KR20120003121U - hybrid type cutting machine for pipe - Google Patents

Abstract

The present invention relates to a hybrid cutter for automatic and manual combined,
The main body frame 100 is provided with a wheel 110 and a cutting torch 122 for spraying the flame, the main body frame 100 is an automatic motor 130 that operates automatically and a manual handle 140 that operates by manpower. It is characterized in that the object is cut by the flame sprayed from the cutting torch 122 while moving and operating automatically or manually by
It is possible to operate the cutter automatically and manually, so that it can be used regardless of where the power is supplied or not, and it can be automatically and manually selected whenever necessary according to the environment. The present invention relates to a hybrid cutter for automatic and manual combined use.

Description

Hybrid type cutting machine for pipe, automatic and manual

The present invention relates to an automatic and manual hybrid hybrid cutter, and more particularly, to an automatic and manual hybrid hybrid cutter that can be automatically operated by using the power of a motor and can also be operated manually as needed. will be.

In general, in the case of gas piping or high-pressure gas piping, a special argon welding method is used to cut or join the pipe. Particularly, for the connection, the pipe cut surface, which is a welded part, must be precisely cut.

Therefore, a cutter that can be installed and used on a pipe is designed and used for precise cutting work. The cutter with wheels is installed on a pipe using a chain provided separately, and the cutter moves along the chain along the chain. It is to be able to cut in a straight line.

At this time, the cutter is provided with a handle is a manual cutter which is configured to rotate the outer periphery of the pipe riding the chain while the power is cut through the gear when the handle is installed by holding the handle was proposed and used.

Such a manual cutting machine is known from Korean Patent Publication No. 92-4101 "Pipe Cutting Machine" on March 3, 1992, and July 5, 2000 of Magnetic Pipe Cutting Machine.

However, the conventional cutters as described above have been inconvenient to be operated only manually, and the automatic cutters have been proposed to improve the automatic operation by using the power of the motor. It is a situation that the automatic cutting machine is widely used because of the advantages of fast and relatively uniform cutting area.

 However, the above-mentioned manual cutters and automatic cutters are configured to be able to operate only by manual and automatic only by faithfully to their respective functions, and in particular, in the case of the widely used automatic cutters, they are used only automatically. As a matter of fact, there was a problem in that it could not be used in a place where power for driving a motor was not supplied or in an emergency situation in which power supply was cut off.

The present invention aims to solve the problems of the conventional manual and automatic cutters, and to obtain an automatic and manual hybrid hybrid cutter that can be conveniently used by allowing the cutter to be operated manually and automatically whenever necessary. .

The present invention achieves the above object by configuring the motor and the handle to be connected so as to automatically drive the cutter by using the motor and to drive the cutter by turning the handle after the motor is stopped or stopped.

According to the present invention, it is possible to operate the cutter automatically and manually, so that it can be used regardless of the place where electricity is supplied or not, and it can be automatically used whenever necessary in consideration of the use environment. It is possible to select and use manually, so that a convenient cutter can be obtained.

1 is a perspective view of a cutter according to the present invention,
Figure 2 is an operation example showing a state in which the cutter according to the present invention is installed in the pipe to cut,
3 and 4 is a perspective view showing a detailed configuration in several directions to remove the control box from the cutter according to the present invention,
5 is a plan view showing a planar configuration removed from the control box in the cutter according to the present invention,
6 is a front view showing a front configuration removing the control box from the cutter according to the present invention,
Figure 7 is an exemplary view showing a plan view by extracting the structure connected to the automatic motor and the manual handle sprocket according to the present invention,
Figure 8 is an exemplary view showing a front to extract the structure of the automatic motor and the manual handle connected to the sprocket according to the present invention,
9 is an exemplary view showing a configuration of a torch bundle according to the present invention,
10 is an operation example showing a state in which the cutting torch rises and falls in the torch bundle according to the present invention.

In the present invention is provided with a main body frame formed with a cutting torch for spraying wheels and sparks to achieve the above object, the main body frame is automatically or manually operated by an automatic motor and a manual handle operating by manpower We propose an automatic and manual hybrid hybrid cutter, characterized in that for cutting the object by the flame sprayed from the cutting torch while moving.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 10.

1 is a perspective view of a cutting machine according to the present invention, Figure 2 is an operation example showing a state in which the cutting machine according to the present invention is installed on a pipe, Figure 3, 4 is a detailed configuration removed the control box from the cutting machine according to the present invention 5 is a perspective view showing in several directions, Figure 5 is a plan view showing a plan configuration remove the control box from the cutter according to the present invention, Figure 6 is a front view showing a front configuration removed from the cutter according to the present invention, Figure 7 Exemplary view showing a plane connected to the sprocket and the automatic motor according to the invention design, Figure 8 is an exemplary view showing a front view of the structure connected to the sprocket automatic motor and the manual handle according to the present invention .

