Title of Invention	METHOD FOR JOINING A JACKET PART TO A CORE PART
Abstract	A method for joining a highly electroconductive core element (2) to a jacket element (1) made of refined steel, characterized in that in said method the electroconductive core element (2) and the joining agent element (3) are inserted in the jacket element (1), and at least the juncture area of the elements to be joined is thermally treated, so that there is created a metallurgical joint between the electroconductive core element (2) and the refined-steel jacket element (1).

Title of Invention

METHOD FOR JOINING A JACKET PART TO A CORE PART

Abstract

A method for joining a highly electroconductive core element (2) to a jacket element (1) made of refined steel, characterized in that in said method the electroconductive core element (2) and the joining agent element (3) are inserted in the jacket element (1), and at least the juncture area of the elements to be joined is thermally treated, so that there is created a metallurgical joint between the electroconductive core element (2) and the refined-steel jacket element (1).

Full Text	FORM - 2 THE PATENTS ACT, 1970 (39 of 1970) Complete Specification (Section 10, rule 13) 425/mumnp/2003 21-04-03 METHOD FOR JOINING A JACKET PART TO A CORE PART OUTOKUMPU OYJ of Riihitontuntie 7, FIN-02200 Espoo, Finland a Finnish public limited Company THE FOLLOWING SPECIFICATION PARTICULARLY DESCRIBES THE NATURE OF THIS INVENTION AND THE MANNER IN WHICH IT IS TO BE PERFORMED:- METHOD FOR JOINING A JACKET ELEMENT AND A CORE ELEMENT TOGETHER The present invention relates to a method according to the preamble of claim 1 5 for joining a tube element and a core element together. The method of the invention can be applied particularly in the manufacturing of the suspension bars for electrodes, particularly for permanent cathodes, used in the electrolysis of metals. The structure of the suspension bar of permanent 10 cathodes and the joining of the plate part of the permanent cathode to the suspension bar is made problematic by the fact that in order to conduct a high electric power to the plate part, the suspension bar must contain some highly electroconductive material, such as copper, because acid-resistant steel has poor electroconductivity, and consequently it cannot be the sole material of the 15 suspension bar. In the patent publication WO 00/17419 (No Indian equival ent application) there are introduced alternative methods for manufacturing the suspension bar of a permanent cathode. These methods are typically complicated and/or require special devices. In arrangements manufactured according to the methods of the prior art, the electroconductive properties of the joint have not always been 20 maintained in a satisfactory way, especially in the corroding conditions that prevail in the electrolytic processes of metals. The object of the present invention is to realize a novel method for joining the tube element and the core element together. Another object of the invention is 25 to realize a method that is economical as regards to manufacturing technology and well suited to the targets of usage for manufacturing the suspension bar of an electrode, particularly a permanent cathode. The arrangement according to the invention is characterized by what is set forth 30 in the appended claims. 2 The arrangement according to the invention has several remarkable advantages. By means of the method of the invention, there is achieved a good, electroconductive joint between the jacket element with a lower electroconductivity and the core element with a high electroconductivity. The 5 method is easily implemented without special devices. The method is suited to be applied in the manufacturing of products of very different sizes and, on the other hand, in the manufacturing of varying quantities of products. The arrangement according to the invention is explained in more detail below, 10 with reference to the appended drawings, where Figure 1 illustrates a step of a method according to the invention prior to the welding of the second end plate, and 15 Figure 2 illustrates a bar according to the invention prior to the heat treatment step. The invention relates to a method for joining a highly electroconductive core element 2 to a jacket element 1 made of refined steel. In said method, the 20 electrolytic core element 2, such as a copper bar, and the joining agent element 3 are inserted in the jacket element 1 with a poorer electroconductivity, and at least the juncture area of the elements to be joined together is thermally treated so that there is created a metallurgical joint between the electroconductive core element 2 and the refined-steel jacket element 1. The joining agent element 3 is 25 essentially as long as the core element 2. Typically the joining agent element 3 consists mainly of tin. The quantity of the joining agent 3 depends on the size of the clearance between the jacket element 1 and the core element 2, as well as on how large a part of the surfaces between the core element and the jacket element should be joined together. 