JP6215131B2 - Torch guide - Google Patents

Description

  The present invention relates to a torch guide used in a torch for blowing or welding a workpiece made of a metal material by injecting a flame or a plasma flame.

  Conventionally, each work of fusing or welding a workpiece made of a metal material has been performed by manually operating a torch for injecting a flame or a plasma flame. In these fusing operations or welding operations, a torch guide tool may be used to displace the torch while maintaining a predetermined interval and posture with respect to the workpiece. For example, Patent Document 1 below discloses a torch guide tool that is a rod body that is mounted on a workpiece and supports a crater of a torch.

Japanese Utility Model Publication No.59-99066

  However, since the torch guide described in Patent Document 1 is configured to only support the crater of the torch from below, the distance between the workpiece surface and the crater during the displacement of the torch and the workpiece surface There is a problem that it is difficult to perform accurate fusing or welding by easily changing the inclination with respect to the front, rear, left and right, that is, the posture.

  The present invention has been made to cope with the above-described problems, and the object thereof is to perform fusing or welding with high accuracy by displacing the torch while maintaining a predetermined interval and posture with respect to the workpiece. To provide a torch guide.

In order to achieve the above object, a feature of the present invention is that the workpiece is made of a metal material by injecting a flame or a plasma flame from a crater provided at one end of the torch main body that is held and operated by an operator. A torch guide used for a torch for fusing or welding an object, along a crater side fitting portion formed in a convex shape or a concave shape on an outer peripheral portion of a crater, and a processing portion for fusing or welding a workpiece. A guide body formed by extending along the processed portion a concave or convex guide-side fitting portion that is slidably fitted to the crater-side fitting portion on the guide body formed to extend. the crater side fitting portion formed on the concave or guide engaging portions are not formed in a depth deeper than the projecting amount of the guide engaging portions formed on the convex or crater side fitting portion Rukoto It is in.

  According to the feature of the present invention configured as described above, the torch guide tool includes a guide body in which a guide side fitting portion is formed on a guide body extending along a fusing line or a welding line, and the guide side fitting. Since the crater side fitting part that fits into the part is formed in the crater of the torch, the worker can work the crater by fitting the crater side fitting part to the guide side fitting part and displacing the torch. The object can be displaced while maintaining a predetermined interval and posture. Thereby, the torch guide can cause the torch to melt or weld the workpiece WK with high accuracy.

Another feature of the present invention is that, in the torch guide, the crater side fitting portion is formed integrally with the crater .

Another feature of the present invention is that, in the torch guide, the guide body has two formation surfaces on which guide-side fitting portions are formed, and these two formation surfaces correspond to the surface of the workpiece. This is because they are formed at different angles.

According to another aspect of the present invention, in the torch guide, the two forming surfaces are configured such that one forming surface is perpendicular to the surface of the workpiece and the other forming surface is the workpiece. It is inclining with respect to the surface of the object .

Another feature of the present invention is that, in the torch guide tool, the guide body can be held by a worker on a fixture made of a magnet facing the workpiece, and on the upper surface opposite to the fixture. And a handle extending in a rod shape.

Further, according to the present invention , in the torch guide, the crater side fitting portion is formed in a convex shape on the outer peripheral portion of the crater, and the guide side fitting portion is formed in a groove shape recessed in the guide body. can do. According to this, since the convex crater side fitting part is formed in the crater and the concave guide side fitting part is formed in the guide body, the torch guide tool can be used for a long time. Can be used stably. That is, the crater in the torch is generally a consumable, while the guide body is large and commonly used for a plurality of craters and is always provided at the work site for fusing and welding. When the fitting portion is damaged, the fusing operation and the welding operation are immediately delayed due to the repair of the guide side fitting portion and the remanufacture of the guide body itself. Therefore, the guide body can be used stably over a long period of time by forming a concave guide-side fitting portion that is not easily damaged.

Further, according to the present invention, in the torch guide tool, the guide side fitting portion can be formed to a depth deeper than a protruding amount of the crater side fitting portion. According to this, since the guide side fitting portion is formed at a depth deeper than the protruding amount of the crater side fitting portion, the torch guide tool has a portion around the crater side fitting portion in the crater in the guide body. The torch can be stably displaced by reaching the peripheral portion of the guide-side fitting portion. Thereby, the torch guide can cause the torch to melt or weld the workpiece WK with high accuracy.

Further, according to the present invention , in the torch guide tool, the guide-side fitting portion can be formed to be inclined with respect to the surface of the workpiece on which the guide body is installed. According to this, since the guide side fitting portion is formed so as to be inclined with respect to the surface of the workpiece, the torch guide is a so-called opening in which the cutting surface is inclined with respect to the surface of the workpiece. Pre-processing can be performed with high accuracy.

