KR100522038B1 - An apparatus for engraving the spiral groove in wire where the angle control of screw temper is possible - Google Patents

Abstract

The present invention relates to a screw bone forming apparatus of the iron wire capable of adjusting the angle of the screw bone, more specifically the housing; It is formed in one side of the housing, the wire input tube to which the iron wire is introduced, the lubricant processing unit for supplying a lubricating oil to smooth the screw bone formed on the wire wire is formed on the front of the wire input tube and the wire input tube, A fixed part formed on an opposite side and made of a fixed guide tube for guiding the incoming wire; As formed inside the other side of the housing, a rotary pulley for transmitting the rotational power, a rotary guide tube for transmitting the rotational power of the rotary pulley to the forming die and guides the forward movement of the steel wire formed with screw bone, and the rotary pulley Rotating portion consisting of a forming die having a forming blade for forming a screw bone on the iron wire while rotating by the rotational movement of; And an inverter motor unit having a rotating belt which is engaged with the rotating pulley of the rotating unit to control the rotational speed of the rotating pulley, wherein the forming die is rotated by the rotating action of the rotating pulley. By doing so, the screw bone is formed on the steel wire, and there is an advantage that the angle of the screw bone can be produced in various forms using an inverter motor.

Description

An apparatus for engraving the spiral groove in wire where the angle control of screw temper is possible}

The present invention relates to a screw bone forming apparatus of the iron wire capable of adjusting the angle of the screw bone, and more particularly, by rotating the molding die for forming the screw bone on the steel wire by the rotation action of the rotary pulley, the screw bone on the steel wire by the rotation of the molding die It is molded, and also relates to a screw bone forming apparatus characterized in that the rotation speed of the molding die can be adjusted using an inverter motor can be produced in various forms of the angle of the screw bone.

In general, a device for forming a screw bone in a wire rod, such as a conventional iron wire is advanced by rotating the wire rod, such as iron wire to the screw bone forming die in a state in which the screw bone forming die is fixed.

However, if the screw bone is formed on the wire such as steel wire by this method, since the wire must be rotated, the mechanism is not only large and complicated, but also the production speed is very slow, resulting in inefficient work efficiency and economicality. Has its drawbacks.

In addition, as the wire rods, such as steel wires, are injected into the forming die, the screw bones of various angles are formed by adjusting the speed of the advancement.

The present invention has been made to solve the above problems, not only to rotate the wire rods, such as iron wire, but also to form the screw bone at high speed by rotating the molding die itself by the rotation action of the rotary pulley as well as the It is an object of the present invention to provide an apparatus for forming a screw bone of the iron wire that can control the angle of the screw bone that can produce the angle of the screw bone by adjusting the rotation speed.

In order to achieve the above object, the screw bone forming apparatus of the iron wire capable of adjusting the angle of the screw bone according to the present invention and the housing; It is formed in one side of the housing, the wire input tube to which the iron wire is introduced, the lubricant processing unit for supplying a lubricating oil to smooth the screw bone formed on the wire wire is formed on the front of the wire input tube and the wire input tube, A fixed part formed on an opposite side and made of a fixed guide tube for guiding the incoming wire; As formed inside the other side of the housing, a rotary pulley for transmitting the rotational power, a rotary guide tube for transmitting the rotational power of the rotary pulley to the forming die and guides the forward movement of the steel wire formed with screw bone, and the rotary pulley Rotating portion consisting of a forming die having a forming blade for forming a screw bone on the iron wire while rotating by the rotational movement of; And an inverter motor unit having a rotating belt which is engaged with the rotating pulley of the rotating unit to control the rotating speed of the rotating pulley.

In addition, the housing according to an embodiment of the present invention is preferably configured to further include a cooling water inlet pipe or a cooling water outlet pipe for injecting the cooling water to cool the heat generated when forming the screw bone to the wire.

Hereinafter, the configuration of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a schematic diagram showing the flow of a process for forming a screw bone in the iron wire, according to a preferred embodiment of the present invention, Figure 2 is a screw bone shaping of the steel wire adjustable angle of the screw bone in accordance with a preferred embodiment of the present invention 3 is a cross-sectional view of the device, Figure 3 is a perspective view of a screw bone forming apparatus of the iron wire capable of adjusting the angle of the screw bone, according to a preferred embodiment of the present invention, Figure 4 is a screw bone forming apparatus according to a preferred embodiment of the present invention Some perspective views of the iron wire having a screw bone produced by each is shown.

Referring to Figure 1, the screw bone shaping apparatus of the iron wire angle control of the screw bone according to the present invention is the screw bone forming apparatus which is the device of the present invention via the input wire 10 is a rotating drum (20a) and roller (30) ( 40), and after the screw bone is formed is discharged to the outside via another rotating drum (20b).