As shown in Figures 1 to 6 automatic and manual hybrid hybrid cutter according to the present invention (hereinafter referred to as "cutting machine") is a plurality of wheels 110 is formed in the body frame 100 is formed to be able to move A cutting torch 122 for injecting a flame is formed. Therefore, the main body frame 100 may move along the object to be cut and spray the flame through the cutting torch 122 to cut the object.

The main body frame 100 is automatically or manually operated and moved by an automatic motor 130 that operates automatically when electricity is supplied and a manual handle 140 that operates by manpower. Here, supplying or disconnecting electricity to the automatic motor 130 and controlling operations such as forward rotation, reverse rotation and speed are achieved by manipulating buttons of the control box 160.

The body frame 100 is preferably configured to move along the chain 200 to guide the progress. When moving along the chain 200 it is possible to cut the object while moving in a straight line, the chain 200 may be replaced by other means such as a belt if the way to guide the body frame 100.

The object that can be cut using the cutter according to the present invention can be a flat plate or a pipe 300, etc., in the present invention, the chain 200 is formed to form a closed curve is installed on the outer surface of the pipe 300, the main body The frame 100 is described with an example of cutting while moving along the outer surface of the pipe 300.

The main body frame 100 installed on the pipe 300 to cut the pipe 300 is the sprocket 150 formed in the main body frame 100 is fastened to the chain 200 formed in a closed curve shape, so that the outside of the pipe 300 The cutter of the present invention is seated on the surface. Thus, the configuration of installing the main frame 100 on the outer surface of the pipe 300 may adopt a known configuration that can be seen in the conventional manual cutting machine.

The sprocket 150 is installed on the main body frame 100 to enable the shaft rotation. When the sprocket 150 rotates, the main body frame 100 rides on the outer surface of the pipe 300 to open the chain 200. Move along. At this time, the wheel 100 formed on the main body frame 100 is in contact with the outer surface of the pipe 300, the cutter according to the present invention is smoothly moved.

The sprocket 150 is connected to an automatic motor 130 that is operated by electricity and a manual handle 140 that operates by manpower. Therefore, when supplying electricity to the automatic motor 130 by operating the control box 160, the sprocket 150 is automatically rotated to move the cutter automatically, the electricity is not supplied or the electricity is cut off the automatic motor ( In the stopped state 130, by holding the handwheel 140 and turning it, the sprocket 150 can be rotated manually, thereby allowing the cutter to be moved manually. For this reason, the cutter according to the present invention can be operated by selecting automatic or manual.

Hereinafter, the configuration in which the automatic motor 130 and the manual handle 140 are connected to the sprocket 150 will be described in detail.

As shown in Figures 1 to 6 the sprocket 150 is installed to enable the shaft rotation between the two rods erected at regular intervals on the main body frame 100. The two rods are erected in a direction perpendicular to the direction in which the cutter proceeds so that the sprocket 150 is installed in the same direction as the direction in which the cutter proceeds.

A portion of the sprocket 150 to which the chain 200 is connected may be formed in a gear shape according to the shape of the chain. However, the present invention is not limited to this configuration. When the chain 200 is replaced with a V belt, the chain 200 may be formed in various ways such as a groove having a V-shape.

As shown in FIGS. 7 and 8, the sprocket 150 may be configured in a form in which two gears having different diameters are integrally formed. In this way, the larger diameter of the automatic motor 130 and the manual handle 140 is connected to the gear, the smaller diameter is connected to the automatic motor 130 and the manual handle 140 by the chain 200 is connected. It is configured to be able to transfer power to the chain 200 selectively.

The automatic motor 130 connected to the sprocket 150 has a gear formed on the motor shaft so as to be engaged with the sprocket 150 to be operated. Of course, it is also possible to connect with a belt or the like in addition to the gear, it is preferable to connect using a gear in order to transmit power at an accurate rotation ratio.

The automatic motor 130 is connected to the side of the gear having a large diameter in the sprocket 150 is arranged to transmit power. At this time, the gear for connecting the automatic motor 130 and the sprocket 150, according to the installation position or need of the automatic motor 130 and the sprocket 150 can transmit power using one or more. In the present invention, it is illustrated in the drawings by connecting the automatic motor 130 and the sprocket 150 using two gears.