Further, according to the present invention, in the torch guide tool, each of the crater side fitting portion and the guide side fitting portion may be formed in a square shape in cross section. According to this, since each cross-sectional shape in the crater side fitting portion and the guide side fitting portion is formed in a square shape, the torch guide tool is fitted with the crater side fitting portion to the guide side fitting portion. When the torch is displaced, the torch can be displaced in a constant posture by preventing the torch from falling forward, backward, left and right. Thereby, the torch guide can cause the torch to melt or weld the workpiece WK with high accuracy.

In the torch guide tool according to the present invention, the guide body may have a fixing tool made of a magnet facing the workpiece. According to this, the torch guide tool has a fixture made of a magnet whose guide body faces the workpiece, so that the adhesion of the guide body to the workpiece is improved, and each work of fusing or welding is performed. Misalignment of the guide body inside is prevented. Thereby, the torch guide can cause the torch to melt or weld the workpiece WK with high accuracy.

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It is a perspective view which shows the outline of each external appearance structure of the torch guide implement and torch which concerns on one Embodiment of this invention in a use condition, respectively. It is a partially broken side view which shows the outline of the external appearance structure of the torch guide shown in FIG. 1 in use condition. It is a bottom view which shows the outline of the external appearance structure of the guide body in the torch guide tool shown in FIG. It is a partially broken side view which shows the outline of the external appearance structure of the torch guide tool which concerns on the modification of this invention in use condition. It is a partially broken side view which shows the outline of the external appearance structure of the torch guide tool which concerns on the other modification of this invention in use condition. It is a partially broken side view which shows the outline of the external appearance structure of the torch guide tool which concerns on the other modification of this invention in use condition.

Hereinafter, an embodiment of a torch guide according to the present invention will be described with reference to the drawings. FIG. 1 is a perspective view showing an outline of an external configuration of a torch guide 200 according to the present invention in a use state. The torch guide 200 guides a torch 100 that blows a workpiece WK made of a metal material such as a steel plate vertically on the workpiece WK by injecting a flame F onto the workpiece WK made of a steel plate. It is an instrument to do.

(Configuration of torch 100)
First, the torch 100 used for the fusing work of the workpiece WK will be described. The torch 100 is an instrument for injecting a flame F (strictly speaking, flame and oxygen gas) in order to melt the workpiece WK, and includes a torch main body 101 extending in a rod shape. The torch main body 101 constitutes a main part of the torch 100, and is constituted by a grip pipe 102, an oxygen adjusting part 103, a combustion gas supply pipe 104, a cutting gas supply pipe 105, a torch head 106 and a crater 107.

  The grip tube 102 is a portion that is gripped by the worker U (only the hand of the worker is shown), and is a portion that guides the flammable gas and the oxygen gas to the oxygen adjusting unit 103, and is piped inside the metal rod-shaped body. Is formed. A combustible gas hose 91 that supplies combustible gas is connected to one end of the grip tube 102 via a flow rate adjusting valve 102a, and an oxygen gas hose 92 that supplies oxygen gas is connected to the end of the grip tube 102. In this case, acetylene gas, propane gas, or natural gas can be used as the combustible gas. On the other hand, an oxygen control unit 103 is formed at the other end of the grip tube 102.

The oxygen adjusting unit 103 is a part that guides combustible gas to the combustion gas supply pipe 104 and adjusts the amount of oxygen gas supplied to the combustion gas supply pipe 104 and the cutting gas supply pipe 105, respectively. Piping is formed in the interior of the. The oxygen regulatory unit 103, the flow regulating valve 103b to adjust the supply amount of oxygen gas to the flow rate regulating valve 103a and the cutting gas supply pipe 105 to adjust the supply amount of oxygen gas to the combustion gas supply pipe 104 are respectively provided ing.

  The combustion gas supply pipe 104 is a metal pipe for guiding the combustion gas, which is a mixture of combustible gas and oxygen gas, to the torch head 106. The cutting gas supply pipe 105 is a metal pipe for guiding a cutting gas made of oxygen gas to the torch head 106.

  The torch head 106 is a part for guiding the combustion gas and the cutting gas to the crater 107, and is configured by forming a pipe inside a metal rod-like body. A combustion gas supply pipe 104 and a cutting gas supply pipe 105 are connected to one end of the torch head 106, and a crater 107 is detachably connected to the other end.

