ES1068374U - Plasma torch wear piece support (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Plasma torch wear part support, characterized in that on its joining side it has a cylindrical wall (51; 61) with an inner surface (51a; 61a), being provided on the inner surface (51a; 61a) nvor radial deejays and nsee radial projections, circumferential in shape, where nvor, nsee> = 0 and nvor + nsee> = 5, and in case of n = 5, the sum of two contiguous central angles (α and β or β and γ γ and δ or δ and ε or ε and α), among which are arranged with a displacement between them the projections or deepenings or a projection and a deepening, is not> = 180º and the five central angles (α, β, γ, δ, ε) have different sizes or in case of n> 5, the sum of two contiguous central angles (α and β or β and γ or γ and δ or δ and ε o ε and α), among which are arranged with a displacement between them the projections or deepenings or a projection and a deepening, is not> = 180º and the n> 5 central angles (α, β, γ, δ, ε) have different sizes or at least two of the n> 5 central angles (α, β, γ, δ, ε) have the same size, with <180º being the sum of the central angle that exists twice and the contiguous central angles (α and γ or β and δ or γ and ε or γ and α or ε and β) on both sides.

Description

Torch wear part support plasma.

Object of the invention

The present invention is referred to as its own name indicates, to a torch wear part holder of plasma to enable a rapid change of said piece.

Background of the invention

Plasma torches are known that are composed of a plasma torch rod and a plasma torch head, They can join each other. In the plasma torch head find the parts of the plasma torch that during the service they wear out quickly and have to be replaced with greater frequency. It is mostly about the electrode, the nozzle, the protective cap of the nozzle and the components of the gas conduction, especially of the components of the plasma gas conduction. But also in the case of late use variables of the plasma procedure, for example, between steel cutting for construction and cutting of stainless steel or al change the insert from cut to weld or vice versa, it can be it is necessary to change an electrode, a nozzle, a cover of nozzle protection, a component of gas conduction etc., to another or another. To do this quickly, you should have A possibility of rapid change.

To avoid damage or, for example, to perform Correct power connections, the possibility of quick change should offer a clearly radial positioning or a positioning along the contour of the pieces of wear.

Description of the invention

The invention aims to provide a possibility of rapid change of this type for parts of wear of a plasma torch.

According to the invention, this objective is achieved. by a joint between a wear piece of plasma torch and a plasma torch wear part holder, characterized in that the torch wear part holder of Plasma or plasma torch wear part presented in your joining side a first cylindrical wall with a surface exterior and a circular ring-shaped surface, as well as with an outer diameter D41a, and the other from between the workpiece holder of  wear of plasma torch and torch wear part of plasma has a second cylindrical wall on its joining side with an inner surface and an inner diameter D52, being D52 > D41a, and on its inner surface, n_ {vor} projections radial and n_ {see} radial, circumferential deepening, where n_ {vor}, n_ {see} \ geq 0 and n_ {vor} + n_ {see} = n ≥ 5, and the same being provided on the outer surface number of deeps or protrusions, especially corresponding, meshed with these, and in case of n = 5, the sum of two contiguous central angles, between which they are arranged with a displacement with each other the projections or deepening or a outgoing and a deepening, is not? 180º and the five angles central units have different sizes, or in the case of n> 5, the sum of two contiguous central angles, among which are arranged with the projections offset from each other or deepening or a protrusion and a deepening, is not? 180º and the n> 5 central angles have different sizes or at least two of the n> 5 central angles have the same size, being respectively <180º the sum of the central angle that it exists twice and the central angles contiguous to both sides.

