KR101805291B1

KR101805291B1 - Input and emissions at the same time continuously made the flange marking device

Info

Publication number: KR101805291B1
Application number: KR1020160006189A
Authority: KR
Inventors: 김재호; 김창임
Original assignee: 김재호; 김창임
Priority date: 2016-01-19
Filing date: 2016-01-19
Publication date: 2017-12-06
Also published as: KR20170086771A

Abstract

The present invention relates to a marking apparatus for a flange in which both a feed and a discharge are simultaneously performed. More specifically, the present invention relates to a marking apparatus for a flange, A main body 100 formed on one side of the supporter 110 and having a cylinder 130 having one side connected to the fluid plate 120; A pair of stacking portions 200 stacked on both sides of an upper portion of the body portion 100 so as to be able to adjust the height of the flange p before and after the marking; A rotation chuck 300 configured to rotate between each of the lamination portions 200, and fixing the flange p seated on the upper portion; And a magnetic body which is formed on both sides of the flow plate 120 and which is operated at upper and lower portions located on one of the stacked portion 200 and the upper portion of the rotary shaft 300 and has a magnetic force for fixing the flange p to the lower portion, A pair of actuating portions 440 and 440 and a milling bar 450 connected to the cylinder 420 at the central portion for releasing the flange p from the magnetic body 440. The pair of actuating portions 400); A marking unit 500 formed at the upper rear of the main body 100 and marking an outer periphery of the flange p seated on the rotary chuck 300; It is possible to maintain the original purpose of marking the outer periphery of the flange and to continuously increase the productivity by continuously supplying and discharging the flange and to firmly fix the flange at the time of marking, The flange to be marked can be automatically rotated and marked so that it is a useful invention for giving convenience of operation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a marking apparatus for a flange,

The present invention relates to a marking apparatus for a flange in which a charging and discharging are simultaneously performed continuously, more specifically, a plurality of flanges are continuously and continuously inserted and discharged, and the flange is rotated during a marking operation, The present invention also relates to a marking apparatus for a flange in which a flange having been completed is successively stacked so that the ease of management can be ensured by simultaneously feeding and discharging.

Normally, the circular flange is marked with the information of the product and the specification of the position of use on the outer circumference, thereby marking which facilitates the use of the flange.

Meanwhile, a method in which a worker manually stamps one by one using a metal iron rod is mainly used in the past, and a partially automated marking apparatus has recently been developed and used. However, it is not suitable for actual use, The input and discharge were done entirely by the workers, resulting in a marked decrease in productivity and the accumulation of fatigue by the workers was impossible.

First of all,

Registration No. 10-1279183 (especially) A table having a cylindrical case at its center; A flange receiving portion installed to penetrate the inside of the case and having a flange to be marked on an upper end thereof; A manual rotating portion rotatably installed on the table and connected to the flange lower portion at gears having different ratios with the lower end portion to rotate on the table to rotate the flange receiving portion; A marking unit installed on the table and marking a bolt hole machining position on a flange fixed to the flange mounting unit; The manual rotation unit includes a drive shaft installed to penetrate the table, a handle provided on the drive shaft to allow the operator to rotate the scale, and a graduation indicating the rotation ratio on the upper surface of the drive shaft, The present invention relates to a flange bolt hole marking apparatus including a drive shaft which is provided at a lower portion of the drive shaft and rotates the flange portion.

Registration No. 10-1179979 (Special) In the upper part, there is provided a vertical frame to which a vertical frame having a vertical guide is coupled; A rotating body provided on the main body and rotating the marking member in a state in which the member to be marked is rotatably supported,