  The crater 107 is a nozzle that generates a flame F by injecting combustion gas and cutting gas, respectively, and is configured by forming a metal material (for example, brass) into a cylindrical shape. As shown in FIG. 2, the crater 107 has a combustion gas injection hole 107b composed of a plurality of through holes for guiding and injecting combustion gas around a cutting gas injection hole 107a composed of a through hole for guiding and injecting the cutting gas. Are formed respectively.

(Configuration of torch guide 200)
As shown in FIG. 2, the torch guide tool 200 mainly includes a crater side fitting portion 201 and a guide body 210. The crater side fitting portion 201 is a portion that is slidably fitted to a guide side fitting portion 212 described later, and is formed in a ring shape that protrudes along the entire outer periphery of the crater 107. Has been. In this case, the crater side fitting portion 201 is formed in a square cross section. In the present embodiment, the crater side fitting portion 201 is formed with a width of 4 mm and protruding from the outer peripheral surface of the crater 107 by 0.3 mm. The crater side fitting portion 201 is formed by cutting the outer peripheral portion of the crater 107. That is, the crater side fitting portion 201 is formed integrally with the crater 107.

  The guide body 210 is an instrument for guiding the torch 100 on the workpiece WK through the crater 107, and is constituted by a guide main body 211 in which a metal material (for example, steel material) is formed in a rod shape. More specifically, the guide main body 211 has a flat bottom surface that can be stably placed on the workpiece WK, and is formed in a rod shape that extends along a fusing line L that melts the workpiece WK. Yes. In this case, the fusing line L is a portion where the workpiece WK is cut, in other words, a line scheduled to be cut, and is not necessarily displayed on the workpiece WK. In the present embodiment, the guide main body 211 is formed by linearly extending a steel material having a square cross-sectional shape. Further, the guide main body 211 is formed with a length equal to or longer than the cutting length of the workpiece WK.

  In the guide body 211, a guide side fitting portion 212 is formed on a forming surface 211a which is one of two side surfaces extending in the longitudinal direction. The guide-side fitting portion 212 is a portion into which the crater-side fitting portion 201 is detachably fitted, and is formed in a groove shape that is recessed in the longitudinal direction of the guide body 211. In this case, the guide-side fitting portion 212 is formed in a shape in which the crater-side fitting portion 201 is fitted, that is, the cross-sectional shape is a square shape. In the present embodiment, the guide-side fitting portion 212 is formed with a width of 4.2 mm and a depth of 0.7 mm from the side surface of the guide body 211. That is, the guide side fitting part 212 is formed to a depth deeper than the protruding amount of the crater side fitting part 201.

Further, the guide side fitting portion 212 is formed at a predetermined height position from the bottom surface of the guide main body 211. In this case, the predetermined height position at which the guide side fitting portion 212 is formed means that the flame F injected from the crater 107 when the crater side fitting portion 201 is fitted to the guide side fitting portion 212 is covered. It is a position that is positioned at a position suitable for cutting the workpiece WK. The predetermined height position where the guide side fitting portion 212 is formed is set as appropriate according to the thickness of the workpiece WK.

As shown in FIG. 3, a fixture 213 is provided on the bottom surface of the guide main body 211. The fixture 213 is for detachably fixing the guide body 211 to the surface of the workpiece WK, and is provided facing the surface of the workpiece WK. In the present embodiment, the fixture 213 is configured by embedding a plurality of magnets along the longitudinal direction on the bottom surface of the guide body 211. In this case, the magnets constituting the fastener 213 is also one good can be more effectively prevent rotation displacement of the guide Body 211 by providing two or more. Note that the fixing tool 213 only needs to be able to detachably fix the guide main body 211 to the surface of the workpiece WK, and may be configured by a component other than a magnet, such as a suction cup, a hook, or a bolt.

  On the other hand, a handle 214 is provided on the upper surface of the guide body 211. The handle 214 is a handle used when carrying the guide main body 211 or attaching / detaching the guide main body 211 to / from the workpiece WK.

(Operation of torch guide 200)
Next, the operation of the torch guide 200 configured as described above will be described. First, the worker U who performs the fusing work of the workpiece WK prepares the torch 100 and the torch guide tool 200, respectively. In this case, a crater 107 in which a crater side fitting portion 201 is formed is attached to the torch head 106 in the torch 100.

  Next, the operator U sets the guide body 210 in the torch guide tool 200 on the workpiece WK. Specifically, the operator U grasps the handle 214 in the guide body 210 and lifts the guide main body 211, along the fusing line L at a position adjacent to the fusing line L that is a cutting position on the workpiece WK. A guide body 211 is arranged. In this case, the worker U is arranged so that both end portions of the guide main body 211 protrude from both end portions of the workpiece WK. Thereby, the guide body 210 is fixed on the workpiece WK by magnetic adsorption by the fixture 213 provided on the bottom surface of the guide body 211 in a state where both ends of the guide body 211 protrude from both ends of the workpiece WK. Arranged.

