1 |
熱硬化性接着剤を使用する管の連結方法 |
JP2011508890 |
2009-05-12 |
JP5784488B2 |
2015-09-24 |
アンドレア・フェラーリ; オイゲン・ビルカイ |
|
2 |
VERBINDEN VON ROHREN MIT THERMISCH HÄRTBAREN KLEBSTOFFEN |
EP09745722.0 |
2009-05-12 |
EP2274549B1 |
2012-07-04 |
FERRARI, Andrea; BILCAI, Eugen |
The invention relates to a method for connecting a first tube to a second tube, the tubes being interconnected in an overlapping region by means of an adhesive that fills a gap in the overlapping region between the tubes. Said method is characterised in that: a) adhesive is applied to the overlapping region of at least one of the tubes and the adhesive is selected in such a way that it is solid at temperatures of below 30 °C after application to the overlapping region and prior to the connection of the tubes, and cannot be cured without thermal activation; b) the tube having the adhesive in the overlapping region is pushed onto or inside the other tube; c) the tubes are fixed in relation to one another in the overlapping region by a heatable clamp, said clamp being designed in such a way that it can heat the tubes in said region; c) the adhesive is thermally activated by heating the overlapping region with the aid of the heatable clamp, whereby the adhesive cures and connects the two tubes in the overlapping region; and d) the heatable clamp is removed once the adhesive has cured. The invention also relates to a method for producing a refrigerator and to a refrigerator comprising correspondingly joined tube sections. |
3 |
VERBINDEN VON ROHREN MIT THERMISCH HÄRTBAREN KLEBSTOFFEN |
EP09745722.0 |
2009-05-12 |
EP2274549A2 |
2011-01-19 |
FERRARI, Andrea; BILCAI, Eugen |
The invention relates to a method for connecting a first tube to a second tube, the tubes being interconnected in an overlapping region by means of an adhesive that fills a gap in the overlapping region between the tubes. Said method is characterised in that: a) adhesive is applied to the overlapping region of at least one of the tubes and the adhesive is selected in such a way that it is solid at temperatures of below 30 °C after application to the overlapping region and prior to the connection of the tubes, and cannot be cured without thermal activation; b) the tube having the adhesive in the overlapping region is pushed onto or inside the other tube; c) the tubes are fixed in relation to one another in the overlapping region by a heatable clamp, said clamp being designed in such a way that it can heat the tubes in said region; c) the adhesive is thermally activated by heating the overlapping region with the aid of the heatable clamp, whereby the adhesive cures and connects the two tubes in the overlapping region; and d) the heatable clamp is removed once the adhesive has cured. The invention also relates to a method for producing a refrigerator and to a refrigerator comprising correspondingly joined tube sections. |
4 |
Compound injector |
US43572654 |
1954-06-10 |
US2822959A |
1958-02-11 |
SOEHNLEN ROBERT M; EUGENE ALTERS |
|
5 |
Pipe joint forming device |
US31760040 |
1940-02-06 |
US2268069A |
1941-12-30 |
EVANS JAMES L |
|
6 |
Mortar-applying device |
US9063026 |
1926-02-25 |
US1626972A |
1927-05-03 |
SANDERS ALBERT H |
|
7 |
Device for inserting cement into pipe joints |
US65199423 |
1923-07-16 |
US1505613A |
1924-08-19 |
WESTON LEROY A |
|
8 |
Pipe joint |
US53905322 |
1922-02-24 |
US1494523A |
1924-05-20 |
ZWICKER JULIUS G |
|
9 |
Connection of tubes using thermally curable adhesives |
US12945362 |
2010-11-12 |
US09039854B2 |
2015-05-26 |
Andrea Ferrari; Eugen Bilcai |
The invention relates to a method for connecting a first tube to a second tube, the tubes being interconnected in an overlapping region by means of an adhesive that fills a gap in the overlapping region between the tubes. Said method is characterized in that: a) adhesive is applied to the overlapping region of at least one of the tubes and the adhesive is selected in such a way that it is solid at temperatures of below 30° C. after application to the overlapping region and prior to the connection of the tubes, and cannot be cured without thermal activation; b) the tube having the adhesive in the overlapping region is pushed onto or inside the other tube; c) the tubes are fixed in relation to one another in the overlapping region by a heatable clamp, said clamp being designed in such a way that it can heat the tubes in said region; d) the adhesive is thermally activated by heating the overlapping region with the aid of the heatable clamp, whereby the adhesive cures and connects the two tubes in the overlapping region; and e) the heatable clamp is removed once the adhesive has cured. The invention also relates to a method for producing a refrigerator and to a refrigerator comprising correspondingly joined tube sections. |
