KR102624155B1 - System for cutting by gas for selective range control and tilt prevention - Google Patents

Abstract

The present invention relates to a gas cutter system for selective movement range control and tilt prevention for cutting a predetermined material, comprising: a body part that forms a body and moves in a desired direction for cutting; Provided in the body part, a plurality of nozzle parts are arranged in parallel and spaced apart at regular intervals; a gas providing unit extending from the nozzle unit and providing a predetermined gas to the nozzle unit; A movement control unit provided on one side of the body part and controlling the moving distance of the body part; A clamping part provided on the other side of the body part, arranged in correspondence with the movement control part, moves according to the horizontal movement of the body part, and sets the left and right inclination of the body part; and an adjusting portion provided on one side of the body portion and fixing the nozzle portion on the other side to adjust the mutual spacing of the nozzle portion from the body portion.

Description

{System for cutting by gas for selective range control and tilt prevention}

The present invention relates to a cutter system utilizing a gas. More specifically, in order to cut and process a predetermined material, a plurality of nozzles are formed and the nozzles are moved in a desired direction to enable horizontal movement. This is a technical field regarding fuselage cutter systems to prevent tilting and selective movement range control to enable equal movement on both sides.

In order to cut an object made of steel, there is a method of cutting the object using a welding device that generates a flame with oxygen and gas.

Gas cutters, which cut by heating with a flame of oxygen, acetylene or hydrogen gas and blowing high-pressure oxygen, are mainly used for cutting steel and alloy steel.

The principle of the gas cutter is that the cutting part is preheated to 850-900 degrees with oxygen and acetylene gas flames burning at the tip, and then high-pressure oxygen is blown from the center of the tip. The iron burns to become iron oxide, and the melting point of the iron oxide is lower than that of steel, so it is oxidized. is cut at the same time.

In the case of a cutting machine where the worker directly applies heat to the cutting part through a torch, the quality of the result is not excellent because the worker directly holds the torch and then cuts the object, causing the cutting surface to be uneven or unable to be cut to a certain width. There was a problem that I couldn't do.

To solve this problem, a gas cutter has been developed that supports the torch and automatically performs pre- and post-cutting operations, and various technologies for gas cutters are being developed.

As a prior patent document for a device for cutting a metal plate, there exists, for example, “Apparatus and method for cutting a metal plate (Registration No. 10-0627486, hereinafter referred to as Patent Document 1).”

Patent Document 1 relates to a metal plate cutting device, and more specifically, to a metal plate cutting device that can minimize cutting noise generated from molten steel flowing from the cutting surface of the metal plate when cutting a post-metal plate using an oxygen torch. It's about.

Patent Document 1 refers to a melt-type cutting nozzle for cutting metal plates and cooling and re-solidification of the area cut by the cutting nozzle with water in order to minimize the flow of molten metal and form cutting tongue and to easily remove the inevitably formed cutting tongue. It is characterized by consisting of a water spray nozzle.

In addition, there is also a “method for minimizing the residue remaining after metal cutting (Publication No. 10-2022-0107579, hereinafter referred to as Patent Document 2).”

Patent Document 2 relates to a metal plate cutting device that can minimize cutting noise generated from molten steel flowing from the cut surface of the metal plate when cutting a thick metal plate using an oxygen torch. In order to minimize the flow of molten metal and form cutting tongue and to easily remove the inevitably formed cutting tongue, a melt-type cutting nozzle for cutting metal plates and a water spray nozzle that cools and re-solidifies the area cut by the cutting nozzle with water. It is characterized by consisting of.

In the case of Patent Document 2, the amount of cutting tongue generated can be dramatically reduced compared to the case of using a conventional cutting device, and the formed cutting tongue can also be easily removed from the metal plate due to residual stress.

In addition, there exists a “gas cutter equipped with a detachable rail (Registration No. 10-2433320, hereinafter referred to as Patent Document 3).”

In the case of Patent Document 3, a main body having a hollow portion therein; A guide portion provided on the lower side of the main body; and a rail portion supported so that the guide portion slides in the longitudinal direction of the major axis; wherein the rail portion includes a guide rail made of a flexible material; the guide portion includes a one-side guide portion supported on one side of the guide rail; Another guide portion supported on the other side of the guide rail; and a guide roller provided at each of one side guide part and the other guide part so as to be rotatable along a guide rail.

Registration number 10-0627486 Publication number 10-2022-0107579 Registration number 10-2433320

The gas cutter system for selective movement range control and tilt prevention according to the present invention was designed to solve the conventional problems described above, and presents the following problems to be solved.