A branch; A pressing support portion slidably installed on the elevation guide and rotatably supporting an upper end of the member to be marked in the direction of the rotation support portion; Size detecting means installed on one side of the main body for detecting a size of the member to be marked which is rotatably arranged by the rotation supporting portion and the pressing supporting portion; And a marking unit provided at one side of the pressing support unit and marking a character selectively stored according to the size of the marking member detected by the size detecting unit on the marking member, A punch guide is formed in a vertical direction in the pressing support portion, the marking portion includes a punch cylinder vertically installed on an upper end of the vertical frame, and a punch cylinder connected to a rod end of the punch cylinder in a state slidably installed in the punch guide, A connecting arm which is slidably moved on the punch guide in accordance with the operation of the cylinder, and a punch which is connected to the lower end of the connecting arm so as to be rotatable in a horizontal direction and which marks the character on the marking member in accordance with the operation of the punch cylinder And character data to be marked according to the size of the marking member The punch cylinder being connected to the punch cylinder and the size sensing means and receiving a magnitude signal of the marking member detected by the size sensing means and then marking a character corresponding to the magnitude signal of the marking member by the punch And a control unit for controlling the operation of the punch cylinder.

Registration No. 20-0351099 (Special) Material supply stand with conveyor installed to supply material; A pair of guide guides are spaced apart from the upper side of the base plate so as to carry the material supplied from the material supply source in a transportable manner and a material rail having a rail in the longitudinal direction is provided on the upper side of the base plate, A cam which is rotatably installed so as to be spaced apart and rotates together with driving of the motor, and in which a certain character is engraved; A pressing means provided on the other side of the material conveying table at a position corresponding to the type so as to support the material rotatably while pressing the material toward the type side; And a feeding means slidably installed on a rail of the workpiece conveying unit and configured to transfer a material positioned at an upper end of the guide member to the space between the character and the pressing means in association with the rotation of the cam .

The above-mentioned conventional techniques are constructed in a semiautomatic manner as a whole, and are configured to be able to mark the flange, and there is no mention of the introduction and discharge of the flange.

Therefore, it is an object of the present invention to provide a method of automatically and continuously injecting and discharging a flange, which has been performed entirely by workers, to maximize productivity and to improve the defect rate by firmly fixing the flange when marking the periphery of the flange The present invention provides a marking apparatus for a flange, which is capable of simultaneously minimizing the amount of fuel supplied to the flange, and continuously supplying and discharging the fuel.

In order to achieve the above object, there is a technical idea that includes a support base 110 having an upper longitudinal direction in the upper rear portion, a flow plate 120 mounted on left and right rails 121 formed on the support base 110, A main body 100 formed on one side of the support base 110 and having a cylinder 130 having one side connected to the flow plate 120; A pair of stacking portions 200 stacked on both sides of an upper portion of the body portion 100 so as to be able to adjust the height of the flange p before and after the marking; A rotation chuck 300 configured to rotate between each of the lamination portions 200, and fixing the flange p seated on the upper portion; And a magnetic body which is formed on both sides of the flow plate 120 and which is operated at upper and lower portions located on one of the stacked portion 200 and the upper portion of the rotary shaft 300 and has a magnetic force for fixing the flange p to the lower portion, A pair of actuating portions 440 and 440 and a milling bar 450 connected to the cylinder 420 at the central portion for releasing the flange p from the magnetic body 440. The pair of actuating portions 400); A marking unit 500 formed at the upper rear of the main body 100 and marking an outer periphery of the flange p seated on the rotary chuck 300; As a technical feature.

The stacking unit 200 includes a fixed body 210 fixed to an upper portion of the main body 100 and having a plurality of coarse flow paths 211 formed thereon, A fixing bar 230 for fixing a flange p which is formed in a long length and inserted into the holes 221 to stack the flanges p, (240) having a cutout groove (241) which is formed so as to flow upwardly and downwardly by a predetermined distance (m) and on which a flange (p) ).

The seating plate 240 is composed of a plurality of spacing rods 241 at the lower portion and a moving screw 243 connected to the motor m at the central portion to rotate the seating plate 240. [ .

The rotary chuck 300 includes a rotary body 310 rotatably driven by a motor m and having a plurality of coarse flow paths 311 formed thereon, And a tank 320 whose upper outer side is formed so as to correspond to the inner side of the flange p.

