JPS5926213A - Clamping method for synthetic hose and metal joint - Google Patents

Abstract

PURPOSE:To increase resisting strength of the clamping part against the external power, by a method wherein a metal joint is inserted into the end part of a synthetic hose under pressure to integrate them and after the same is arranged in the vicinity of a heating coil, it is welded together by passing a high-frequency current. CONSTITUTION:After a pressure insertion outer diameter portion 13 of a nipple 10 is inserted into a resin hose 20, the integrated nipple 10 and resin hose 20 are set in the axis center direction of the center part of a heated coil 30. A high- frequency current of 3-30MHz is passed to said heated coil 30 by a high frequency oscillator (for example 5kW vacuum type). By this current, a high frequency magnetic field is created in the heated coil 30 and the nipple 10 is heated to heat the resin hose 20 up to approximately a melting point. As a result, only the contact surface of the resin hose 20 contacted to the nipple 10 is melted to adhere to the surface of the nipple 10.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a fastening method for melting a DJ oil-water hose and fastening the hose to a metal joint (+5).

Conventionally, when connecting a metal phase f to a synthetic resin hose, the outer diameter of the phase arm was set larger than the inner diameter of the hose, and the two were connected by press-fitting a joint into the hose. Because of this, the fastening force is not very large, and because of the relatively small amount of effort required to connect the synthetic resin hose to the metal, it is difficult to connect the synthetic resin hose to the metal. The 11 inch part that connects the
The disadvantage of this is that the pressure of the liquid passing through the inside of the lit part 2 and the inside of the hose is relatively high (when the pressure of the gas is relatively high, the press-fitted part will be forced to the outside). child.

This light is -11″lL! Conventional drawbacks h: s++:i
, θ, make the outer IY of the metal joint larger than the inner iY of the synthetic resin hose.
1() minutes to 110 heat 41,)
For the human valve part force - (Let the human monkey's 1 resistance force be b'])
How to fasten 4T hose and 1lJi hand.
υdo is covered.

Hereinafter, the embodiments of the present invention are attached. Side view (1 end (1 + 12) A screw 1 for cutting is formed,
A head 12 (N1 head 12) is formed in the approximately medium heat part (, 1, take (=J t, j), and from the other end to the center part (
Goka (J is the synthetic '1M4 flu hose 20 shown in Figure 2)
Inner diameter part 21 +jT II: Outer IY part 1 for catching people
3 is formed, and the tip of the outer diameter portion 13 is provided with a recessed portion 13a to facilitate press-fitting.

31.1. : Center part of the nipple 10 km GJ l'
lvi-plane circular path 1 /lI passing through lll force direction v4
J<C is perforated. The outer diameter 1J method of the press-fit outer diameter portion 13 is (l = 4, /1 mm, 1111 force direction length l-,
= 15.5m++rr. , (this '147) Number 1ffitJ, i15 bear C example (・and other
On the other hand, the synthetic resin hose 20 shown in FIG. There is a passageway for passing through.

Inner diameter = 1 method D + = 4 mm Outer diameter N1 method t; 1.
1. ) 2-61nm'? :be. (This value is determined by the nipple λJ method as d==/1.4"m, I-=15
, When E5 nv, there is a hose 20 with one core attached to the nipple, and the previous i + 4 +, this + X + tl shown = C3, 6 mn +,
1---14, 0nun (Aradoki (YoI) +
= (3 mm, 1 t=F3 mm is J) The press-fit outer diameter portion 13 of the nipple 10 is press-fitted into the resin hose 20 formed by the J:ul,'gil method.

The state after press-fitting is as shown in Fig. 33.
l mm throat l;1. d-'l, /I mm
IJ child straw Ili rice (inner diameter (' 0, /m
91,1, A: IJ I-(5mm
Throat r: kl tl (i, Omm snawa 4) tighten 1 noro LL i'i child C' 0, Ci m
Therefore, there is a small power consumption (1) compared to the conventional case.