First, it is moved in the desired direction in order to cut and process a predetermined material.

Second, by providing gas, the gas is ejected from the nozzle unit to enable cutting of a predetermined material.

Third, brushing is possible while moving on the rail so that foreign substances do not interfere with the movement.

The problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

The gas cutter system for selective movement range control and tilt prevention according to the present invention has the following means for solving the problems described above.

The present invention provides a gas cutter system for selective movement range control and tilt prevention for cutting a predetermined material, comprising: a body part that forms a body and moves in a desired direction for the cutting process; a plurality of nozzle parts provided in the body part and arranged in parallel at regular intervals; a gas providing unit extending from the nozzle unit and providing a predetermined gas to the nozzle unit; a movement control unit provided on one side of the body unit and controlling a movement distance of the body unit; a clamping part provided on the other side of the body part, disposed in correspondence with the movement control part, moving according to horizontal movement of the body part, and setting a left and right inclination of the body part; and an adjusting part provided on one side of the body part and fixing the nozzle part on the other side to adjust the mutual spacing of the nozzle part from the body part.

The movement control unit of the gas cutter system for selective movement range control and tilt prevention according to the present invention includes a moving control unit that forms a body and is disposed on one side of the body unit to provide positional movement to the body unit; and a first moving gear part that protrudes from the lower part of the moving control unit and forms gear teeth that oppose each other to the gear teeth of the first rail, wherein the first moving gear part rotates along the gear teeth of the first rail. , The moving control unit is moved in a desired direction so that the movement control unit moves back and forth.

The clamping part of the gas cutter system for selective movement range control and tilt prevention according to the present invention includes a moving following part that forms a body and is disposed on the other side of the body part and moves in response to the forward and backward movement of the movement control part; It is disposed to protrude from the lower part of the moving following part and is provided with a pair of rollers facing the second rail, so as to pressurize the inside and outside of the second rail to prevent arbitrary separation of the moving following part. pressing unit; a brush unit disposed to be spaced apart from the pressure pressing unit and provided on an upper part of the second rail to remove foreign substances on the upper part of the rail; and a second moving gear part that protrudes from the lower part of the moving following part and forms gear teeth opposing each other to the gear teeth of the second rail.

The nozzle part of the gas cutter system for selective movement range control and tilt prevention according to the present invention includes a main body part that is fixed to the adjusting part and forms a main body; a discharge portion extending from the main body portion and disposed at a lower portion to discharge high heat and a predetermined gas; a length adjustment part formed between the main body part and the nozzle part to adjust the length of the discharge part; an injection passage portion provided at an upper portion of the main body portion to provide a passage through which gas is injected from the gas providing portion; and a gas control unit provided at a predetermined position between the gas providing unit and the nozzle unit to control the amount of gas injected from the gas providing unit.

The gas providing part of the gas cutter system for selective movement range control and tilt prevention according to the present invention includes a first gas providing part for injecting first gas; and a second gas providing part for injecting a second gas, wherein the injection passage part is disposed to be spaced apart from the first gas providing part and the second gas providing part, and the movement amount of the first gas and the second gas is An injection control valve unit that selectively controls; And an internal damper is formed in the injection passage part, and the internal damper selectively moves according to the movement of the first gas and the second gas from the injection control valve unit to separate the first gas and the second gas. It is characterized by including a checking damper unit that prevents random flow.

The gas cutter system for selective movement range control and tilt prevention according to the present invention configured as described above provides the following effects.

First, in order to cut the material into the desired shape, the body and nozzle are moved in the desired direction according to the cutting process.

Second, cutting of materials is possible through gas ejection, and a plurality of shapes of workpieces are provided through a plurality of nozzles.

Third, smooth rail movement is possible through brushing along the movement.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

1 is a perspective view of a gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention.
Figure 2 is a partial perspective view of the body part, nozzle part, gas providing part, and adjusting part of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention.
Figure 3 is a partial perspective view of the movement control portion of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention.
Figure 4 is a partial perspective view of the clamping portion of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention.
Figure 5 is another partial perspective view of the clamping portion of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention.
Figure 6 is a front view of the clamping portion of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention.
Figure 7 is an internal cross-sectional view exemplarily showing a checking damper unit according to an embodiment of the present invention.
Figure 8 shows the gas providing unit being opened and closed by the checking damper unit according to an embodiment of the present invention.
Figure 9 is an internal cross-sectional view exemplarily showing an assist damper unit formed inside a checking damper unit according to an embodiment of the present invention.