The actuating part 400 includes a spacing cylinder 410 formed on both sides of the flow plate 120, a first fixing plate 420 connected to the rod 411 of the spacing cylinder 410, A second and a third fixing plates 430 and 440 spaced apart from the first fixing plate 420 by a predetermined distance and formed to penetrate through the center of the first fixing plate 420 and a squeezing cylinder 450 formed at one side of the second fixing plate 430 A plurality of magnetic bodies 460 which are installed on the lower portion of the third fixing plate 440 and have a magnetic cluster 461 having a magnetic force at an end thereof to fix the flange p by attaching the magnetic bodies 460, And a mill bar 470 connected to the magnetic body 460 and releasing the flange p attached to the magnetic body 460. [

And an elastic member 463 is formed between the lower portion of the third fixing plate 440 and the upper portion of the magnetic pack 461.

The marking unit 500 includes a support 510 coupled to the body 100, a rail 520 after marking failure formed on the support 510, a rail 520 after marking failure, And a marking unit 540 mounted on the marking unit left and right rails 530 and marking the marking unit.

According to the marking apparatus for a flange in which the injection and the discharge are simultaneously performed continuously in accordance with the present invention, it is possible to maintain the original purpose of marking the outer periphery of the flange, and simultaneously to continuously input and discharge, It is possible to securely fix the flange at the time of marking, thereby minimizing the defective rate of the operation, and it is also a useful invention to allow easy marking by rotating the flange to be marked.

1 is a front view showing a preferred embodiment of the present invention;
2 is a side view showing a preferred embodiment of the present invention
3 is a plan view showing a preferred embodiment of the present invention
4 is a front section view showing a preferred embodiment of the present invention
Figure 5 is an operating state diagram illustrating a preferred embodiment of the present invention.
6 is a plan view showing a preferred lamination part of the present invention,
7 is an operating state diagram showing an operating state of a preferable laminated portion of the present invention
8 is an operating state diagram showing an operating state of a preferable laminated portion of the present invention
9 is a plan view showing a preferred rotary chuck of the present invention,
Fig. 10 is an operational state diagram showing an operating state of a preferred rotary chuck of the present invention
11 is a view showing an operating state of a preferred operating part of the present invention
Fig. 12 is a front view showing a preferred operation part of the present invention,
13 is a front view, a plan view, and a side view showing a preferred marking portion of the present invention
Fig. 14 is an operating state diagram showing an operating state of a preferable marking portion of the present invention
Fig. 15 is an operating state diagram showing an operating state of a preferable marking part of the present invention
16 is an operating state diagram showing a preferred embodiment of the present invention
17 is an operational state diagram showing a preferred embodiment of the present invention
Fig. 18 is an operational state diagram showing a preferred embodiment of the present invention
Figure 19 is an operating state diagram illustrating a preferred embodiment of the present invention.
Fig. 20 is an operational state diagram showing a preferred embodiment of the present invention

In the present invention, a plurality of flanges are automatically and continuously inserted and discharged, and the flange is rotated to perform a rapid operation when a marking operation is performed. In order to facilitate the ease of management by sequentially stacking completed flanges, A flanging marking device is provided which is capable of continuously supplying and discharging a flange.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

1 to 4, the supporting structure of the present invention includes a support base 110 having an upper longitudinal direction at an upper rear portion thereof, left and right rails 121 formed on the support base 110, A main body 100 formed at one side of the supporter 110 and having a cylinder 130 connected to the fluid plate 120 at one side thereof; A pair of stacking portions 200 stacked on both sides of an upper portion of the body portion 100 so as to be able to adjust the height of the flange p before and after the marking; A rotation chuck 300 configured to rotate between each of the lamination portions 200, and fixing the flange p seated on the upper portion; And a magnetic body which is formed on both sides of the flow plate 120 and which is operated at upper and lower portions located on one of the stacked portion 200 and the upper portion of the rotary shaft 300 and has a magnetic force for fixing the flange p to the lower portion, A pair of actuating portions 440 and 440 and a milling bar 450 connected to the cylinder 420 at the central portion for releasing the flange p from the magnetic body 440. The pair of actuating portions 400); A marking unit 500 formed at the upper rear of the main body 100 and marking an outer periphery of the flange p seated on the rotary chuck 300; .

1 to 5, the body 100 includes a motor m for adjusting the height of the stacking unit 200 and rotating the rotary chuck 300, A door for opening and closing a door for performing a maintenance purpose or the like is formed on the front side and a plurality of wheels are formed on the lower side so that the door can be selectively moved.