Also, this objective is achieved through a wear piece of plasma torch, characterized in that has a cylindrical wall with a outer surface and a circular ring-shaped surface, provided on the outer surface n_ {see} deepening radial and n_ {vor} radial, circumferential projections, being n_ {see}, n_ {vor} \ geq 0 and n_ {see} + n_ {vor} \ geq 5, and in case of n = 5, the sum of two contiguous central angles, between those who are willing with a shift between them the projections or deepening or a projection and a deepening, is not ≥ 180 ° and the five central angles have different sizes, or in case of n> 5, the sum of two contiguous central angles, among those who are arranged with a shift between them the projections or deepening or a projection and a deepening, is not ge 180º and the n> 5 central angles have different sizes or at least two of the n> 5 central angles have the same size, being <180º respectively the sum of the angle central that exists twice and the central angles contiguous to both sides.

In addition, this objective is achieved through a plasma torch wear part holder, characterized because on its joining side it has a cylindrical wall with a inner surface, being provided on the inner surface n_ {vor} radial projections and n_ {see} radial deepening, circumferential, being n_ {vor}, n_ {see} \ geq 0 and n_ {vor} + n_ {see} \ geq 5, and in case of n = 5, the sum of two angles contiguous centrals, among which are arranged with a displacement between each other the projections or deepening or a projection and a deepening, is not? 180º, and the five central angles they have different sizes, or in case of n> 5, the sum of two contiguous central angles, among which are arranged with a displacement between each other the projections or deepening or a projection and a deepening, is not? 180º and the n> 5 angles central units have different sizes or at least two of the n> 5 central angles have the same size, being respectively <180º the sum of the central angle that exists twice and the contiguous central angles on both sides.

In the union it can be provided that the sum of two contiguous central angles (? and? or? and γ or γ and δ or δ and ε or ? and?) is? 170 °.

According to a special embodiment of the invention may be provided that n = 5 and that the sum of two contiguous central angles (? and? or? and?) or \ gamma and \ delta or \ delta or \ varepsilon or \ varepsilon and α) do not repeat.

It is also possible that the wear part of plasma torch present the first cylindrical wall and that the Plasma torch wear part holder present the second cylindrical wall.

Likewise, it may be provided that the relationship of the surfaces of a projection and a corresponding deepening be in the range of 1: 1 to 1: 4. For example, in the case of a rectangular groove and heel, like the ones represented in figures 6 and 7, the surface results from product of B and T, groove or heel.

Likewise, it may be provided that the relationship of the surfaces of the protruding numbers of each other and / or of the n_ {see} deepening each other is in the range of 1: 1 a 1: 4

According to a special embodiment, they are provided n_ {vor} equal radial projections and n_ {see} equal radial deepening.

Advantageously, the deepening are rectangular grooves However, they may also have another shape, for example, triangular, arched, etc.

Advantageously, on the inner surface of the second cylindrical wall, in front of the projections and / or the deepening, in the sense of union, a bevel is provided circumferential that extends radially outward. This way, the introduction of the first cylindrical wall is facilitated in the second cylindrical wall.

According to another special embodiment of the The invention may be provided that n_ {vor} is \ geq 5.

Alternatively, it would be possible for n_ {see} let \ geq 5.

Advantageously, a clamping device to hold the wear piece together of plasma torch and torch wear part holder of plasma. It can comprise, for example, a sleeve of subjection.

The plasma torch wear part can be a nozzle, an electrode, a nozzle protection cap or a component of the gas line, in particular, a plasma gas conduction component.

According to a special embodiment of the invention, the plasma torch wear part support is integral part of a plasma torch and transferred arc.

Alternatively, the piece holder of plasma torch wear is removably attached with a plasma torch.

According to a special embodiment of the invention, the plasma torch is a torch for jet cutting of plasma.

Alternatively, it can be a blowtorch for plasma jet welding.

The subordinate claims relating to Plasma torch wear part support refer to advantageous variants.

The invention is based on knowledge surprising that for the special amount and provisions special outgoing and corresponding deepening are get a simple and quick assembly between the wear piece of plasma torch and torch wear part holder of plasma, without binding. Simply put the circular ring surface in contact with the projections, is say, put it in an assembly position and then turn it with respect to the projections until it reaches the position of assembly, in which, with an axial force of action, the protrusions and deepening enter into mutual engagement. This results especially advantageous in situations, in which the piece of wear of plasma torch and / or wear part holder Plasma torch is not optically accessible. This is because Quick change, so to speak, can be done blindly.

