DE10004159C2 - Nozzle assembly for gas burners - Google Patents

Description

State of the art

The invention relates to a nozzle assembly with at least one strand and more Other, spaced-apart nozzles with nozzles arranged in the longitudinal direction of the strand outlet openings for a gas burner.

Known nozzle sticks of this type usually include a section for the Gas inlet, a mixing section and a burning section as a strand with several, spaced nozzles. In doing so, for these sections with different internal cross-section suitable hollow profiles in different Her manufacturing process and assembled into the nozzle assembly. The nozzles stock can be single or multi-stranded. The effort Sharing is great, especially when separate nozzle bodies for the firing sections, d. H. Strands. In addition, the production of the Dü senstockes complicated and time consuming, d. H. very expensive. Because of the exciting Processing requires a final cleaning of the nozzle assembly.

DE 44 44 287 A1 describes a process for the production a gas distribution pipe is known in the nozzle body by means of a stamping tool in a pipe section attached and then with a punch Nozzle outlet openings are introduced. In the Nozzle outlet openings are machined Machined a thread into which the gas nozzles be screwed in.

With the nozzle holder of the utility model DE 296 08 619 U1 the gas nozzles are also in the gas distribution pipe screwed in. About bringing the Nothing is said about the nozzle outlet openings.

From DE 197 22 289 A1 it is known for a double-walled combustion chamber wall made of sheet metal channels through a fluid introduced under pressure between the wall plates Train work equipment.

Finally, from DE 198 10 422 C1, US 5,813,266 A and DE 195 30 055 A1 generally known for Pipe sections on which bulges, outlet openings or dome-like branches are integrally formed Apply hydroforming processes.

It is an object of the invention to provide a nozzle assembly of the type mentioned above to simplify that its manufacture is simplified and significantly cheaper can be.

This object is achieved according to the invention in that the strands through Pipe sections or pipe structures are formed on which the nozzle body are formed in one piece by hydroforming that in the nozzle base body nozzle outlet openings are introduced and that the Rohrab cut or the pipe structure is closed except for a gas inlet opening, or that the strands are formed by pipe sections or pipe structures which nozzle body with external and internal thread through internal high pressure Forming are molded in one piece so that the nozzle body on their open ends and worked into the internal thread of the nozzle body are and that the pipe section or the pipe structure except for a gas inlet opening is closed.

The simplification and cheaper manufacturing is primarily there achieved by that the strands of the nozzle assembly - regardless of whether it is is a single or multi-strand nozzle assembly - from a tube cut so far in one operation that only the nozzles are left outlet openings can be introduced or the nozzle body can be screwed in and the open ends of the pipe not used as gas inlet openings cut or pipe structure are to be closed. The strands can their longitudinal dimensions are definitely sections with different internal cross sections  receive. This is only due to that for hydroforming used tool set.

A pipe section is used as the starting material for hydroforming or uses a tubular structure that has an inner cross section that the corresponds to the smallest internal cross section of the finished nozzle assembly.

The pipe section or the pipe structure is turned into a two-part shape brings the outer contour of the nozzle assembly with the nozzle body sets. The parting plane is placed in the middle plane of the nozzle assembly to be able to easily demold the nozzle assembly after the hydroforming nen.

In the case of a multi-strand nozzle assembly, production can take place in different ways Be varied in such a way that individually manufactured strands according to the internal high pressure Forming by means of connecting pieces and a connecting piece into one multi-strand nozzle assembly are summarized or that several Rohrab cuts, connectors and a connector to a multi-strand Pipe structures are summarized and that the nozzle body to the pipe sections and connectors by hydroforming are formed in pieces.

In hydroforming, all ends of the pipe section are or Pipe structure open and are charged with a liquid medium to to facilitate reshaping in all areas.

The invention is based on the embodiment shown in the drawings examples explained in more detail. Show it:

Figs. 1 to 3 is a single-stranded nozzle assembly, in side view, plan view and a partial section through a shaped nozzle body,

FIGS. 4 and 5 a two-strand nozzle in perspective view and a partial section through a shaped nozzle base body and

Fig. 6 to 8 a single-stranded nozzle block with constant internal cross-section and shaped for the use of nozzle bodies Dü sengrundkörpern in plan view, in side view and with a partial section through the nozzle body.

The single-stranded nozzle assembly 10 of FIG. 1 to 3 can-forming internal high pressure are made of a pipe section through which opening from the gas-A 15 extends up to the closed end 13. In the case of internal high-pressure forming, the ends of the pipe section are open and are subjected to a liquid medium under high pressure. The pipe section is introduced into a two-part tool that defines the outer contour of the nozzle assembly 10 with the exception of the end 13 , ie the tapered section with the nozzle body 20 to be formed , the transition section 14 and the connector 11 with the external thread 12 . As can be seen in FIG. 3, the wall thickness 21 of the pipe section changes in the area of the nozzle base body during the shaping and in the area of the outer thread 12 a corresponding internal thread is formed.