A pair of supporting rods 110 are formed at the upper portion of the main body 100 in the vertical direction at the rear of the main body 100. Left and right rails 121 And the left and right rails 121 are mounted on the left and right rails 121, respectively.

On the other hand, a cylinder 130 operated by hydraulic pressure or pneumatic pressure is formed at an upper end of the support table 110, and one side of the cylinder 130 is connected to one side of the flow plate 120, And the left and right rails 120 are moved left and right by raising the left and right rails 121.

1, 4, 5, 6, 7, and 8, the lamination unit 200 is formed on the upper side of the main body 100, but is formed as a pair on both sides. A fixed body 210 fixed to the upper part of the main body 100 and having a plurality of coarse flow paths 211 formed therein and a plurality of holes 221 A fixing bar 230 formed to be long and fixed to the outer side of the flange p which is inserted into the holes 221 to be laminated and fixed to each other, And a seating plate 240 on which a flange p is mounted and on which an incision groove 241 formed to be the same as the number of the fixing bars 230 from the outside to the inside is formed.

The fixed body 210 is formed in a cylindrical shape fixed to the main body 100. The fixed body 210 has three air flow grooves 211 formed at regular intervals thereon and penetrates the central portion.

Each of the tanks 220 is coupled to the tumbling flow grooves 211 and is moved to one side and the other side so that the fixing bar 230 can be selectively inserted into the upper portion of the tumbler 220. A plurality of holes 221 are formed.

In the case of the fixing bar 230, the fixing bar 230 is formed as a long bar so as to surround the outer periphery of the flange p and to stack a plurality of the flanges p.

The fixing bar 230 is inserted in the plurality of holes 221 and the position of the fixing bar 230 can be changed according to the diameter of the flange p, It is possible to give a sex.

That is, the flange p to be stacked on the upper surface of the seating plate 240 can be firmly fixed, so that the safety can be secured due to operational safety and breakage of the flange p.

The flange p is mounted on the upper part of the tub 220 by a motor m so as to flow upwardly and downwardly. And a seating plate 240 on which grooves 241 are formed.

The seating plate 240 includes a plurality of spacing rods 241 at the bottom and a moving screw 243 connected to the motor m at the central portion to rotate the seating plate 240, the upper and lower portions of the mounting plate 240 can move up and down through the rotating screw 243 through the rotation of the mounting plate 240 and the lower and upper vertexes of the mounting plate 240 can be stably supported.

In other words, the stacking unit 200 is formed on the upper side of the main body 100, and is formed on both sides of the stacking unit 200. The stacking unit 200 has a plurality of flanges p to be marked on one side thereof and a flange p Are stacked.

1, 3, 4, 6 and 7, the rotary chuck 300 is rotatably supported by a motor m and has a plurality of coarse flow paths 311 formed thereon, And a tank 320 which is seated and flows in each of the coarse flow paths 311 and whose upper outer side is formed so as to correspond to the inside of the flange p.

The rotating body 310 is connected to a motor m formed inside the body 100 and is rotated so that a tank 220 is coupled to a plurality of tank flow grooves 311, And is configured to be operated in the other direction.

Here, the tank 320 is formed in a shape corresponding to the inside of the flange p as described above, and is mounted on the upper portion of the tank 320 by the operation unit 400, The flange p is brought into contact with the inner side of the flange p so that when the flange p is marked through the marking unit 500, it can be firmly fixed without any shaking or the like.

In the present invention, the crude flow path 311 and the tank 320 are shown to be composed of three, and may be composed of a plurality of as needed.

The actuating part 400 includes a separating cylinder 410 formed on both sides of the flow plate 120 as shown in FIGS. 1, 3, 4, 11 and 12, A first fixing plate 420 connected to the first fixing plate 420 and a second fixing plate 430 and 440 spaced from the first fixing plate 420 by a predetermined distance, A pivoting cylinder 450 formed on one side of the second fixing plate 430 and a magnetic pack 461 provided on the lower side of the third fixing plate 440 and having a magnetic force at an end thereof, And a mill bar 470 connected to the milling cylinder 450 and releasing the flange p attached to the magnetic body 460. [

The spacing cylinders 410 are formed on both sides of the flow plate 120 and are configured to be actuated by pneumatic or hydraulic pressure so that the actuating part 400 can be moved up and down as a whole.