In addition, the invention offers a union between the wear piece of plasma torch and support part of torsion-proof plasma torch wear, with a very low tolerance between the axes of the wear part of plasma torch and torch wear part holder of plasma, and with a high centricity.

Description of the figures

More features and advantages of the invention result from the claims and the following description, in which are described in detail two embodiments with the Schematic drawings help. They show:

Figure 1 a sectional view of a part front of a plasma torch head, according to a form of special embodiment of the invention;

Figure 2 a perspective view of a nozzle and a nozzle holder according to a special embodiment of the present invention, before joining them;

Figure 3 a view similar to Figure 2, but being also input and return channels of water;

Figure 4 two perspective views of a electrode and an electrode holder, before joining them;

Figure 5 a view similar to Figure 4, but being also input and return channels of water;

Figure 6 a sectional view of the nozzle and the nozzle holder of Figure 2 in the assembly position; Y

Figure 7 a sectional view of the electrode and of the electrode holder of figure 4, in the position of assembly

Preferred Embodiment of the Invention

Figure 1 shows a torch head 1 of plasma, with a nozzle cap 2, a conduction component of plasma gas 3, a nozzle 4, a nozzle holder 5, a electrode holder 6, an electrode 7, a support 8 of the cover nozzle protection, an insulating piece 8a and a cover 9 nozzle protection.

In figures 2 and 3 they are represented respectively a nozzle 4 for a torch to cut plasma and a nozzle holder 5 for the nozzle. The nozzle 4 has a cylindrical wall 41 with an outer surface 41a and a circular ring surface 42, the latter also fulfilling the function of the (second) support surface. The nozzle holder 5 it has a cylindrical wall 51 with an inner surface 51a and a bearing surface 546. The inner diameter D52 of the wall cylindrical 51 is larger than the outer diameter D41a of the wall cylindrical 41. On the outer surface 41a are provided circumferential shape five equal rectangular slots, only two of which they can be seen and are provided with references 431 and 435.

On the inner surface 51a they are provided with circumferential shape five equal, corresponding heels, only three of which can be seen and are designated by the references 532, 533 and 534.

In addition, the nozzle holder 5 presents, in direction towards the nozzle 4, in front of the heels 532 to 534, a bezel 52 which extends outward and facilitates the introduction of the nozzle 4. The inner diameter D52 corresponds to the diameter at the upper edge of bevel 52 and provides a set S = (D52-D41a) / 2. After passing the bevel 52, it is reduced to inner diameter D51a, to reduce the play S = (D51a-D41a) / 2 almost to zero. In this way, you can Simplify positioning, ensuring the At the same time a high centricity.

In figure 3 they are represented additionally, in front of figure 2, a feed duct of water 53 and a water return duct 54, as well as a channel of water supply 43 and a water return channel 44. This embodiment corresponds to figure 1.

To improve water cooling for the nozzle 4, the water supply channel 43 and the channel of water return 44 are incorporated in the nozzle 4. Of this shape, the cooling water reaches the inside of a groove void 45 which cools the most requested part especially well thermally of the nozzle 4, namely the nozzle channel 46. Al opposite of figure 2, the cooling water is fed directly to that area. In the embodiment according to the Figure 2 a secondary flow can be formed, through which a part of the cooling water that will then not be available for cooling the nozzle channel 46. It is possible to determine, by design of the nozzle 4 and the protective cap 9 of the nozzle, the ratio of the parts of the cooling water that, through the annular groove 45, cool the nozzle channel 46 and the surface exterior 47 conical.