Next, the nipple 10 and the resin hose 20, which have been press-fitted into the sea urchin in Figure 33, are heated in the direction of the center of the sea urchin C30.
-shi, high frequency oscillation IA (e.g. 5 K W g, +,
Use the ηl-type 1] lIj, J, before [) heating 1 il,) 30 to 330 M1l lF'f1 frequency 'flow through the commercial current J0 Heated by this current - + , r le :s Os= High frequency (Iik 'J? is rt U,
=tsu'j) Lt 10 is heated c 4irl fat jl・
-S20 is calling! +: + is recorded before C heating 1'
1. The resin hose 20 that is in contact with the above-mentioned resin hose 10
+7) Only the contact side surface of 11 is molten +:tll b-(- is densely layered on the surface of Tsol 10.

Cool the fasteners to harden the resin! in.

In this invention, since the resin hose is fastened to a total of 1/1,000 by a method of melting the resin hose and avoiding solidification, the contact area between the metal partner and the resin hose increases. This has the effect of dramatically increasing the resistance of the fastening portion against external forces. Incidentally, the test results are shown in Tables 1 and 2. In these tables, for J3, 1゛Heated'' means that the nipple and resin hose are cooled and solidified by heating the resin hose. 1 without heating is a conventional one in which the outer diameter of the nipple is press-fitted into the resin 11 (-).Also, the measurement of rotation 1-lux is the conventional one. Then, turn the nipple and measure the torque when it starts to slip (1., :1.).For the tensile test, the resin hose and nipple are pulled in the Qql+ /J direction (and pulled in opposite directions). , the load was measured when pulling out [-J]. Tables 1 and 2 also show J3 specifications (1) for the previously mentioned river width d- = 6, 6 mm.

1 + = 6 mn1.1 = 8 mm, specification (2) and sJ, d = A, 4 + n + n
, D + =/N11m, D 2 □=6mm
This refers to the case of

Table 1 (Rotation 1 - Luk measurement, 1 chapter Song) Table 2 (Tension test also 11 results) In addition, in the airtightness test when a hot spring was added to the fastening part and 1J was applied, (1
(Cozz (2> and 1J) The resin hose of the present invention is I11! The water leakage from the fastening part is 4Y and l this.

Incidentally, the hose rupture 11. Specification of Y (1)<2)
The pressure value of the C ring is 1'I Ok (17' cm
' and 1 /l Ol(su, /'Cm2 i=, ta
〕 Ta .

, 1. Mitsumei Taki J, Rubetsu Nori J, bridge, melted the resin hose 811 and made contact between the hose and the metal fitting 1611^
Increase the number of people'c5I! There is no need to worry about the tightness between the small base and the metal phase. Therefore, when press-fitting the metal phase into the resin 11Q-base, it is possible to press-fit it with a small force compared to the conventional method.Furthermore,
Due to high frequency heating, only the metal joints are heated, resulting in heat C'
The contact surface of the resin hose is melted! It is possible to partially prevent deformation of the fixed resin hose.

[Brief explanation of drawings]

! is 1 a'+ is a side view of a part 4 of the metal joint (part 4 of the metal fitting 9 Ruthenol 1Ω), FIG. 2 is a side view of a part of the synthetic resin hose 20 facing 1θi, and FIG. Figure 4 is a side view of the integrated product in which the nipple 10 is press-fitted into the rt water hose 0. 133...11-Human outer diameter part 20...Synthetic resin hose 21...Inner diameter part 3
0...+111 heat 21 ile Figure 3 Figure 4

Claims (1)

[Claims] Metal fitting at the end of the synthetic resin hose 1: Press your hand] During the process of installing the culm, the press-fitted hose, and the joint in the vicinity of the heating coil, high-frequency current is applied to the heating coil. A process of melting the integrated hose part in a sink, cooling the real thing, and solidifying the synthetic resin hose characterized by being made of a culm, etc., and a metal hose. Fastening method.