The nozzle base body 20 is still closed after the shaping, so that only the nozzle outlet openings 23 have to be introduced into the end face 22 . The end 13 of the formed tube section is closed, which, for. B. can be done by deformation and welding. Then the one-piece and single-strand nozzle assembly 10 according to FIGS . 1 and 2 is completed. The shaped and closed end can be designed so that it is used as a fixation in the combustion chambers (groove hole or etc.).

The nozzle assembly 10 according to FIGS. 1 to 3 can also be produced in that the transition section 14 and the connecting piece 11 with the outer thread 12 are produced as an additional part and are connected to the section with the nozzle base bodies 20 .

The situation is similar in the production of the two-strand nozzle strand 30 according to FIGS. 4 and 5. The strands 10 with the nozzle base bodies 20 can be formed separately from pipe sections by hydroforming and then with separately produced transition sections 16 and a T-shaped connecting piece 17th get connected. The Ver connecting sections 16 can also be provided with nozzle base bodies 20 and separated or produced together with the strand 10 .

Finally, it is also possible to combine the strands 10 , the transition sections 16 and the connecting piece 17 beforehand to form a tubular structure which is then formed as a unit to form the two-strand nozzle assembly 30 . In the nozzle body 20 , only the nozzle outlet openings 23 are to be introduced into the ends 22 and the ends 13 of the strands 10 facing away from the gas inlet opening 15 in the connecting piece 18 are to be closed. The wall thickness 21 of the molded nozzle base body 20 is correspondingly reduced compared to the wall thickness of the strands 10 .

As the single-stranded Nozzle according to FIGS. 6 to 8 shows, the SI can be fully opened scorching around body 20 in the region of the ends 22. If an external thread 12 a is predetermined on the nozzle base bodies 20 during the shaping by the shape, then an internal thread 12 i is inevitably formed, which is accessible after opening of the end 22 . In the nozzle body 20 shaped and opened in this way, commercially available nozzle bodies can be screwed in. In the shape of the nozzle assembly according to FIGS. 6 to 8, the major part of the pipe section is not deformed. A reshaping takes place only in the area of the nozzle base body 20 , since the pipe section used already has the dimensions of the strand 10 outside the nozzle base body 20 . The strand 10 can have a formed connection thread 12 at the end with the gas inlet opening 15 and the opposite end 13 is closed in a known manner after the forming.

It remains to be mentioned that the sleeve-shaped nozzle base body 20 end in a threadless end section 24 which is dimensioned such that access to the internal thread 12 i is not made difficult and the nozzle base body can be screwed in easily.

Claims (7)

1. nozzle assembly with at least one strand and a plurality of spaced nozzles arranged in the longitudinal direction of the strand with nozzle outlet openings for a gas burner, characterized in that
that the strands ( 10 ) are formed by pipe sections or pipe structures, on which the nozzle base body ( 20 ) is formed in one piece by internal high-pressure forming,
that in the nozzle body ( 20 ) nozzle outlet openings ( 23 ) are introduced and
that the tube section or the tube structure is closed except for a gas inlet opening ( 15 ). 2. A nozzle assembly with a tubular structure with at least one strand with a plurality of spaced-apart nozzles arranged in the longitudinal direction of the strand with nozzle outlet openings, characterized in that
that the strands ( 10 ) are formed by pipe sections or pipe structures, on which nozzle base bodies ( 20 ) with external and internal threads ( 12 a, 12 i) are formed in one piece by internal high pressure forming,
that the nozzle base body ( 20 ) is open on its free end faces and incorporated into the internal thread ( 12 i) and
that the tube section or the tube structure is closed except for a gas inlet opening ( 15 ). 3. nozzle assembly according to claim 1 or 2, characterized, that the pipe section or the pipe structure before the high pressure um Formation has an inner cross-section that the smallest inner cross cut of the finished nozzle assembly corresponds. 4. Nozzle assembly according to one of claims 1 to 3, characterized in that the tube section or the tubular structure is brought into a two-part shape, which defines the outer contour of the nozzle assembly with the nozzle base bodies ( 20 ). 5. Nozzle assembly according to one of claims 1 to 4, characterized in that individually manufactured strands ( 10 ) after the internal high pressure forming by means of connecting pieces ( 16 ) and a connecting piece ( 17 ) are combined to form a multi-strand nozzle assembly. 6. nozzle assembly according to one of claims 1 to 4, characterized in
that several pipe sections ( 10 ), connecting pieces ( 16 ) and a connection piece ( 17 ) are combined to form a multi-strand pipe structure and
that the nozzle base body ( 20 ) on the pipe sections ( 10 ) and Ver connecting pieces ( 16 ) are formed in one piece by hydroforming. 7. nozzle assembly according to one of claims 1 to 6, characterized, that the internal high pressure forming of the pipe section or the pipe formed liquid medium supplied through all open ends.