  Next, the worker U starts the cutting work of the workpiece WK. Specifically, the operator U holds the torch main body 101 and appropriately operates the flow rate adjusting valves 102a, 103a, and 103b, respectively, so that the flame F is ejected from the tip of the crater 107 in the state where the crater 107 is injected. The crater side fitting part 201 is fitted to the guide side fitting part 212 formed in the guide main body 211. In this case, the worker U fits the crater side fitting portion 201 to the end portion on the back side of the both ends in the longitudinal direction of the guide side fitting portion 212.

  Next, the operator U operates the pulling of the torch body 101 to displace the flame F with respect to the workpiece WK, thereby cutting the workpiece WK from one (back side) end. . In this case, the operator U slides the crater side fitting portion 201 within the guide side fitting portion 212 while pressing the outer peripheral surface of the crater 107 against the forming surface 211 a of the guide main body 211 by operating the torch main body portion 101. Displace while moving. Thus, the worker U displaces the crater side fitting portion 201 in a state of being fitted in the guide side fitting portion 212, whereby the distance and posture of the crater 107 with respect to the workpiece WK become a constant distance and posture. Therefore, the workpiece WK can be fused with high accuracy. In this case, since the guide main body 211 is in close contact with the surface of the workpiece WK by the fixture 213 made of a magnet, the workpiece WK is processed even when the torch main body 101 is pressed against the guide main body 211. Is prevented from being displaced.

Next, when the worker U displaces the torch 100 to the other end (worker U side) of the workpiece WK and completely cuts the workpiece WK, the operator U operates the torch main body 101. After extinguishing the flame F, the guide body 211 is removed from the workpiece WK. Thereby, the worker U can finish the fusing work of the workpiece WK. Note that the worker U cuts the workpiece WK by pulling the crater 107 of the torch 100 from the side farther from the torch 100 to the side closer to the worker U. In addition to being able to cut, the work piece WK can also be cut by displacing the crater 107 in its left-right direction.

As can be understood from the above description of operation, according to the above embodiment, the torch guide tool 200 includes the guide body 210 in which the guide side fitting portion 212 is formed on the guide body 211 extending along the fusing line L. Since the crater side fitting portion 201 that fits into the guide side fitting portion 212 is formed in the crater 107 of the torch 100, the operator U fits the crater side fitting portion 201 into the guide side fitting portion 212. By displacing the fusing torch 100 together, the torch 100 can be displaced while maintaining a predetermined interval and posture with respect to the workpiece WK. Thereby, the torch guide 200 can melt the workpiece WK with high accuracy.

  Furthermore, in carrying out the present invention, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the object of the present invention.

  For example, in the above embodiment, the formation surface 211a, which is the side surface of the guide main body 211 where the guide-side fitting portion 212 is formed, is formed so as to be perpendicular to the surface of the workpiece WK. However, the formation surface 211a is not necessarily formed so as to be perpendicular to the surface of the workpiece WK. That is, the formation surface 211a can be formed to be inclined at a predetermined angle with respect to the surface of the workpiece WK, for example, as shown in FIGS. Among these, in the guide body 210 shown in FIG. 4, the two formation surfaces 211a of the guide body 211 are formed at different inclination angles α1 (45 °) and α2 (55 °). In the guide body 210 shown in FIG. 5, one of the two formation surfaces 211a of the guide main body 211 is formed with an inclination angle α1 (45 °), and the other formation surface 211a is formed as described above. Like the form, they are formed vertically. Moreover, in the guide body 210 shown in FIG. 6, while forming one formation surface 211a of the two formation surfaces 211a in the guide main body 211 at the inclination angle α2 (55 °), the other formation surface 211a is formed. Like the above embodiment, it is formed vertically. According to these, the torch guide tool 200 tilts the crater 107 with respect to the surface of the workpiece WK because the guide side fitting portion 212 is inclined with respect to the surface of the workpiece WK. In other words, so-called groove machining with an inclined cut surface can be performed with high accuracy.

  In the above-described embodiment, the guide body 210 has one guide-side fitting portion 212 formed in the guide main body 211. However, the guide body 210 can form two or more guide-side fitting portions 212 on one forming surface 211 a of the guide main body 211, and two or more guide-side fitting portions on the entire guide main body 211. 212 may also be formed.

