KR101034064B1 - Heat welding apparatus for making float - Google Patents

Abstract

The present invention relates to a subsidiary action rotary thermal fusion apparatus, and more particularly, when the two cylinders produced by injection molding are completed as a single sphere, from the coupling of the two cylinders to the finishing of the coupling portion by one switch pressing operation. It can be produced in a short time in a complete state to reduce the work time, as well as to improve the work efficiency, the invention relates to a rotary thermal welding device.

The present invention provides a rectangular frame-shaped body portion, the first and second panels connected to the guide rod on the upper side of the body portion, a drive motor through the first panel, and the reciprocating movement to the guide rod The first and second rotary holes installed to face each other and the first hydraulic cylinder installed on the second panel and are connected to each other by a rotation control means of the cylinder shaft. In the rotary heat fusion device composed of a second hydraulic cylinder connected to two rotary holes to complete two semi-circular cylindrical bodies as one sub-ball, the rotation control means, one side of the binding piece to the second hydraulic cylinder (400) A connection rod 500 coupled to the other side by 450 and coupled to the movable panel 270 on the other side; A flow plate 510 installed on the connecting rod 500 so as to reciprocate and having an end portion of a cylinder shaft of the second hydraulic cylinder 400 coupled to one side thereof; A disk-shaped rotation control plate 520 coupled to the other side of the flow plate 510 in a state in which one side is in surface contact, and having a plurality of first teeth 525 on the other side; It consists of a rotating disk 530 connected to the second rotary hole 280 in a state where the second tooth 535 is formed to be engaged with the first tooth 525 of the rotation control plate 520, the first tooth 525 and the second tooth 535 is characterized in that it is formed to rotate in one direction.

Floating ball, 1st, 2nd rotation port, rotation control means, rotation control plate, rotation disk, air discharge unit

Description

Side work rotating heat fusion device {HEAT WELDING APPARATUS FOR MAKING FLOAT}

The present invention relates to a subsidiary action rotary thermal fusion apparatus, and more particularly, when the two cylinders produced by injection molding are completed as a single sphere, from the coupling of the two cylinders to the finishing of the coupling portion by one switch pressing operation. It can be produced in a short time in a complete state to reduce the work time, as well as to improve the work efficiency, the invention relates to a rotary thermal welding device.

In general, aquaculture farms for farming fish or seaweed such as seaweed are used to produce a mouthpiece by injection molding in order to maintain a fixed height of the net installation.

However, conventionally, in order to make such a ball, two cylinders manufactured by injection molding are made into a single ball by heat fusion, and then a manpower is applied to smooth the joint surface of the two cylinders using a sandpaper or a trimmer. In this case, not only a lot of manpower is required to make a single ball but also a long time, and the production and work efficiency decreases, and the cost of the product increases due to the increase of labor cost along with the production cost. .

In addition, when the two cylinders are joined by heat fusion, the joint surface is smoothed while the joint surface is soft. When the joint surface is smoothed when the joint surface is soft, abnormalities are generated at the joint surface. The defect of the product is occurring.

The present invention was devised to solve the above problems, and an object of the present invention is to complete the two spheres produced by injection molding in a single sphere, the sphere of the completed state from the combination of the two cylinders to the finishing of the coupling site It is possible to produce in a short time by one switch push action, which not only shortens working time but also increases work efficiency.

In addition, when the ends of the two cylinders are joined by heat fusion, the cold air is blown through the air discharge part to the coupling part so that the coupling part is quickly hardened so that a more effective trimming operation can be performed during the trimming operation using the trimmer. To provide a relief action rotational heat fusion apparatus.

The configuration of the present invention for achieving the above object, the rectangular frame-shaped body portion, the first and second panels connected to the upper side via the guide rod via the body portion, the drive shaft is driven through the first panel It is connected to a motor, a movable panel reciprocally installed on the guide rod, the first and second rotary holes installed to face each other on the first panel and the movable panel, and a first hydraulic cylinder installed on the second panel, In the rotary heat welding apparatus consisting of a second hydraulic cylinder which is connected to the second rotary hole via a rotation control means of the cylinder shaft to complete two semi-circular cylindrical bodies as one sub-ball, wherein the rotation control means, one side is the A connecting rod 500 coupled to the second hydraulic cylinder 400 via a binding piece 450 and having the other side coupled to the moving panel 270; A flow plate 510 installed on the connecting rod 500 so as to reciprocate and having an end portion of a cylinder shaft of the second hydraulic cylinder 400 coupled to one side thereof; A disk-shaped rotation control plate 520 coupled to the other side of the flow plate 510 in a state in which one side is in surface contact, and having a plurality of first teeth 525 on the other side; It consists of a rotating disk 530 connected to the second rotary hole 280 in a state where the second tooth 535 is formed to be engaged with the first tooth 525 of the rotation control plate 520, the first tooth 525 and the second tooth 535 is characterized in that it is formed to rotate in one direction.

