RU2025235C1 - Plasmatron - Google Patents

Abstract

FIELD: for welding and applying of coatings. SUBSTANCE: plasmatron has a cylindrical housing with lengthwise groove. Inside of the housing are mounted according to any necessary order autonomous cathode, anode and intermediate assemblies of interelectrode insert, such as isolating, sealing assemblies, gas liquid feed supply unit, having identical ends. A clamping shutter provides pressing down and fixation of the above mentioned units in the housing. Due to using of the autonomous units with the identical ends it is possible to significantly simplify a construction of the plasmatron and to assemble different mounting circuits of such units. EFFECT: simplified structure, easy assembling and dismounting, enlarged functional possibilities of the plasmatron. 1 cl, 15 dwg

Description

 The invention relates to the field of welding and coating and can be used in various industries.

 Known plasma torches for plasma-arc processing, containing anode, cathode and intermediate nodes installed in a cylindrical body with a longitudinal groove for the output of the nozzles.

 The disadvantage of such plasmatrons is the complexity of the design and the inability to change the operating modes of the plasma torch, as well as its layout schemes during operation.

 The purpose of the invention is to simplify the design, facilitate assembly and disassembly, expand the functionality of the plasma torch.

 This is achieved by the fact that in the plasmatron containing the anode, cathode and intermediate nodes with liquid and gas supply pipes installed in a cylindrical body with a longitudinal groove for outputting pipes, the cathode, anode and intermediate nodes are autonomous with identical ends. It is possible to place them inside the case in any sequence.

 To prove the conformity of the proposed technical solution to the criterion of "significant differences", a search was conducted on the patent and scientific literature in the class MKI V 23 K 9/16, V 23 K 31/10. Analysis of the search showed that no distinguishing features similar to the claimed technical solution were found. Thus, the proposed technical solution meets the criterion of "significant differences".

 In FIG. 1 - 4 depict possible layout schemes for assembling a plasma torch; figure 5 - plasmatron, General view; figure 6 is a view of figure 5; Fig.7 is a section bB in Fig.6; in Fig.8 - node I in Fig.6; in Fig.9 - node II in Fig. 6; figure 10 - node interelectrode insert; in FIG. 11 and 12 - cathode block; in FIG. 13 - anode block; in FIG. 14 and 15 - node supply of gas (liquid).

 The plasma torch contains a cylindrical housing 1 having a longitudinal groove 2 and a pinch valve 3. Inside the housing, the cathode 4, anode 5, and intermediate nodes are installed in the required sequence: interelectrode insert 6, insulating 7, sealing 8, gas (liquid) supply unit 9, which have identical ends 10. The pinch bolt 3 is made in the form of a glass 11 with two L-shaped grooves 12, with the pinch sleeve 13 installed therein. To seal the nodes together, the pinch bolt 3 is equipped with a screw 14, which ensures tight compression of the nodes yn to a friend. Anode 5, cathode 4 and intermediate nodes 6, 7, 8 and 9 are assembled from standardized elements: flanges 15, nozzles 16, radiators 17, current leads 18, which allow them to be made autonomous and having identical ends 10, which makes it possible to place the nodes inside the housing in any sequence. This also allows the use of sealing inserts 19 and insulating rings 20 of the same size. The possibility of assembling various layout schemes in one housing is provided by additional rings 21 of various thicknesses, which can be installed if necessary.

 Assembly of the plasma torch is as follows. In a cylindrical housing 1, autonomous plasma torch assemblies 4, 5, 6, 7, 8, and 9 are installed according to one of the layout schemes, and if necessary, additional rings 20 are fixed by a pinch bolt 3 and tightly compressed by a screw 13.

 The plasma torch is ready for operation.

 Dismantling is carried out in the reverse order. Dismantling and assembling the plasma torch takes 2-3 minutes.

 Compared with the prototype, the proposed plasma torch due to the implementation of the nodes autonomous and with identical ends, allows you to quickly and reliably assemble the layout scheme necessary for operation, change the plasma formation modes, which greatly expanded the functionality of the plasma torch and allowed to reduce the range of used parts, which simplified the design.

Claims (1)

 PLAZMOTRON containing anode, cathode and intermediate nodes with nozzles for supplying a cooling medium and gas installed in a cylindrical body with a longitudinal groove for outputting nozzles, as well as a node for clamping and fixing the nodes in the case, characterized in that, in order to simplify the design, facilitate Assembling and disassembling, as well as expanding functionality by placing nodes inside the housing in any sequence, the anode, cathode and intermediate nodes are autonomous with identical ends.

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