The gas cutter system for selective movement range control and tilt prevention according to the present invention can be modified in various ways and can have several embodiments. Specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all changes, equivalents, and substitutes included in the technical spirit and scope of the present invention.

1 is a perspective view of a gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention. Figure 2 is a partial perspective view of the body part, nozzle part, gas providing part, and adjusting part of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention. Figure 3 is a partial perspective view of the movement control portion of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention. Figure 4 is a partial perspective view of the clamping portion of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention. Figure 5 is another partial perspective view of the clamping portion of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention. Figure 6 is a front view of the clamping portion of the gas cutter system for selective movement range control and tilt prevention according to an embodiment of the present invention. Figure 7 is an internal cross-sectional view exemplarily showing a checking damper unit according to an embodiment of the present invention. Figure 8 shows the gas providing unit being opened and closed by the checking damper unit according to an embodiment of the present invention. Figure 9 is an internal cross-sectional view exemplarily showing an assist damper unit formed inside a checking damper unit according to an embodiment of the present invention.

The gas cutter system for selective movement range control and tilt prevention for cutting and processing a predetermined material of the present invention includes a body portion 100, a nozzle portion 200, a gas providing portion 300, a movement control portion 400, It is a configuration including a clamp part 500 and an adjusting part 600.

The body portion 100 forms a bobby and moves in a desired direction for cutting.

The nozzle unit 200 is provided in the body unit 100 and is arranged in parallel at regular intervals.

A plurality of nozzle units 200 are disposed on the body unit 100, and the plurality of nozzle units 200 also move along the moving direction of the body unit 100.

The gas providing unit 300 is disposed to extend from the nozzle unit 200 and provides a predetermined gas to the nozzle unit 200.

The predetermined gas may correspond to oxygen, acetylene, hydrogen gas, etc., but it is desirable not to be limited to that type.

As shown in FIG. 1, the gas providing unit 300 supplies gas to the nozzle unit 200 from the upper part of the nozzle unit 200.

The movement control unit 400 is provided on one side of the body unit 100 and adjusts the moving distance of the body unit 100.

The clamping part 500 is provided on the other side of the body part 100, is arranged in correspondence with the movement control part 400, moves according to the horizontal movement of the body part 100, and controls the left and right tilt of the body part 100. Set .

As shown in FIG. 1, the movement control unit 400 and the clamping unit 500 are provided in a bridge-like form on one side and the other side of the body unit 100, and allow the movement of the body unit 100 Provides direction and movement.

The adjusting part 600 is provided on one side of the body part 100 and fixes the nozzle part 200 on the other side, thereby adjusting the mutual spacing between the nozzle part 200 and the body part 100.

In the case of the adjusting unit 600, the nozzle unit 200 is fixed to the body unit 100, and the mutual spacing between the nozzle units 200 in the body unit 100 is adjusted.

It is preferable that one adjusting unit 600 is provided in each nozzle unit 200 of the plurality of nozzle units 200.

The movement control unit 400 of the gas cutter system for selective movement range control and tilt prevention of the present invention includes a moving control unit 410 and a first moving gear unit 420.

The moving control unit 410 forms a body and is disposed on one side of the body unit 100 to provide positional movement to the body unit 100.

The first moving gear unit 420 is formed to protrude from the lower part of the moving control unit 410 and forms gear teeth opposing each other to the gear teeth 11 of the first rail 10.

The first moving gear unit 420 of the gas cutter system for selective movement range control and tilt prevention of the present invention rotates along the gear tooth 11 of the first rail, and moves the moving control unit 410 in the desired direction. This causes the movement control unit 400 to move back and forth.

As shown in FIG. 1, the gas cutter moves along the first rail 10 and the second rail 20, and as shown in FIG. 3, the movement control unit 400 moves along the first rail 10. moves along, and the clamping part 500 moves along the second rail 20.

That is, the gas cutter moves back and forth along the rails of the first rail 10 and the second rail 20.

The moving control unit 410 moves the entire body according to the rotation of the first moving gear unit 420.

The clamping part 500 of the gas cutter system for selective movement range control and tilt prevention of the present invention includes a moving following part 510, a pressure pressing part 520, a brush part 530, and a second moving gear part 530. It is a composition that includes.

The moving following part 510 forms a body and is disposed on the other side of the body part 100, and moves correspondingly according to the forward and backward movement of the movement control part 400.

The pressure pressing unit 520 is disposed to protrude from the lower part of the moving following unit 510 and has a pair of rollers facing the second rail 20 to press the inside and outside of the second rail 20. This prevents the moving following part 510 from randomly leaving and moves.

