CZ309033B6 - Burner assembly and burner - Google Patents

Abstract

The burner assembly comprises a nozzle (2) which contains a through cavity for inserting a nozzle (3) and comprising an inner surface for conducting the preheating gas, the nozzle has at its proximal end a flange (6) with a proximal surface for abutment against the distal surface of the burner head (7), and a cover adapted to be fixed to the burner head (7) and an inner surface with an inner shoulder (15), the nozzle (2) is mounted in the cover so as to abut the distal surface of the flange (6) on the inner shoulder (15) of the cover, and in the region between the distal surface of the flange (6) and the distal end of the cap, a first sealing ring (24) is arranged between the outer surface of the nozzle (2) and the inner surface of the cap, the first sealing ring (24) is seated in a first sealing groove (23) in the outer surface of the nozzle (2) or the inner surface of the cover.

Description

Burner assembly and burner

Field of technology

The invention relates to a torch assembly which comprises a nozzle and a cover and which is intended for welding and cutting torches for welding and flame cutting. The invention also relates to a burner comprising this burner assembly.

State of the art

EP 2063177 A2 discloses a cutting torch which comprises a torch head to which a nozzle, nozzle and cap assembly is attached by means of a bayonet connection between the inner groove of the cap and the protrusions on the torch head. The preheating gas mixture is fed through a passage in the preheating head into a preheating gas channel between the inner surface of the nozzle and the outer surface of the nozzle and is guided through this channel into an opening in the distal end of the nozzle. In order to prevent the preheating gas from escaping along the contact between the proximal end of the nozzle and the burner head, this contact is provided with an O-ring seal. Most often, only the nozzle needs to be replaced in such an assembly. During the operation of the burner, the O-ring is thermally stressed and often the O-ring is partially fused to the burner head, and when the nozzle is replaced, the O-ring is mechanically stressed or dropped, so that the O-ring wears out very quickly and loses. its functionality. In addition, during nozzle replacements, the said bayonet connection also wears out, so that the nozzle does not fully and tightly rest on the burner head and thus also reduces the functionality of the seal between said components.

The object of the present invention is to eliminate the above-mentioned disadvantages, in particular to prolong the service life of the sealing rings or the sealing rings. to ensure the long-term functionality of the cap and nozzle assembly, while eliminating the preheating gas leakage along the surface of the nozzle abutting the burner head.

The essence of the invention

The above task is solved by a torch assembly for torch welding and flame cutting, the assembly comprising:

- a nozzle comprising a through cavity which surrounds the longitudinal axis of the nozzle is for inserting a nozzle and comprises an inner surface for conducting preheating gas, the nozzle having a flange at its proximal end with a proximal surface for abutment on the distal surface of the torch head, and

- a cap adapted to be attached to the torch head and having an inner surface with an inner shoulder, the nozzle being housed in the cap so as to abut the distal surface of the flange on the inner shoulder of the cap, and wherein in the region between the distal surface of the flange and the distal end a first sealing ring is arranged between the outer surface of the nozzle and the inner surface of the cap, said first sealing ring being seated in a first sealing groove arranged in the outer surface of the nozzle or the inner surface of the cap.

Preferably, the cover is provided on its inner surface in the region between its proximal end and the inner shoulder with a second sealing groove in which the second sealing ring is arranged.

-1 CZ 309033 B6

Preferably, the cover comprises a cover body into which the fastening body is pressed, the second sealing groove being formed in the inner surface of the fastening body.

Preferably, the first sealing groove is formed in the cylindrical surface of the nozzle to which the cylindrical surface of the cap abuts, or in the cylindrical surface of the cap to which the cylindrical surface of the nozzle abuts.

In another embodiment, the torch assembly includes a nozzle through which the cutting gas passage passes in the longitudinal direction of the nozzle and which is at least partially housed in the nozzle, coaxial with the nozzle, with an annular preheating gas passage between the outer surface of the nozzle and the inner surface of the nozzle.

Preferably, the nozzle has at least one annular groove on the outer surface of the proximal end in which an inner sealing ring is received to seal the contact between the nozzle and the torch head.

The cap is preferably provided on its inner surface with a pair of mounting grooves, each having an inlet portion extending from the proximal surface of the cap in the distal direction and an adjoining support portion extending circumferentially along a portion of the circle or helix.

Preferably, the inlet portions of the mounting grooves are arranged opposite each other.

The above object is also solved by a burner comprising the above burner assembly and a burner head whose distal surface abuts the proximal surface of the nozzle flange, the outer peripheral surface of the burner head abutting the inner surface of the cover, in particular the inner surface of the cover body. the surface abuts the proximal surface of the nozzle.

The term burner assembly means an assembly of at least two parts that is designed or adapted for use in a burner.