  Moreover, in the said embodiment, the guide side fitting part 212 is formed in the depth deeper than the protrusion amount of the crater side fitting part 201. FIG. Thereby, the torch guide tool 200 stably displaces the torch main body 101 by placing the peripheral portion of the crater side fitting portion 201 in the crater 107 to the peripheral portion of the guide side fitting portion 212 in the guide main body 211. Can be made. However, the guide side fitting portion 212 may be formed to a depth equal to or less than the protruding amount of the crater side fitting portion 201.

  Moreover, in the said embodiment, the crater side fitting part 201 and the guide side fitting part 212 each comprised the cross-sectional shape in the shape of a square. However, the crater-side fitting portion 201 and the guide-side fitting portion 212 may have any shape that can be slidably fitted to each other, and may be formed in a shape other than a square shape, for example, a semicircular shape or a triangular shape. It can also be configured. That is, the shapes and dimensions (sizes) of the crater side fitting portion 201 and the guide side fitting portion 212 are not limited to the above embodiment, and are appropriately set according to the cutting object and cutting use. is there.

Moreover, in the said embodiment, the crater side fitting part 201 was integrally formed over the perimeter of the outer peripheral part of the crater 107. As shown in FIG. However, the crater-side fitting portion 201 may be provided at least at a part of the outer peripheral portion of the crater 107 and may be configured separately from the crater 107. In this case, the crater side fitting portion 201 can be fixed to the crater 107 by welding, brazing, adhesion, or screws.

  In the above embodiment, the fixture 213 is provided on the bottom surface of the guide body 210. However, the guide body 210 may be configured by omitting the fixture 213. In this case, the guide body 210 can be stably disposed on the workpiece WK by the weight of the guide main body 211.

  In the above embodiment, the torch guide 200 is configured by forming the convex crater side fitting portion 201 at the crater 107 and forming the concave guide side fitting portion 212 at the guide body 211. However, the torch guide 200 can be configured by forming the concave crater side fitting portion 201 in the crater 107 and forming the convex guide side fitting portion 212 in the guide body 211.

  Moreover, in the said embodiment, the torch 100 was comprised with the torch for fusing which melts the workpiece WK. However, the torch 100 can also be constituted by a welding torch for welding the workpiece WK. Further, the torch 100 was configured to inject the flame F from the crater 107 to melt the workpiece WK. However, the torch 100 may be one that melts the workpiece WK using a plasma flame other than the flame F, for example. In addition to the steel plate, the workpiece WK may naturally be an iron plate such as H steel or an assembly or combination of iron plates.

U ... User, WK ... Workpiece, L ... Fusing line, F ... Flame, α1, α2 ... Inclination angle,
91 ... Combustible gas hose, 92 ... Oxygen gas hose,
100 ... torch,
DESCRIPTION OF SYMBOLS 101 ... Torch main-body part, 102 ... Grip pipe, 102a ... Flow control valve, 103 ... Oxygen control part, 103a, 103b ... Flow control valve, 104 ... Combustion gas supply pipe, 105 ... Cutting gas supply pipe, 106 ... Torch head, 107 ... crater, 107a, 107b ... injection hole,
200 ... torch guide, 201 ... crater side fitting part,
210 ... guide body, 211 ... guide body, 211a ... formation surface, 212 ... guide-side fitting portion, 213 ... fixing tool, 214 ... handle.

Claims (5)

A torch guide used for a torch for fusing or welding a workpiece made of a metal material by injecting a flame or plasma flame from a crater provided at one end of a torch main body that is held and operated by an operator. Because
A crater side fitting portion formed in a convex shape or a concave shape on the outer periphery of the crater,
A concave or convex guide-side fitting portion that slidably fits to the crater-side fitting portion on a guide body formed by extending the workpiece along the fusing or welding work portion. And a guide body formed extending along the processed portion ,
The crater side fitting portion or the guide side fitting portion formed in the concave shape,
A torch guide that is formed to a depth deeper than the protruding amount of the guide-side fitting portion or the crater-side fitting portion formed in the convex shape.

The torch guide device according to claim 1,
The crater side fitting portion is
A torch guide that is formed integrally with the crater . In the torch guide device according to claim 1 or 2,
The guide body is
A torch guide having two formation surfaces on which the guide-side fitting portions are formed, and these two formation surfaces are formed at different angles with respect to the surface of the workpiece . In the torch guide device according to claim 3 ,
The two forming surfaces are:
A torch guide device, wherein one forming surface is configured perpendicular to the surface of the workpiece, and the other forming surface is inclined with respect to the surface of the workpiece. In the torch guide tool according to any one of claims 1 to 4,
The guide body is
A fixture made of a magnet facing the workpiece;
The torch guide member, characterized in Rukoto which have a a handle extending in a rod shape which can be operator on the upper surface of the side opposite to grip the fastener.

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