As shown in FIG. 6, the pressure pressing unit 520 is configured to press the second rail 20, and presses the second rail 20 by applying pressure from both sides.

In the case of the pressure pressing unit 520, as shown in FIG. 5, it may be provided on one side and the other side of the moving following unit 510, and the pressure pressing unit 520-1 provided on one side and the pressure provided on the other side Random departure of the moving following unit 510 can be prevented through the pressing unit 520-2.

The pressure pressing unit 520 moves by pressing the second rail 20 to prevent random deviation from left and right movement with respect to the moving following unit 510.

The brush unit 530 is disposed to be spaced apart from the pressure pressing unit 520 and is provided on the upper part of the second rail 20 to remove foreign substances on the upper part of the rail.

As shown in FIG. 6, the brush unit 530 removes foreign substances on the upper part of the rail, and moves along with the horizontal movement of the clamping unit 500 to remove foreign substances on the upper part of the rail.

The second moving gear unit 530 is formed to protrude from the lower part of the moving following unit 510 and forms gear teeth opposing each other to the gear teeth 21 of the second rail.

The first moving gear unit 420 and the second moving gear unit 530 are located on the sides of the movement control unit 400 and the clamping unit 500, and the body unit 100 moves on both sides of the gas cutter. becomes involved in

In the case of the pressure pressing unit 520, it rotates according to the rotation of the second moving gear unit 530, and provides movement in the second rail 20 through rotation.

In the case of the first moving gear unit 420 and the second moving gear unit 530, they rotate and move along the gear teeth 11 of the first rail and the gear teeth 21 of the second rail.

The first moving gear unit 420 and the second moving gear unit 530 are also provided on the outermost sides of the body unit 100 to prevent arbitrary separation during the back and forth movement of the body unit 100. .

The nozzle part 200 of the gas cutter system for selective movement range control and tilt prevention of the present invention includes a main body part 210, a discharge part 220, a length adjustment part 230, an injection passage part 240, and a gas It is a configuration including an adjustment unit 250.

As shown in FIG. 1, the nozzle unit 200 is provided in plural pieces, and the sub-configurations constituting the nozzle unit 200 are also provided in plural pieces.

As shown in Figure 2, the main body portion 210 is provided fixed to the adjusting portion 600 and forms a main body.

The adjusting part 600 fixes the main body part 210 of the nozzle part 200 to the body part 100.

The discharge portion 220 is formed to extend from the main body portion 210 and is disposed at the lower portion to discharge high heat and a predetermined gas.

The discharge unit 220 is provided at the bottom of the nozzle unit 200 to discharge high heat, and cutting of a predetermined material is achieved through the high heat of the discharge unit 220.

The predetermined material may correspond to iron, metal, etc.

The length adjustment part 230 is formed between the main body part 210 and the nozzle part 200 to adjust the length of the discharge part 220.

The nozzle unit 200 moves up and down through the length adjustment unit 230, and it is preferable to move the nozzle unit 200 through the length adjustment unit 230 according to a predetermined material.

The injection passage portion 240 is provided at the upper part of the main body portion 210 to provide a passage through which gas is injected from the gas providing portion 300.

The gas control unit 250 is provided at a predetermined position between the gas providing unit 300 and the nozzle unit 200 and adjusts the amount of gas injected from the gas injection unit.

In the case of the gas control unit 250, the gas injection amount can be adjusted through a valve by controlling the gas injection amount.

The gas providing unit 300 of the gas cutter system for selective movement range control and tilt prevention of the present invention includes a first gas providing unit 310 and a second gas providing unit 320.

The first gas provider 310 injects the first gas.

The second gas provider 320 injects the second gas.

The first gas and the second gas may each correspond to different gases, and the gases may be provided differently depending on the predetermined material (metal material) and the desired cutting processing type.

The injection passage part 240 of the gas cutter system for selective movement range control and tilt prevention of the present invention includes an injection control valve part 241 and a checking damper part 242.

The injection control valve unit 241 is disposed to be spaced apart from the first gas providing unit 310 and the second gas providing unit 320, and selectively controls the movement amounts of the first gas and the second gas.

As shown in FIG. 7, the checking damper unit 242 forms an internal damper in the injection passage unit 240, and the internal damper is formed according to the movement of the first gas and the second gas moving from the injection control valve unit 241. The damper moves selectively to prevent random flow of the first and second gases.