At this time, the iron wire 10 should be maintained in a taut state while passing through the rotating drums 20a and 20b and the roller 30.

This is because the screw bone may be formed at regular intervals on the iron wire 10 by the screw bone forming apparatus 40 only if it is kept taut.

2 is a cross-sectional view of the screw bone forming apparatus 40 of the iron wire capable of adjusting the angle of the screw bone, according to an embodiment of the present invention.

Referring to Figure 2, the screw bone shaping apparatus 40 of the iron wire capable of adjusting the angle of the screw bone according to an embodiment of the present invention is a housing 100 of a predetermined shape, the fixing portion formed on the front of the housing 100 200, a rotating part 300 communicating with the fixing part 200, and an inverter motor part 400 for controlling the rotational speed of the rotating part.

The housing 100 is a fixed mold surrounding the fixing part 200 and the rotating part 300 formed therein.

The fixing part 200 is formed inside one side of the housing 100, and the wire input pipe 210 into which the wire 10 is inserted and the lubricant oil formed on the front surface of the wire input pipe 210 are supplied. The lubricating oil treatment unit 220 and the fixed guide tube 230 which is formed on the opposite side of the wire input tube 210 and guides the introduced iron wire 10 are formed to communicate with the inside of the housing 100. have.

Accordingly, the wire 10 introduced into the wire through the wire input tube 210 is supplied with lubricating oil from the lubricating oil treatment unit 300 so as to smoothly form the screw bone, and the wire 10 with the lubricating oil is fixed of the fixed guide pipe 230. It is formed to be guided to the rotating part 300 through the inside.

The fixed guide tube 230 is fixed to the housing 100.

In this case, it may be molded integrally with the housing 100 without the need to form a fixed guide tube 230 separately.

The rotating part 300 is formed on the front surface of the fixed guide tube 230.

The rotating part 300 is a device for forming a screw bone on the iron wire 10, the rotating pulley 310, and the rotating guide tube 320 for transmitting the rotational power of the rotating pulley 310 to the forming die 330 and , Forming die 330 for shaping the screw bone.

In addition, a bearing member 340 is provided on the opposite surface of the rotating part 300 and the housing 100 to stably rotate the rotating part 300 forward or reversely.

The forming die 330 is a device for shaping the screw bone on the iron wire 10 which is slid into the fixed guide tube 230, the forming blades (335a, 335b) is formed therein.

The position and shape of the forming blades 335a and 335b may be variously changed depending on the depth of the screw bone to be formed, the spacing of the screw bone, the rotational speed of the forming die 330, and the moving speed of the steel wire 10.

3 illustrates a cross section when two forming blades 335a and 335b of the forming die 330 are formed.

Therefore, the rotary guide tube 320 receives the rotational power by the rotary pulley 310, and as the molding die 330 is rotated, the forming blades 335a and 335b inside the molding die 330 slide in a straight line. To form a screw bone 12 by digging a groove in the form of a screw in the iron wire (10).

At this time, heat is generated when the threaded bone 12 is formed in the iron wire 10 by the forming blades 335a and 335b, but it is necessary to cool the heat using cooling water.

Therefore, in the present invention, a coolant inlet pipe 110 and a coolant outlet pipe 120 for injecting coolant into the inner outer surface of the housing 100 in which the molding die 330 is formed are further formed.

On the other hand, in the present invention, the inverter motor unit 400 is further provided to adjust the angle of the screw bone carved into the iron wire (10).

The inverter motor unit 400 is a device for controlling the speed of the three-phase induction motor, and controls the rotation speed of the motor by adjusting the applied frequency of the motor. To adjust the rotation speed, the synchronous speed of the motor (rotational magnetic interference) The motor speed can be adjusted by adjusting the number of poles of the motor or by adjusting the frequency from N = 120 × f / p.

That is, the inverter motor unit 400 is provided with a rotating belt 410 that is rotated against the rotating pulley 310 of the rotating unit 300, thereby adjusting the rotational speed of the rotating belt 410 accordingly Since the rotational speed of the rotating pulley 310 and the rotating guide part 320 to be rotated is also controlled, and the rotational speed of the forming die 330 is also controlled, the angle of the screw bones engraved on the steel wire 10 is variously shaped. Will be made.

Figure 4 is a partial perspective view of the iron wire having a screw bone manufactured by the screw bone shaping apparatus of the iron wire capable of adjusting the angle of the screw bone according to an embodiment of the present invention.