A first fixing plate 420 is formed on the rod of the separation cylinder 410 and a second and third fixing plates 430 and 440 are sequentially formed with the first fixing plate 420 and the lower fixing plate 420 And a central portion of the second fixing plate 430 is formed so as to be penetrated so that a rod of the jamming cylinder 450 constituting the upper portion of the second fixing plate 430 can be operated.

One or a plurality of magnetic bodies 460 are formed on the lower side of the third fixing plate 440 and the lower side of the third fixing plate 440 and the upper side of the magnetic cluster 461 are formed on the periphery of the magnetic body 460. The elastic member 463 is formed.

That is, when the magnetic material 460 comes into contact with the flange p, the first, second, and third fixing plates 420, 430, and 440 are separated by the spacing cylinder 410 from the elastic member 463, , The magnetic body 460 flows upward so that the force of the cylinder is not transmitted to the flange p side and the magnetic body 460 can be restored to its original state again to be.

The milling bar 470 is connected to the rod of the jamming cylinder 450 formed at the upper center of the second fixing plate 430 to release the flange p attached to the magnetic body 460.

When the actuating part 400 performs the insertion and discharge of the flange p, the milling bar 470 attaches the flange p after the insertion and the operation are completed using the magnetic body 460, Or pushing one side of the flange p to be inserted so as to be able to be seated on the seating plate 240 of the lamination unit 200 and the bath 320 of the rotary chuck 300 .

16 to 20, the actuating part 400 is formed of the same components on both sides of the flow plate 120, and includes a body part (not shown) The flange p seated on the stacking portion 200 positioned on the right side of the rotating chuck 300 and the flange p seated on the tank 320 of the rotating chuck 300 on which the marking has been completed are attached at the same time, The flange p to be worked is stacked on the stack 320 of the rotary chuck 300 and the completed flange p on the left side of the main body 100 , The input and the discharge are performed at the same time, thereby maximizing the productivity.

Conventionally, in the case of a flange to be worked and a flange having completed a work, the worker manually places the worker on the chuck and discharges it, but the work efficiency is lowered and the productivity is significantly lowered. Safety accidents occurred frequently.

However, the above-described conventional problems can be completely solved through the construction of the operation part 400 of the present invention.

1, 4 13, 14, and 15, the marking unit 500 for marking the flange p that is seated on the rotary shaft 300 includes a support portion 510 coupled to the body portion 100, Left and right rails 530 that are seated on the upper portion of the rail 520 after the marking failure and the left and right rails 530, 530 and a marking unit 540 for marking.

The front and rear rails 520 and the left and right rails 530 of the marking unit 500 are connected to the markers 540 and the markers 540, For example.

The overall operation and use of the present invention as described above will be described with reference to FIGS. 16 to 20. FIG.

First, when a plurality of flanges p are mounted on the laminated portion 200 formed on the right side of the main body 100 and then the actuating portion 400 is operated, The flange p stacked by the magnetic substance 460 and the finished flange p are attached respectively and the operating part 400 is moved again to the original position When the cylinder 130 is operated, the flow plate 120 is moved in one direction so that the actuating part 400 is moved to the upper part of the stacked part 200 formed on the right side of the body part 100 And is positioned at the upper portion of the rotary chuck 300.

18, when the actuating part 400 is moved downward, the flange p to be worked is abutted on the jaw 320 of the rotary chuck 300 to be seated, When the jaws 320 of the chucks 300 move in the outward direction and completely abut against and fix the outer side of the flange p and actuate the jamming cylinder 450, p is fixed to the rotary chuck 300 as shown in Fig. 19, and the finished flange p is seated on the seating plate 240 of the laminate part 200. [

The flange p fixedly mounted on the tub 320 of the rotary chuck 300 moves the marking machine 540 to the left and right so as to mark the product information and the use position specification on the outer circumference of the flange p The rotary chuck 300 rotates and marks each piece of information.