In the case of the injection control valve unit 241, the amount of gas provided to the nozzle unit 200 is adjusted and gas flowing back from the nozzle unit 200 is blocked to prevent backflow of the mixed gas. .

In the case of the checking damper unit 242, a plurality of assist damper units 243 may be included within the checking damper unit 242.

In the case of a plurality of assist damper units 243, each may operate individually.

As shown in FIG. 9, each of the plurality of assist damper units 243 can independently adjust the opening angle, and through independent adjustment of the opening angle, it is possible to prevent the inflow and backflow of gas.

In addition, the plurality of assist damper units 243 regulate the flow of gas by adjusting the opening angle, and the flow of gas forms turbulence in the gas flow in the checking damper unit 242, thereby allowing mixing of a plurality of gases. To make it happen.

The scope of rights of the present invention is determined by the matters stated in the patent claims, and the parentheses used in the patent claims are not used for selective limitation, but are used for clear elements, and the descriptions within the parentheses are also interpreted as essential elements. It has to be.

10: 1st rail
11: Gear of the first rail
20: Second rail
21: Gear of the second rail
100: body part
200: nozzle part
210: main body part
220: Discharge part
230: Length adjustment unit
240: Injection passage part
241: Injection control valve unit
242: Checking damper unit
243: Assist damper unit
250: gas control unit
300: Gas providing unit
310: First gas providing unit
320: Second gas providing unit
400: Movement control unit
410: Moving control unit
420: First moving gear unit
500: Clamping part
510: Moving following unit
520: Pressure pressing unit
530: Second moving gear unit
530: Brush unit
600: Adjusting unit

Claims (5)

In the gas cutter system for selective movement range control and tilt prevention for cutting and processing a predetermined material,
a body portion that forms a body and moves in a desired direction for the cutting process;
a plurality of nozzle parts provided in the body part and arranged in parallel at regular intervals;
a gas providing unit extending from the nozzle unit and providing a predetermined gas to the nozzle unit;
a movement control unit provided on one side of the body unit and controlling a movement distance of the body unit;
a clamping part provided on the other side of the body part, disposed in correspondence with the movement control part, moving according to horizontal movement of the body part, and setting a left and right inclination of the body part; and
One side is provided on the body part, and the other side includes an adjusting part that fixes the nozzle part and adjusts the mutual spacing of the nozzle part from the body part,
The movement control unit,
a moving control unit that forms a body and is disposed on one side of the body unit to provide positional movement to the body unit; and
It is formed to protrude from the lower part of the moving control unit and includes a first moving gear unit forming gear teeth opposing each other to the gear teeth of the first rail,
The first moving gear unit,
It rotates along the gear teeth of the first rail and moves the moving control unit in a desired direction so that the movement control unit moves back and forth,
The clamping part,
a moving following part that forms a body and is disposed on the other side of the body part, and moves in response to the forward and backward movement of the movement control part;
It is disposed to protrude from the lower part of the moving following part and is provided with a pair of rollers facing the second rail, so as to pressurize the inside and outside of the second rail to prevent arbitrary separation of the moving following part. pressing unit;
a brush unit disposed to be spaced apart from the pressure pressing unit and provided on an upper part of the second rail to remove foreign substances on the upper part of the rail; and
It is formed to protrude from the lower part of the moving following part and includes a second moving gear part forming gear teeth opposing each other to the gear teeth of the second rail,
The nozzle part,
a main body part that is fixed to the adjusting part and forms a main body;
a discharge portion extending from the main body portion and disposed at a lower portion to discharge high heat and a predetermined gas;
a length adjustment part formed between the main body part and the nozzle part to adjust the length of the discharge part;
an injection passage portion provided at an upper portion of the main body portion to provide a passage through which gas is injected from the gas providing portion; and
A gas cutter for selective movement range control and tilt prevention, comprising a gas control unit provided at a predetermined position between the gas provider and the nozzle portion and controlling the amount of gas injected from the gas provider. system.
delete delete delete The method of claim 1, wherein the gas providing unit,
a first gas providing unit for injecting first gas; and
It includes a second gas providing unit for injecting the second gas,
The injection passage part,
an injection control valve unit disposed to be spaced apart from the first gas providing unit and the second gas providing unit, and selectively controlling movement amounts of the first gas and the second gas; and
An internal damper is formed in the injection passage section, and the internal damper selectively moves according to the movement of the first gas and the second gas moving from the injection control valve unit to randomly adjust the first gas and the second gas. An airframe cutter system for selective movement range control and tilt prevention, comprising a checking damper portion to prevent flow.