30 The jacket element is a tubular element with at least one end that is at least partly closed, at least during the thermal treatment. Typically the first end 3 opening of the jacket element is closed, for instance by welding an end plate 5 thereon after the core element 2 and the joining agent element 3 are inserted in the tube. In the embodiment according to the drawings, also the other end opening of the jacket element is partly closed, for instance by welding an end 5 plate 5 thereon after the core element and the jacket element are inserted in the tube. In that case an opening 7 is left at the end of the jacket element, at least for the duration of the thermal treatment. This can be achieved for instance by leaving the top edge of the welded seam 6 in the second end plate 5 unwelded. Typically the elements to be joined together are kept at an 10 essentially horizontal position during the thermal treatment. Thus the tin, while melting, can penetrate to the whole junction area. During the thermal treatment, the molten tin dissolves copper from the copper bar serving as the core element 2 and creates tin bronze, which simultaneously begins to dissolve the inner surface of the refined steel tube serving as the jacket element 1, thus 15 creating a metallic tin bronze joint between the core element 2 and the jacket element 1. In a typical case, the thermal treatment was carried out in a furnace, the temperature whereof was raised essentially over about 900 °C. According to another preferred embodiment, the thermal treatment of the 20 elements to be joined together is carried out in a position that is essentially other than horizontal. In that case that end of the jacket element that is in a lower position is typically closed, at least up to the height of the desired junction surfaces. 25 The method according to the invention is suited to manufacturing the suspension bar of an electrode, particularly a permanent cathode. In this specification, the term 'refined steel' refers to stainless or acid-resistant steel. The term 'copper' refers to a material containing mainly copper, i.e. at least 50% copper. 30 4 We Claim: 1. A method for joining a highly electroconductive core element (2) to a jacket element (1) made of refined steel, characterized in that in said method the electroconductive core element (2) and the joining agent element (3) are inserted in the jacket element (1), and at least the juncture area of the elements to be joined is thermally treated, so that there is created a metallurgical joint between the electroconductive core element (2) and the refined-steel jacket element (1). 2. A method according to claim 1, characterized in that the core element (2) consists substantially of copper and the joining element (3) consists substantially of tin, in which case in the method, there is created substantially a tin bronze joint between the jacket element (1) and the core element (2). 3. A method according to any of the claims 1-2, characterized in that the jacket element (1) is a tube element, at least one end whereof is at least partly closed, at least for the duration of the thermal treatment. 4. A method according to any of the claims 1-3, characterized in that the elements (1, 2) to be joined together are maintained at an essentially horizontal position during the thermal treatment. 5. A method according to any of the claims 1-4, characterized in that at least when the elements (1, 2) to be joined together are in a horizontal position, the joining agent element (3) is arranged on top 5 of the core element (2) and inside the jacket element prior to the thermal treatment. 6. A method according to any of the claims 1-3, characterized in that the elements (1, 2) to be joined together are maintained at a position essentially deviant from the horizontal level during the thermal treatment. Dated this 21st day of April 2003. MOHAN DEWAN OF R.K.DEWAN & COMPANY APPLICANTS' PATENT ATTORNEY 6

Full Text

FORM - 2 THE PATENTS ACT, 1970
(39 of 1970)
Complete Specification
(Section 10, rule 13)

425/mumnp/2003
21-04-03

METHOD FOR JOINING A JACKET PART TO A CORE PART
OUTOKUMPU OYJ
of Riihitontuntie 7, FIN-02200 Espoo, Finland a Finnish public limited Company
THE FOLLOWING SPECIFICATION PARTICULARLY DESCRIBES THE NATURE OF THIS INVENTION AND THE MANNER IN WHICH IT IS TO BE PERFORMED:-