The term proximal in this specification refers to a portion or area that is closer to the source (i.e., further from the cut) in terms of the general direction of the cutting and preheating gas, while the term distal refers to a portion or area that is closer to the general direction of the cutting and preheating gas closer to the cut / welded part, resp. to the outlet end of the nozzle and nozzle (i.e. further from the gas source).

Clarification of drawings

The invention is further described in more detail by means of exemplary embodiments shown in the drawings, in which Fig. 1 is a cross-sectional axonometric view of a nozzle, nozzle and cap assembly, Fig. 2 is a cross-sectional side view of the same but rotated assembly, and is a cross-sectional view of the same assembly but attached to the torch head.

Examples of embodiments of the invention

An exemplary embodiment of the torch assembly shown in the drawings includes a nozzle 3 having a longitudinal axis surrounding a cutting gas passage 31, the cutting gas passage 31 having an inlet at the proximal end of the nozzle 3 and an outlet at the distal end at the cutting gas outlet.

The distal end portion of the nozzle 3 has an enlarged diameter and is provided on the outer side surface with grooves 32 extending in the longitudinal direction of the nozzle 3, so that these grooves 32 form passages for the preheating gas.

- 2 CZ 309033 B6

The proximal end of the nozzle 3 is provided on the outside with a pair of annular grooves 33, in each of which an inner sealing ring 34 is arranged to seal the contact between the nozzle 3 and the burner head 7.

The distal and central part of the nozzle 3 surrounds the nozzle 2, which is arranged coaxially with the nozzle 3.

The proximal end of the nozzle 2 is provided on the outside with a flange 6, while on the inside it is provided with a recess 61 for the preheating gas inlet to the preheating gas channel 21 formed between the outer surface of the nozzle 3 and the inner surface of the nozzle 2. The outlet of the preheating gas channel 21 is formed. passages between the inner surface of the distal end of the nozzle 2 and the grooves 32 on the outer surface of the nozzle 3.

The flange 6 of the nozzle 2 has a proximal radial surface for abutment against the distal radial surface of the torch head 7.

The outer surface of the nozzle 2 is formed such that the first cylindrical surface, then the tapering first conical surface, then the second cylindrical surface, and finally the second tapering conical surface adjoins the region of the flange 6 towards the distal end of the nozzle 2.

Between the flange 6 and the first conical surface, i.e. in the area in which the nozzle 2 has a maximum outer diameter, resp. in the area adjacent to the flange 6, a first sealing groove 23 is formed in the outer surface of the nozzle 2, in which a first sealing ring 24 is arranged.

The nozzle 2 is substantially rotationally symmetrical along the longitudinal axis.

The assembly further comprises a cover for fixing the nozzle and nozzle assembly 2 to the torch head 7. The cover is formed by a cover body 11 which surrounds the proximal and middle portions of the nozzle 2 and a mounting body 12 which is pressed into the proximal end of the cover body 11. body 11 and the fastening body 12 can additionally be secured by means of a weld, for example one or more spot welds in the region of contact of the two bodies 11, 12 on the proximal surface of the cover.

The cover body 11 is provided with an inner shoulder 15, which forms a radial annular surface on which the distal surface of the flange 6 of the nozzle 2 rests.

The inner surface of the cover body 11 between the inner shoulder 15 and the distal end of the cover body 11 extends along or abuts the outer surface of the nozzle 2. The first sealing ring 24 is thus clamped in the first sealing groove 23 between the inner surface of the cover body 11 and the outer surface of the nozzle 2. , this first sealing ring 24 preventing the preheating gas which enters from the preheating gas channel 21 along the proximal surface of the flange 6 into the gap between the cover body 11 and the outer surface of the nozzle 2 from escaping through this gap towards the distal end of the cover body. 11. possibly nozzles 2.

In an alternative embodiment, the first sealing groove 23 for the first fastening ring 24 is formed in the inner surface of the cover body 11.

The mounting body 12 pressed into the cover body 11 comprises a pair of mutually opposite mounting grooves 18 and a second sealing groove 13. Each of the pair of mounting grooves 18 has an inlet portion extending from the proximal surface of the mounting body 12 in the distal or at least partially distal direction. , i.e. parallel to the longitudinal axis of the cover or along a helix with a relatively large pitch, and on the one hand a support part which extends along a part of the helix which has a smaller pitch than the inlet part.

-3GB 309033 B6

The inlet portions of the mounting grooves 18 are arranged opposite each other. The fastening groove 18 is continuous through the fastening body 12, so that its bottom forms the inner cylindrical surface of the cover body 11.

The burner head 7 is provided with a pair of mutually oppositely arranged supporting radial projections, which in the illustrated embodiment are formed by the heads 90 of screws 9 screwed into the burner head 7.

In an alternative embodiment, the supporting radial projections on the torch head 7 can form press-fit pins or protrusions forming an integral part of the torch head body 7. And in yet another embodiment, the attachment of the cover to the torch head 7 can be realized by a thread.