As described above, according to the present invention, it can be produced in a short time by the press of a single switch pressing operation of the complete state from the joining of the two cylinders to the finishing of the joining portion, shortening the working time as well as increase the work efficiency, There is no need for manpower to work on noodle trimming, which has the effect of reducing labor costs.

In addition, by blowing cold air through the air discharge portion to the coupling portion of the two cylinders to quickly harden the coupling portion has a more effective smoothing operation during the trimming operation using the polisher has the effect of obtaining the reliability of the product.

Hereinafter, with reference to the accompanying drawings will be described in detail the auxiliary action rotary thermal fusion apparatus.

1 is a perspective view showing the auxiliary action rotary heat fusion apparatus according to the present invention, Figure 2 is a state diagram showing a state in which a semi-circular cylindrical body is inserted into the first and second rotary holes according to the present invention, Figure 3 is a present invention Figure 4 is an exploded perspective view showing a separation state of the fixture according to, Figure 4 is a state diagram showing a state of the rotation control means according to the invention, Figure 5 is an exploded perspective view showing a separation state of the rotation control means according to the invention, Figure 6 Is an exploded perspective view showing an air discharge unit according to the present invention, Figure 7 is a state diagram showing a state in which the air discharge unit is installed according to the present invention, Figure 8 is a state diagram showing a state of the care device of the present invention.

As shown in Figures 1 to 8, the subsidiary action rotational heat fusion apparatus according to the present invention is a rectangular frame-shaped body portion, the first and second panels installed on the upper side of the body portion, a drive motor, a moving panel, It consists of a 1st, 2nd rotation hole, a 1st, 2nd hydraulic cylinder, a rotation control means, and an air discharge part which accommodates a semi-circular cylinder.

The body portion 100 has a rectangular frame shape, the hydraulic pump 120 and the control unit 130 is installed inside the interference state on the ground.

In addition, the first and second panels 200 and 250 are installed on the upper side of the body portion 100 at a predetermined interval and have a rectangular shape, and are connected to each other via a guide rod 230.

In addition, the drive motor 150 has a drive shaft 151 penetrates the first panel 200 in a state where it is installed above the body portion 100.

In other words, the drive motor 150 is installed on the upper side of the body portion 100 as shown in Figure 1, the drive shaft 151 of the drive motor 150 and the first panel 200 The first rotating hole 210 to be described later through the space between the second panel 250 is coupled to the drive shaft 151 is installed in the first panel 200.

Here, the drive shaft 151 has a projection 152 is formed, the drive motor 150, the rotation sensor 160 for detecting the rotational speed of the drive shaft 151 and the first drive of the drive shaft 151 Position detection sensor 170 for detecting the position is installed via the cover 180.

In other words, when the driving motor 150 rotates, the rotation detecting sensor 160 detects the protrusion 152 to detect the rotation speed of the driving shaft 151, and the driving shaft 151 rotates a predetermined number. When the protrusion 152 reaches the position sensor 170 via the rotation sensor 160, the controller 130 receives the signal detected from the position sensor 170 and receives the driving shaft 151. As a result, the first rotational hole 210 stops at the initial rotational position after the rotation by stopping at the first driven position.

In addition, the first rotating hole 210 is manufactured in a frame shape to accommodate a semi-circular cylinder manufactured by injection molding as shown in FIG. 2, and the drive motor is coupled to the drive shaft 151. It is rotated by the driving of 150.

Here, the first rotating hole 210 is provided with a fixing tool 300 for fixing the rope connector 10 formed in the semi-circular cylindrical body so as not to be separated from the first rotating hole (210).

In other words, the fastener 300 is the upper plate 310 and the lower plate 350 having a predetermined area, the extension rod 320 extending in the direction of the lower plate 350 through the upper plate 310, and the extension rod The fixing plate 340 coupled to the end of the 320, and the extension rod 320 surrounds the fixing plate 340, one side is interfered with the other side to the elastic spring 330 is interfered with the bottom surface of the upper plate (310) It is configured, and is installed in the same configuration as the first rotary sphere 210, as well as the second rotary sphere 280 to be described later.

In addition, the first hydraulic cylinder 255 is installed in the second panel 250, the cylinder shaft of the first hydraulic cylinder 255 is connected to the second hydraulic cylinder 400 which will be described later, the first When the cylinder shaft of the hydraulic cylinder 255 is reciprocated, the second hydraulic cylinder 400 is also reciprocated accordingly.

In addition, the movable panel 270 has a semi-circular shape on a surface facing the first rotating hole 210 in a state that the movable panel 270 is reciprocally installed on the guide rods 230 connecting the first and second panels 200 and 250. The second rotating hole 280 is installed, and the rotation axis of the second rotating hole 280 penetrates in the direction of the second panel 250.

Here, the movable panel 270 is preferably provided with a support rod 290 connected to the fitting hole formed in the second panel 250.