As shown in FIG. 4, the iron wire 10 having the threaded bone 12 according to the present invention can form a gap between the bone and the bone in various widths as in (a) and (b), and as a single machine. It is a useful invention that can produce iron wire inscribed with various types of screw bone.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order to better understand the claims of the invention which will be described later. Additional features and advantages constituting the claims of the present invention will be described below. It should be appreciated by those skilled in the art that the conception and specific embodiments of the invention disclosed may be readily used as a basis for designing or modifying other structures for carrying out similar purposes to the invention.

In addition, the inventive concepts and embodiments disclosed herein may be used by those skilled in the art as a basis for modifying or designing other structures for carrying out the same purposes of the present invention. In addition, such modifications or altered equivalent structures by those skilled in the art may be variously changed, substituted and changed without departing from the spirit or scope of the invention described in the claims.

As described above, the screw bone forming apparatus of the iron wire of the present invention can not only rotate the wire rod such as iron wire, but also can form the screw bone at high speed by rotating the molding die itself by the rotation action of the rotating pulley as well as the inverter. By controlling the rotational speed of the molding die by the motor there is an advantage that the angle of the screw bone can be produced in various forms.

Figure 1 is a schematic diagram showing the flow of the process of forming screw bone in the wire, according to an embodiment of the present invention

Figure 2 is a cross-sectional view of the screw bone forming apparatus of the iron wire capable of adjusting the angle of the screw bone according to an embodiment of the present invention

Figure 3 is a perspective view of the screw bone forming apparatus of the iron wire capable of adjusting the angle of the screw bone according to an embodiment of the present invention

Figure 4 is a partial perspective view of the iron wire having a screw bone produced by the screw bone forming apparatus, according to an embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

1. Wire 10. Housing

20. Fixed part 30. Rotating part

40. Inverter motor unit 110. Coolant inlet pipe

120. Coolant outlet pipe 210. Wire input pipe

220. Lubricant treatment unit 230. Fixed guide tube

310. Rotating pulley 320. Rotating guide tube

330. Molding dies 335a and 335b. Molding blade

340. Bearing 410. Swivel Belt

Claims (4)

As a device for forming screw bone on the steel wire, A housing 100; As formed inside one side of the housing 100, the screw bone molding is formed on the wire input tube 210, the wire wire 10 is introduced, and the wire wire 10 is formed on the front surface of the wire input tube 210 A fixing part (200) formed of a lubricating oil treatment part (220) for smoothly supplying lubricating oil and a fixing guide tube (230) formed on the opposite side of the wire input pipe (210) and for guiding the introduced iron wire (10); And As it is formed inside the other side of the housing 100, the rotary pulley 310 for transmitting the rotational power, and the rotational power of the rotary pulley 310 to the forming die 330 and advances the iron wire formed with screw bone Rotation guide tube 320 for guiding the movement, and the forming die 330 having a forming blade (335a, 335b) for forming a screw bone on the iron wire 10 while rotating by the rotational movement of the rotary pulley 310 Rotating part 300; And And an inverter motor unit 400 having a rotating belt 410 engaged with the rotating pulley 310 of the rotating part 300 to control the rotating speed of the rotating pulley 310. Screw bone forming device of the steel wire that can adjust the angle of the screw bone. The method of claim 1, wherein the housing 100 Iron wire angle adjustable iron wire, characterized in that the configuration further comprises a cooling water inlet pipe 110 or cooling water outlet pipe 120 for injecting the cooling water to cool the heat generated when forming the screw bone to the iron wire 10 Screw bone forming apparatus. delete As a device for forming screw bone on the steel wire, A housing (100) having a coolant inlet pipe (110) or a coolant outlet pipe (120) for injecting coolant to cool the heat generated when the screw bone is formed in the iron wire (10); Lubricating oil is formed in one side of the housing 100, the wire input tube 210 into which the iron wire 10 is inserted, and the wire wire formed on the front surface of the wire input tube 210 to smoothly thread the bone. A fixed part 200 formed on a side opposite to the wire input pipe 210 and a fixed guide pipe 230 for guiding the introduced iron wire to supply a lubricant oil treatment part 220 to supply the lubricating oil; And As it is formed inside the other side of the housing 100, the rotary pulley 310 for transmitting the rotational power, and the rotational power of the rotary pulley 310 to the forming die 330 and advances the iron wire formed with screw bone Rotating part 300 made of a rotating guide tube 320 for guiding movement, and a forming die 330 having molding blades 335a and 335b for forming screw bones on steel wire while rotating by the rotational movement of the rotary pulley 310. ); And And an inverter motor unit 400 having a rotating belt 410 engaged with the rotating pulley 310 of the rotating part 300 to control the rotating speed of the rotating pulley 310. Screw bone forming device of the steel wire that can adjust the angle of the screw bone.