10 |
CONNECTION OF TUBES USING THERMALLY CURABLE ADHESIVES |
US12945362 |
2010-11-12 |
US20110094656A1 |
2011-04-28 |
Andrea Ferrari; Eugen Bilcai |
The invention relates to a method for connecting a first tube to a second tube, the tubes being interconnected in an overlapping region by means of an adhesive that fills a gap in the overlapping region between the tubes. Said method is characterized in that: a) adhesive is applied to the overlapping region of at least one of the tubes and the adhesive is selected in such a way that it is solid at temperatures of below 30° C. after application to the overlapping region and prior to the connection of the tubes, and cannot be cured without thermal activation; b) the tube having the adhesive in the overlapping region is pushed onto or inside the other tube; c) the tubes are fixed in relation to one another in the overlapping region by a heatable clamp, said clamp being designed in such a way that it can heat the tubes in said region; d) the adhesive is thermally activated by heating the overlapping region with the aid of the heatable clamp, whereby the adhesive cures and connects the two tubes in the overlapping region; and e) the heatable clamp is removed once the adhesive has cured. The invention also relates to a method for producing a refrigerator and to a refrigerator comprising correspondingly joined tube sections. |
11 |
Packer for grouting conduits |
US34401864 |
1964-02-11 |
US3269421A |
1966-08-30 |
TELFORD E B; VILLALON JR SEVERO L |
|
12 |
Pipe joint sealer |
US39972553 |
1953-12-22 |
US2763910A |
1956-09-25 |
BRAATELIEN EDWIN H |
|
13 |
Pipe joint runner |
US29621852 |
1952-06-28 |
US2706321A |
1955-04-19 |
HERR HAROLD W |
|
14 |
Means of sealing pipe joints |
US5926548 |
1948-11-10 |
US2573366A |
1951-10-30 |
SCHOLL WALTER H |
|
15 |
Device for use in making pipe joints |
US27113239 |
1939-05-01 |
US2182671A |
1939-12-05 |
HENRY LOWE JOSEPH; WAVENEY GIRVAN IAN |
|
16 |
Method of forming pipe joints |
US273735 |
1935-01-21 |
US2055885A |
1936-09-29 |
WESTON LEROY A |
|
17 |
Coupling guard |
US57875622 |
1922-07-31 |
US1477607A |
1923-12-18 |
CASSERLY SWEENEY HUGH |
|
18 |
Method of resealing pipe joints |
US34233373 |
1973-03-19 |
US3927158A |
1975-12-16 |
CROFT ROBERT; LIPPIATT RAYMOND |
A method for totally encapsulating and thereby sealing a leaking joint between pipes conducting fluid under pressures which may be as high as 30 p.s.i. or more involves filling a strong mould with a fluent encapsulant and exerting a balancing pressure in the encapsulant at least as high as that in the pipes either before encapsulant is injected into the mould or as a result of that injection. Apparatus for carrying this out includes a resilient mould, usually externally reinforced with a rigid shell, and means for either exerting a fluid pressure on encapsulant when in the mould or as it is injected into it so as to build-up the required balancing pressure. In one arrangement encapsulant is injected through one port against a gas counterpressure exerted through another port; in another arrangement encapsulant is injected through one port and controlled venting through and eventual closing off of another port during injection controls the pressure build-up. An encapsulant of low viscosity may initially be put into the mould by simple pouring, pressure in the mould being built-up later. Strain energy may be released from the mould to maintain pressure on an encapsulant which shrinks as it sets or cures. The mould is reusable.
|
19 |
Method for bonding concentric tubular elements to one another |
US26722072 |
1972-06-28 |
US3846206A |
1974-11-05 |
BUSMA J; ROMANDER C |
1. A method for bonding inner and outer tubular elements to one another in a concentric position, said method comprising providing a reservoir of viscous bonding material above the inner tubular element for application to the inner wall of the outer tubular element as the same is set into place above the inner element and is lowered thereover, said reservoir being supported by a cap set upon the inner tubular element, and with said inner wall acting to confine the material present in the reservoir; supporting a peripheral reservoir of the bonding material about the outer wall of said inner element by means of a slidably mounted collar for application of the bonding material present in the peripheral reservoir; and moving the collar downwardly along the inner element by pressing the same with the descending outer element, thereby simultaneously coating the adjacent walls to be joined as the respective inner and outer elements are brought into concentric registry along their full length.
|
20 |
Method of inter-sealing and laying pipe joints |
US54054555 |
1955-10-14 |
US2876717A |
1959-03-10 |
TETYAK JOHN J |
|