METHOD FOR JOINING A JACKET ELEMENT AND A CORE ELEMENT TOGETHER
The present invention relates to a method according to the preamble of claim 1 5 for joining a tube element and a core element together.
The method of the invention can be applied particularly in the manufacturing of the suspension bars for electrodes, particularly for permanent cathodes, used in the electrolysis of metals. The structure of the suspension bar of permanent 10 cathodes and the joining of the plate part of the permanent cathode to the suspension bar is made problematic by the fact that in order to conduct a high electric power to the plate part, the suspension bar must contain some highly electroconductive material, such as copper, because acid-resistant steel has poor electroconductivity, and consequently it cannot be the sole material of the

15 suspension bar. In the patent publication WO 00/17419 (No Indian equival
ent application) there are introduced alternative methods for manufacturing the suspension bar of a permanent cathode. These methods are typically complicated and/or require special devices. In arrangements manufactured according to the methods of the prior art, the electroconductive properties of the joint have not always been
20 maintained in a satisfactory way, especially in the corroding conditions that prevail in the electrolytic processes of metals.
The object of the present invention is to realize a novel method for joining the tube element and the core element together. Another object of the invention is 25 to realize a method that is economical as regards to manufacturing technology and well suited to the targets of usage for manufacturing the suspension bar of an electrode, particularly a permanent cathode.
The arrangement according to the invention is characterized by what is set forth 30 in the appended claims.
2

The arrangement according to the invention has several remarkable advantages. By means of the method of the invention, there is achieved a good, electroconductive joint between the jacket element with a lower electroconductivity and the core element with a high electroconductivity. The 5 method is easily implemented without special devices. The method is suited to be applied in the manufacturing of products of very different sizes and, on the other hand, in the manufacturing of varying quantities of products.
The arrangement according to the invention is explained in more detail below, 10 with reference to the appended drawings, where
Figure 1 illustrates a step of a method according to the invention prior to the welding of the second end plate, and
15 Figure 2 illustrates a bar according to the invention prior to the heat treatment step.
The invention relates to a method for joining a highly electroconductive core element 2 to a jacket element 1 made of refined steel. In said method, the
20 electrolytic core element 2, such as a copper bar, and the joining agent element 3 are inserted in the jacket element 1 with a poorer electroconductivity, and at least the juncture area of the elements to be joined together is thermally treated so that there is created a metallurgical joint between the electroconductive core element 2 and the refined-steel jacket element 1. The joining agent element 3 is
25 essentially as long as the core element 2. Typically the joining agent element 3 consists mainly of tin. The quantity of the joining agent 3 depends on the size of the clearance between the jacket element 1 and the core element 2, as well as on how large a part of the surfaces between the core element and the jacket element should be joined together.
30
The jacket element is a tubular element with at least one end that is at least partly closed, at least during the thermal treatment. Typically the first end
3

opening of the jacket element is closed, for instance by welding an end plate 5 thereon after the core element 2 and the joining agent element 3 are inserted in the tube. In the embodiment according to the drawings, also the other end opening of the jacket element is partly closed, for instance by welding an end 5 plate 5 thereon after the core element and the jacket element are inserted in the tube. In that case an opening 7 is left at the end of the jacket element, at least for the duration of the thermal treatment. This can be achieved for instance by leaving the top edge of the welded seam 6 in the second end plate 5 unwelded. Typically the elements to be joined together are kept at an
10 essentially horizontal position during the thermal treatment. Thus the tin, while melting, can penetrate to the whole junction area. During the thermal treatment, the molten tin dissolves copper from the copper bar serving as the core element 2 and creates tin bronze, which simultaneously begins to dissolve the inner surface of the refined steel tube serving as the jacket element 1, thus
15 creating a metallic tin bronze joint between the core element 2 and the jacket element 1. In a typical case, the thermal treatment was carried out in a furnace, the temperature whereof was raised essentially over about 900 °C.
According to another preferred embodiment, the thermal treatment of the 20 elements to be joined together is carried out in a position that is essentially other than horizontal. In that case that end of the jacket element that is in a lower position is typically closed, at least up to the height of the desired junction surfaces.
25 The method according to the invention is suited to manufacturing the suspension bar of an electrode, particularly a permanent cathode. In this specification, the term 'refined steel' refers to stainless or acid-resistant steel. The term 'copper' refers to a material containing mainly copper, i.e. at least
50% copper. 30
4