On the other hand, the manual handle 140 has a worm gear is formed at the end is installed so that the worm gear is connected to the upper end of the gear having a large diameter in the sprocket 150. Therefore, when the manual handle 140 is turned by hand, power is transmitted while the sprocket 150 rotates.

As described above, the automatic motor 130 is connected to the side portion of the sprocket 150 and the manual handle 140 is connected to the upper portion of the sprocket 150, so that the automatic motor 130 and the manual handle 140 are simultaneously sprockets. Maintains a connection with the 150. Therefore, when the automatic motor 130 rotates, the manual handle 140 also rotates at the same time. On the contrary, when the manual handle 140 is rotated, the automatic motor 130 also rotates. In this configuration, when one of the auto motor 130 and the manual handle 140 is operated, the sprocket 150 can be rotated.

Hereinafter, applied to the cutter according to the present invention as described above Cutting torch 122  The installation structure will be described in detail.

9 is by the present invention Torch  Exemplary diagram showing the configuration, Figure 10 according to the present invention In a torch bundle Cutting torch  An example of operation showing the state of rising and falling.

As shown is applied to the present invention Cutting Torch 122 Torch Bundle (120)  Is installed. Torch Bundle 120  As installed on the main body frame 100 by a rod formed to a predetermined length, the adjustment knob 28a is configured to enable angle adjustment. And the fixing hole 124 is formed in the central portion said Cutting Torch (122)  At the end Combined  there is Operating tube (126)  remind In the fixing hole (124)  Sandwiched Combined  .

remind Actuator 126 is  Height is adjusted by the adjusting knob (28b), work Longitudinally along the outer surface of the tube (126) Rack gear (27)  Formed so that the adjusting knob 28b With rack gear (27)  When the adjustment knob 28b is rotated in engagement with Operating tube (126) Fastener It will rise and fall within 124.

Therefore, if necessary, by adjusting the two adjustment knobs (28a) (28b) Cutting Torch (122)  By finely adjusting the direction and the distance to the object to be cut can be maximized the cutting performance.

On the other hand, the above applied to the present invention Cutting Torch 122 Working tube 126 at the end Screw It can be fixed together, bar can be selected and replaced with a crater of various diameters depending on the thickness of the object to be cut. When the diameter of the crater is selected according to the thickness of the object as described above, it is possible to optimize the consumption of the cutting gas to prevent waste.

When the cutter according to the present invention described above is used, the chain 200 is wound around the pipe 300 in a state in which the cutter 200 is mounted on the outer surface of the pipe 300, and the coil 200 is wound around the pipe 300 and installed. By adjusting the tension of the cutting machine, the cutting torch 122 is lit in a state where the cutter is safely installed, and sparks are generated. Then, the control box 160 is operated to drive the automatic motor 130 or manually. Rotating the handle 140 is to cut the pipe 300.

100: main frame, 110: wheels,
10: torch bundle, 122: cutting torch,
124: fixing hole, 126: operating tube,
128a, 128b: Control knob, 130: Auto motor,
140: manual handle, 150: sprocket,
200: chain, 300: pipe.

Claims (5)

The main body frame 100 is provided with a cutting torch 122 for discharging the wheel 110 and the flame,
The main body frame 100 is an automatic motor 130 that operates automatically and a manual handle 140 that operates by manpower to automatically or manually operated to move the cutting object to the flame sprayed from the cutting torch 122 Automatic and manual hybrid hybrid cutter, characterized in that. The method according to claim 1,
The main body frame 100 is to move along the chain 200, the chain 200 is fastened to the sprocket 150 provided in the main body frame 100, the main frame by the rotation of the sprocket 150 100 will move,
The sprocket 150 is connected to the automatic motor 130 and the manual handle 140 at the same time automatic or manual combined hybrid type cutter, characterized in that rotated automatically or manually. The method of claim 2,
The chain 200 is configured to form a closed curve is installed on the outer surface in the pipe 300, the main body frame 100 is installed in the pipe 300, characterized in that the hybrid and automatic manual cutter. The method according to claim 1,
The manual handle 140 is an automatic and manual combined hybrid type cutter, characterized in that the prefabricated formed to be separated as needed. The method according to any one of claims 1 to 4,
remind Cutting Torch 122 Of the operating pipe (126)  Replaceable at the end Combined  Formed in the main frame 100 Torch Bundle (120)  Installed,
remind Torch Bundle 120  The fixing hole 124 is formed in the center portion Operating tube (126)  remind In the fixing hole (124)  Sandwiched Combined  Height is adjusted by adjusting knob (28b) Adjusted Automatic and manual combined, characterized in that Hybrid type  cutter.

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