The size of the mounting grooves 18 is adapted to receive the supporting radial protrusions and guide them when mounting the assembly to the torch head 7.

The second sealing groove 13 is annular and is arranged between the distal end of the fastening body 12 and the fastening grooves 18. a second sealing ring 14 is arranged in the sealing groove 13, which seals the contact between the cover or the cover. the fastening body 12 of the cover, and the outer side surface of the torch head 7.

Due to this arrangement of the pair of sealing rings 24, 14, an undesired leakage of preheating gas is prevented, which from the region of the inlet to the preheating gas channel enters the outer surface of the nozzle 2 from the proximal surface of the flange 6.

The cover body 11 is provided with serrations on the outer surface of its proximal end for easier handling when fastening to the torch head 7 or removal from the torch head 7.

The individual components of the assembly are made of heat-resistant material, preferably metal, preferably stainless steel.

The sealing rings 24, 14 and the inner sealing rings 34 are preferably O-rings, for example rubber.

The preheating gas may be a gas mixture and also the cutting gas may be a gas mixture.

The assembly of FIG. . If the nozzle 3 needs to be replaced, the assembly of Fig. 1 is removed from the torch head 7 by turning and moving it in the distal direction. Subsequently, the nozzle 3 is removed from the assembly, the relative position of the nozzle 2 and the cap not changing. Thus, the nozzle 2 remains housed in the cover, so that there is no mechanical wear of the first sealing ring 24. As a result, there is no undesired leakage of preheating gas even after a series of nozzle changes 3. The second sealing ring 14 is also less stressed. On the one hand, it is arranged in a side wall and its mechanical stress is not as great as it was in the case of mounting between surfaces pressed against each other in a burner according to the prior art. Nor does the second sealing ring fall out after the cover body 11 has been removed, as was the case with the burner according to the prior art. In addition, the second sealing ring 14 is further away from the heat source than the prior art burner, so that the second sealing ring 14 is also subject to less wear and no unwanted preheating gas leakage even after prolonged operation.

The described arrangement thus ensures the long-term functionality of the sealing rings 24, L4.

-4CZ 309033 B6

Although particularly preferred exemplary embodiments have been described, it will be apparent to those skilled in the art that other possible alternatives to these embodiments will be readily apparent. Therefore, the scope of protection is not limited to these exemplary embodiments, but rather is defined by the appended claims.

Claims (9)

PATENT CLAIMS 1. A burner assembly comprising: - a nozzle (2) comprising a through cavity for inserting a nozzle (3) and comprising an inner surface for conducting preheating gas, the nozzle having at its proximal end a flange (6) with a proximal surface for abutment on the distal surface of the burner head (7) , a - a cover which is adapted to be fixed to the burner head (7) and has an inner surface with an inner shoulder (15), the nozzle (2) being mounted in the cover so as to abut the distal surface of the flange (6) on the inner shoulder (15) in the region between the distal surface of the flange (6) and the distal end of the cap, a first sealing ring (24) is arranged between the outer surface of the nozzle (2) and the inner surface of the cap, this first sealing ring (24) being seated in a first sealing groove (23) arranged in the outer surface of the nozzle (2) or the inner surface of the cover. Burner assembly according to claim 1, characterized in that the cover is provided with a second sealing groove (13) on its inner surface in the region between its proximal end and the inner shoulder (15), in which a second sealing ring (14) is arranged. Burner assembly according to claim 2, characterized in that the cover comprises a cover body (11) into which the fastening body (12) is pressed, the second sealing groove (13) being formed in the inner surface of the fastening body (12). Burner assembly according to any one of the preceding claims, characterized in that the first sealing groove (23) is formed in the cylindrical surface of the nozzle (2) abutting the cylindrical surface of the cap or in the cylindrical surface of the cap abutting the cylindrical surface of the nozzle (2). Burner assembly according to any one of the preceding claims, characterized in that it further comprises a nozzle (3) through which the cutting gas channel (31) passes and which is at least partially housed in the nozzle (2), between the outer surface of the nozzle (3) ) and the inner surface of the nozzle (2) is an annular channel (21) for preheating gas. Burner assembly according to claim 5, characterized in that the nozzle (3) has at least one annular groove (33) on the outer surface of the proximal end, in which the inner sealing ring (34) is accommodated. Burner assembly according to any one of the preceding claims, characterized in that the cap is provided on its inner surface with two mounting grooves (18), each having an inlet portion extending from the proximal surface of the cap in the distal direction and a support portion adjoining it. which extends circumferentially along a portion of a circle or helix. Burner assembly according to Claim 7, characterized in that the inlet parts of the fastening grooves (18) are arranged opposite one another. -6CZ 309033 B6 A burner, characterized in that it comprises a burner assembly according to any one of claims 1 to 8 and a burner head (7), the distal surface of which abuts the proximal surface of the flange (6) of the nozzle (2), the outer peripheral surface of the burner head (7) ) abuts the inner surface of the cover.