strong against pressure from humans.
1! J19! There is almost no danger of it breaking down. 4) j/J: Compared to VC, it is easier to adjust the film thickness to the minimum necessary thickness for the insulation layer, and it is also possible to make the total film thickness very thin, resulting in an extra layer x
By reducing the film thickness, it can be expected that costs will be lowered and thermal efficiency will be improved.

In addition, in the loquat 1-yaza which has a structure similar to that of a nun, there are two layers of Mt: membranous membrane (9) and a flat plate (8) with a heat insulting appearance in the mon-Vc hard cap. , there is little risk that the insulating film (9) will be destroyed by external impact.

And, such a loquat, Rie Shio is -Az1 Ward 1
Nizugusu half... (1 to the body stack insulator □, 31 parts Vc pieces 411 shi group 3 go, transfer 1 + i, ', lrl"
And loquat? The thickness of the ψ membrane (9) is stronger than that of the Yi-sei-mai (3), and it is half as strong against the contact force of the historical VC human force). Medium body, Hoko (11 gara)
Q Suru Netsuke 111-Rice mouth? 1 za (more efficient than 31,
Shiku Mizurei)■"Tsuku (2) - F r:)c, etc., and by extension, the performance of this half/double stack of 11 F.
It is something that contributes to the

``A'C6 diagram shows the origin of r: 1's ・4'S 2's -M
This is the case of the first embodiment of L, and on the 11sl side of the first embodiment of L, there is a tremendous effect (through 51, nIJ is solid and hot 111. Appearance is good. -II- Same material as plate 'llll, diameter -f: Smaller than Nei-11
, (anti-thermal plate% %) 4 Good protection plate (1o, gold fixed t
There is a thing that supports the absolute material (71?) with the protrusion created by this difference in diameter.

In the case of insulators such as El￥, etc., there is a 1.1 search board,
This protective plate is designed to avoid damaging the blood on the surface of the membrane.
1” Ino 1 responds to external shocks with “Ill!” VC can be used as a strong insulator.

Figure 7 shows 43 examples of this development 'JJ, in which the circumference ν1llll of one side of the VC is protruded, and the circumference ν1llll of one side of the VC is protruded.
8b) is formed, and after forming an insulating film 191 (i-) on this surface by an immediate adhesion method, the entire retaining dφ plate (10) is fixed via an adhesive (61τ), and the insulating material (7 ) was destroyed and surrounded.

In the VC of this 'xts example, the insulating film (13) is formed by the contact bonding method as in the first and second embodiments, so the pressure contact force VC from the This has the advantage of being strong and allowing the insulating film (13) to be made thinner.

In addition, in the implementation of section h + evening U, an absolutely 1φ film (relatively hot plate as 9゜) was used (a highly sensitive ceramic, boron nitride).

Resin 4! Although all of the above have been listed, the thinner the insulating film (31) is, the more the heat buildup of the insulating seat (9) will cause it to deteriorate, and the insulation will eventually deteriorate. If there is, and the direct attachment is J)j 7 is reduced by JOIII, then (
IJl is also fine.

In addition, in the implementation described in ν, a flat plate j that is solid and has good thermal properties is used.
81, (8a) I mentioned the Kinho plate, but it is not limited to this. 11 [The shape is also not limited to the embodiment described in E.

tl3 [,E-μ thin material, heat plate with 1 information 11 as material for retaining plate (lO;) +, It'l: i3!Same as good flat &18+7m or other material But as long as it doesn't spoil the quality of the video, it's okay (ha).

At around 7, an insulating washer like the one described in J. When the body power is 111, that is, the conventional example shown in FIG. .

[Effect of utterance 1)] As I saw on the first evening of this utterance,
The insulating film is formed on a solid, thermally conductive plate by direct adhesion methods such as thermal spraying, coating, and vacuum steaming, making it easy to adjust the film thickness, and with very low γσ 111)
It is a material that contributes to heat conduction from the enemy (the direction of heat transfer) or to cost reduction, and it is possible to use a flat plate with an insulating film, which has excellent heat resistance, as an insulating film regardless of its unevenness. Flat plate and place 4'=
This has the effect of being extremely strong against the pressure contact force formed by the process.

[Brief explanation of the drawing]

Figure 1 shows the groove diagram of a conventional half-rod stack, fJ2 diagram (a
t (bl is so tl) Conventional insulation combination that is used universally in half 2111 stacks 1
f + i + Δ, Fig. 3 (a) fb) Ketsu E) >N The conventional loquat-like structure used for the platform; Stack [4] Conventional extension M, I, ψ seats 7 still 'side view, Fig. 5 (al (1
) 1-plane view and (E t4k Q 111 + figure, 6th
Figure (al (bl 11Jzo) 1zo it kotl)'
to dtj's sentry 2 b1mu+/J :;・r+rit
Jl +f+i 14 and vertical 1Ni uni diagram, 7th
The figure is the 3rd σ) μb of November's Moe 10 who rejects μb meat rape.
It is 11-1. Figure K'-ζ, 171115 is 9 goods, ts+ (8
a) trl hard + p4, heat 18 town (sexist flat 1N,
19' rL u + bonding method ζ In each figure, the same - or tf 4 (1 per jl)
We accept l≦min. Agent Oiwa 1vI Male Figure 1 Figure 2 bb Jb Figure 3 Figure 414 Figure 5 61'4 Figure 7

Claims (1)

[Claims] This insulating film is formed by forming a loquat pattern on at least one main surface of a flat plate having good heat conductivity and solidity by a direct attachment method such as thermal spraying, coating, or vacuum deposition. Circumference P of the flat plate? A method for producing an insulating seat, characterized in that a portion of the insulating seat is covered and surrounded by a material that is insulated. (2) The method for manufacturing a trestle seat according to claim 41m, wherein the flat plate is a duck flat plate.