We Claim:
1. A method for joining a highly electroconductive core element (2) to a jacket element (1) made of refined steel, characterized in that in said method the electroconductive core element (2) and the joining agent element (3) are inserted in the jacket element (1), and at least the juncture area of the elements to be joined is thermally treated, so that there is created a metallurgical joint between the electroconductive core element (2) and the refined-steel jacket element (1).
2. A method according to claim 1, characterized in that the core element (2) consists substantially of copper and the joining element (3) consists substantially of tin, in which case in the method, there is created substantially a tin bronze joint between the jacket element (1) and the core element (2).
3. A method according to any of the claims 1-2, characterized in that the jacket element (1) is a tube element, at least one end whereof is at least partly closed, at least for the duration of the thermal treatment.
4. A method according to any of the claims 1-3, characterized in that the elements (1, 2) to be joined together are maintained at an essentially horizontal position during the thermal treatment.
5. A method according to any of the claims 1-4, characterized in that at least when the elements (1, 2) to be joined together are in a horizontal position, the joining agent element (3) is arranged on top
5

of the core element (2) and inside the jacket element prior to the thermal treatment.
6. A method according to any of the claims 1-3, characterized in that the elements (1, 2) to be joined together are maintained at a position essentially deviant from the horizontal level during the thermal treatment.
Dated this 21st day of April 2003.
MOHAN DEWAN
OF R.K.DEWAN & COMPANY
APPLICANTS' PATENT ATTORNEY
6

Documents:

425-mumnp-2003-cancelled pages(19-04-2004).pdf

425-mumnp-2003-claims(granted)-(04-01-2005).doc

425-mumnp-2003-claims(granted)-(04-01-2005).pdf

425-mumnp-2003-correspondence(04-01-2005).pdf

425-mumnp-2003-correspondence(ipo)-(20-05-2004).pdf

425-mumnp-2003-form 1(19-04-2004).pdf

425-mumnp-2003-form 19(21-10-2003).pdf

425-mumnp-2003-form 2(granted)-(04-01-2005).doc

425-mumnp-2003-form 2(granted)-(04-01-2005).pdf

425-mumnp-2003-form 5(21-03-2003).pdf

425-mumnp-2003-petition under rule 137(16-10-2003).pdf

425-mumnp-2003-petition under rule 137(24-07-2003).pdf

425-mumnp-2003-petition under rule 138(16-10-2003).pdf

425-mumnp-2003-power of attorney(21-04-2003).pdf

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Patent Number

209486

Indian Patent Application Number

425/MUMNP/2003

PG Journal Number

43/2008

Publication Date

24-Oct-2008

Grant Date

31-Aug-2007

Date of Filing

21-Apr-2003

Name of Patentee

OUTOKUMPU OYJ

Applicant Address

RIIHITONTUNTIE 7, FIN-02200 ESPOO, FINLAND

Inventors:

#	Inventor's Name	Inventor's Address
1	POLVI VEIKKO	HUVISUULINTIE 4 B, FIN-28200 PORI, FINLAND.
2	HALMINEN VEIJO	KAASMARKUNTIE 114, FIN-28460 VANHA-ULVILA, FINLAND
3	KIVISTO TUOMO	HIRSALANTIE 259, FIN-02420 JORVAS, FINLAND.

PCT International Classification Number

C25C7/02

PCT International Application Number

PCT/FI01/00984

PCT International Filing date

2001-11-13

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	20002523	2000-11-17	Finland