Channel Cooling Improvement nozzle while maintaining the cooling of all the nozzle surface, results from the built-in channels of water supply 43 and water return 44, as well as by a widening, that is, an increase in the conical areas of the themselves, in combination, for example, with a standard cover of nozzle. It is guaranteed that there is always a water film moved, closed over the conical section of the nozzle, while through the annular groove around the nozzle channel flows the largest part of the cooling medium. The relationship of surfaces can be in the range of 3: 1 to 20: 1 (cooling channel: conical outer surface).

The unique positioning of the nozzle 4 with with respect to the nozzle holder 5 by the heels and the grooves serves to improve the cooling of the nozzle 4. Also, by the heels and grooves are easy to assemble, at the same high centricity time in the final assembled position.

Figure 4 shows something corresponding for a electrode 7 and an electrode holder 6. Electrode 7 has a wall cylindrical 71 with an outer surface 71a, a surface of circular ring 72 and a support surface 746. The electrode holder 6 has a cylindrical wall 61 with an inner surface 61a and a bearing surface 646. The inside diameter D61 a of the cylindrical wall 61 is larger than the outer diameter D71 a of the cylindrical wall 71. On the outer surface 71a are provided circumferentially five equal slots, only two of the which can be seen and are provided with references 731 and 735

On the inner surface 61a they are provided with circumferential shape five equal, corresponding heels, only three of which are designated with references 632, 633 and 634.

In addition, the electrode holder 6 presents, in front of heels 632 to 634, towards the electrode 7, a bevel 62 which extends outward and facilitates the introduction of electrode 7. The inner diameter D62 corresponds to the diameter in the upper edge of bevel 62 and provides a set S = (D62-D71a) / 2. After passing the bevel 62, it is reduced to inner diameter D52 to reduce the game almost to zero.

To improve the cooling of electrode 7, in the connecting end is provided a division in a channel of water supply 73 and a water return channel 74 by a separation wall 75 and, in the electrode holder 6, a wall of 65 separation for division in a water supply channel 63 and a water return channel 64 (see Figure 5).

In Figure 6, heels 431 to 435 of the nozzle 4 are represented while in engagement with the heels 531 to 535 of the nozzle holder 5 in the assembly position. Dice that the sum of two contiguous central angles of the angles centrals α, β, γ, δ and ε, between which the slots 431 to 435 are arranged, is not? 180º, and the five central angles have different sizes, only in this assembled position it is possible to engage all Heels with all slots. In all other positions radial, called assembly positions, the ring surface Circular 42 rests on at least three heels.

Figure 7 shows the assembly position corresponding and the corresponding conditions for the position of assembly of electrode 7 and electrode holder 6.

In the embodiments represented previously, the deepening and protrusions or heels and grooves They are arranged and sized so that it is no longer possible turn the nozzle and the nozzle holder or the electrode and the electrode holder after reaching the assembly position.

The characteristics of the invention, set forth in the present description, in the drawings and in the claims, can be essential, both individually and in any combination, for the realization of the invention in Its various embodiments.

List of reference signs

one

Plasma torch head

2

Nozzle cap

3

Gas conduction component of plasma

4

Nozzle

5

Nozzle holder

6

Electrode holder

7

Electrode

8

Protective Cap Holder nozzle

8a

Insulating piece

9

Nozzle Protection Cap

41

Cylindrical wall

41st

Outer surface

42

Circular ring-shaped surface

43

Water feed channel

44

Water return channel

Four. Five

Annular groove

46

Nozzle channel

47

Outer surface

51

Cylindrical wall

51st

Inner surface

52

Bezel

53

Water input

54

Water return

61

Cylindrical wall

61a

Inner surface

62

Bezel

63

Water feed channel

64

Water return channel

71

Cylindrical wall

71a

Outer surface

72

Circular ring-shaped surface

73

Water feed channel

74

Water return channel

431, 432, 433, 434, 435

Slots

531, 532, 533, 534, 535

Heels

546

Support surface

631, 632, 633, 634, 635

Heels

646

Support surface

65

Separation wall

731, 732, 733, 734, 735

Slots

746

Support surface

75

Separation wall

B

Average width of heels and grooves

D41a

External diameter

D51a

Inside diameter

D52

Inside diameter

D61a

Inside diameter

D62

Inside diameter

D71a

External diameter

PG

Plasma gas

SG

Secondary gas

T

Average depth or height of the heels and the slots

WR1, WR2

Water returns

WV1, WV2

Water advances

a B C D E

Arc measurements between the symmetry axes of the heels or grooves in the contour of diameter D in mm