The above method is repeatedly performed to perform a marking operation of a plurality of stacked flanges p.

100: main body 110: support
120: Flowing plate 21: Right and left rails 130: Cylinder
200: laminated portion 210: fixed body 211: coarse flow groove
220: hole 221: hole 230: fixed bar
240: seating plate 241: incision groove
300: rotary chuck 310: rotating body 311:
320: Joe
400: actuating part 410: spacing cylinder 420: first fixing plate
430: second fixing plate 440: third fixing plate 450:
460: magnetic body 461: magnetic cluster 463: elastic member
470: Jungle Bar
500: marking portion 510: support portion
520: rail after mark failure 530: left and right rails of marking part 540: marking machine
p: flange m: motor

Claims

A support plate 110 formed in an upper longitudinal direction at an upper portion of the upper portion and a flow plate 120 mounted in left and right rails 121 formed on the support plate 110, A main body 100 constituting a cylinder 130 connected to the flow plate 120; A pair of stacking portions 200 stacked on both sides of an upper portion of the body portion 100 so as to be able to adjust the height of the flange p before and after the marking; A rotation chuck 300 configured to rotate between each of the lamination portions 200, and fixing the flange p seated on the upper portion; And a magnetic body which is formed on both sides of the flow plate 120 and which is operated at upper and lower portions located on one of the stacked portion 200 and the upper portion of the rotary shaft 300 and has a magnetic force for fixing the flange p to the lower portion, A pair of actuating portions 440 and 440 and a milling bar 450 connected to the cylinder 420 at the central portion for releasing the flange p from the magnetic body 440. The pair of actuating portions 400); A marking unit 500 formed at the upper rear of the main body 100 and marking an outer periphery of the flange p seated on the rotary chuck 300; Respectively,
The rotary chuck (300)
A rotating body 310 rotated by the motor m and having a plurality of coarse flow paths 311 formed thereon,
And a tank (320) which is seated and flows in each of the coarse flow paths (311) and whose upper outer side is formed to correspond to the inside of the flange (p). Marking device.

The method according to claim 1,
The stacking unit 200 includes:
A fixed body 210 fixed to the upper portion of the main body 100 and having a plurality of coarse flow paths 211 formed thereon,
A tank 220 in which the plurality of holes 221 are formed in the upper flow path 211,
A fixing bar 230 for fixing the flanges p stacked and inserted into the holes 221,
A mounting plate (241) configured to flow upward and downward by a motor (m) and having a flange (p) mounted thereon and a cutout groove (241) formed in the same direction as the number of the fixing bars 240). The marking apparatus for a flange according to any one of claims 1 to 3,

3. The method of claim 2,
The seating plate (240)
A plurality of spacing bars 241 at the bottom,
And a moving screw (243) connected to the motor (m) at the center and rotating to move the seating plate (240).

delete

The method according to claim 1,
The operation unit 400 includes:
A spacing cylinder 410 formed on both sides of the flow plate 120,
A first fixing plate 420 connected to the rod 411 of the separation cylinder 410,
Second and third fixing plates 430 and 440 spaced apart from the first fixing plate 420 by a predetermined distance,
A squeezing cylinder 450 formed at one side of the second fixing plate 430,
A plurality of magnetic bodies 460 formed on the lower portion of the third fixing plate 440 and having a magnetic force having a magnetic force at an end thereof to fix and fix the flange p,
And a milling bar (470) connected to the milling cylinder (450) and releasing a flange (p) attached to the magnetic body (460).

6. The method of claim 5,
Wherein an elastic member (463) is formed between the lower portion of the third fixing plate (440) and the upper portion of the magnetic pack (461), and the elastic member (463) is formed on the outer periphery of the magnetic body (460) Marking device.

The method according to claim 1,
The marking unit 500 includes:
A support 510 coupled to the body 100,
A rail 520 after marking failure formed on the upper portion of the support 510,
A marking part left and right rails 530 seated on the rail 520 after the marking failure,
And a marking unit (540) placed on the left and right rails (530) of the marking unit for marking.