α, β, γ, δ, ε

Angle central between the symmetry axes of the heels or the slots

Claims (13)

1. Plasma torch wear part support, characterized in that on its joining side it has a cylindrical wall (51; 61) with an inner surface (51a; 61a), being provided on the inner surface (51a; 61a) n_ {vor} radial deepening and n_ {see} radial projections, circumferentially, being n_ {vor}, n_ {see} \ geq 0 and n_ {vor} + n_ {see} \ geq 5, and in case of n = 5, the sum of two contiguous central angles (? And? Or? And? Or? Or? And? Or? And? Or? And?), Among which are arranged with a displacement between if the projections or deepening or a projection and a deepening, it is not? 180 ° and the five central angles (?,?,?,?,?) have different sizes or in case of n> 5, the sum of two contiguous central angles (? and? or? and? and? or? and? or? and? or? and?), between which they are arranged with a displacement to each other the projections or recesses or a projection and a deepening, is not ≥ 180 ° and the n> 5 central angles (α, β, γ, δ, ε) have different sizes or at least two of the n> 5 central angles (a, p, y, 8, E) have the same size, being <180º respectively the sum of the central angle that exists twice and the contiguous central angles (? and? or? and δ or γ and ε or γ and α or ε and β) on both sides. 2. Plasma torch wear part support according to claim 1, characterized in that the sum of two contiguous central angles (α, β, γ, δ, ε) is ≤ 170 °. 3. Plasma torch wear part holder according to claim 1 or 2, characterized in that n = 5 and the sum of two contiguous central angles (α and β or β and γ or γ and δ or δ and ε or ε and α) is not repeated. 4. Plasma torch wear part support according to one of claims 1 to 3, characterized in that the ratio of the surfaces of a projection and a corresponding deepening is in the range of 1: 1 to 1: 4. 5. Plasma torch wear part support according to any one of claims 1 to 4, characterized in that the ratio of the surfaces of the protruding n_ {vor} to each other and / or the n_ {see} deepening of each other is situated in the range of 1: 1 to 1: 4. 6. Plasma torch wear part support according to one of claims 1 to 4, characterized in that no equal radial projections are provided and no equal radial deepening. 7. Plasma torch wear part support according to one of claims 1 to 6, characterized in that the projections are rectangular heels (531, 532, 533). 8. Plasma torch wear part support according to one of claims 1 to 7, characterized in that on the inner surface (51a, 61a) of the cylindrical wall (51; 61), in front of the projections and / or the recesses , in the direction of connection towards the support side, a circumferential bevel (52, 62) is provided which extends radially outwards. 9. Plasma torch wear part holder according to one of claims 1 to 8, characterized in that n_ {vor} is ≥ 5. 10. Plasma torch wear part holder according to one of claims 1 to 9, characterized in that n_ {see} is ≥ 5. 11. Plasma torch wear part holder according to one of claims 1 to 10, characterized in that it is an integral part of a plasma torch. 12. Plasma torch wear part holder according to one of claims 1 to 11, characterized in that it can be removably connected with a plasma torch. 13. Plasma torch wear part support according to any of the preceding claims, characterized in that for its connection with a plasma torch wear part the cylindrical wall of the plasma torch wear part has an outer diameter D41a and The plasma torch wear part support has a cylindrical wall with an inner surface and an inner diameter D52 on its joining side, D52> D41a and an equal number of recesses and projections being provided on the inner surface in gear, in particular, which correspond to the recesses or projections on the outer surface of the cylindrical wall of the plasma torch wear part.