The second hydraulic cylinder 400 is connected to the cylinder shaft of the first hydraulic cylinder 255 installed in the second panel, and the cylinder shaft of the second hydraulic cylinder 400 is the second rotary hole 280. It is coupled to the rotation axis of the rotation control means via).

Here, the rotation control means is one side is coupled to the second hydraulic cylinder 400 via the binding piece 450, as shown in Figure 4 and 5, the other side is coupled to the moving panel 270 The connecting rod 500 and the connecting rod 500 is installed to be reciprocated, the fluid plate 510 is coupled to one side of the cylinder shaft end of the second hydraulic cylinder 400, and the flow plate 510 One side surface is coupled to the other side of the surface contact state, the disk-shaped rotation control plate 520 formed with a plurality of first teeth 525 on the other side, and the first tooth 525 of the rotation control plate 520 The first tooth 525 and the second tooth 535 is composed of a rotating disk 530 connected to the rotating shaft of the second rotary hole 280 in a state where the second tooth 535 is formed to be engaged with It is formed to rotate in one direction.

In other words, one side of the connecting rod 500 is coupled to the binding piece 450 installed in the second hydraulic cylinder 400, and the other side is coupled to the moving panel 270 of the first hydraulic cylinder 255. When the second hydraulic cylinder 400 is moved by the reciprocating movement of the cylinder shaft, the movable panel 270 is also reciprocated on the guide rod 230.

The fluid plate 510 is reciprocated on the connecting rod 500 when the cylinder shaft of the second hydraulic cylinder 400 is reciprocated.

 In addition, the rotation control plate 520 is coupled to the other side of the flow plate 510, the first tooth 525 is formed on the surface facing the moving panel 270.

In addition, one side of the rotating disc 530 is coupled to the rotating shaft of the second rotating hole 280, and the other side of the second tooth 535 to be engaged with the first tooth 525 of the rotation control plate 520. ) Is formed.

Here, as shown in FIGS. 4 and 5, the first tooth 525 and the second tooth 535 are rotated in one direction so that one side of the tooth is formed perpendicular to the surface of the rotation disc or the rotation control plate. The other side is formed to be inclined at an angle to the surface of the rotating disc or the rotating control plate.

On the other hand, the body portion 100, when the end portion of the semi-circular cylindrical body accommodated in the first rotary sphere 210 and the semi-circular cylindrical body accommodated in the second rotary sphere 280 is in contact with each other to the contact portion An air discharge part 700 is formed to allow the air flowing out of the external air pump 600 to flow out smoothly.

Here, the air discharge unit 700 is a ring-shaped air blowing pipe 710 and the air blowing pipe connected to the air pump 600 through the air outlet pipe 650 as shown in FIG. The moving frame 720 and the other side extending to the upper side of the body portion 100 in a state in which one side is connected to the 710, the fixed frame 730 is installed horizontally on the upper side of the body portion 100, The movable frame 720 and the fixed frame 730 is composed of a connector 750 for fitting vertically to each other.

Here, the connector 750 is the first connector 751 is formed with a first fitting hole (752) to be coupled to the moving frame 720, and the second fitting hole to the fitting frame 730 is fitted. 756 is formed of a second connector 755.

In other words, as shown in FIG. 7, the air blowing pipe 710 having a ring shape is installed in a state where a predetermined interval is formed outside the end of the first rotating hole 210, and the air blowing pipe 710 is provided. The other side of the moving frame 720 is connected to one side is fitted to the first fitting hole (752) of the first connector (751) is fixed by the first bolt (753), the fixed frame 730 One side of the) is fitted to the second fitting hole 756 of the second connector 755 is installed in a fixed state by the second bolt 757.

Here, the air blowing pipe 710 is preferably formed with a plurality of air blowing holes 715.

In the state in which the fixed frame 730 and the moving frame 720 are vertically coupled via the connector 750 as described above, the position of the ring-shaped air blowing pipe 710 is changed in the up / down direction. In this case, the position of the air ejection pipe 710 can be changed in the up / down direction by releasing the first bolt 753 and moving the moving frame 720 up and down. When the position of the blower pipe 710 is changed in the left / right direction, the ring-shaped air blower pipe 710 is released by releasing the second bolt 757 by moving the connector 750 on the fixing frame 730. ) Position can be changed appropriately.

On the other hand, the body portion 100 is heat-sealed in a state in which the semi-circular cylindrical body is accommodated in the first rotating hole 210 and the second rotating hole 280, the joint surface is uneven when completed as a sub-ball, the joint surface A trim portion for smoothly trimming is formed, wherein the trim portion is coupled to one side of the upper portion of the body portion 100, as shown in FIG. 8, so that the cylinder shaft is reciprocated by hydraulic inlet / outlet. And a smoothing joint surface of the sub-balls accommodated in the first and second rotating holes 210 and 280 by being installed on the cylinder shaft of the third hydraulic cylinder 800 via the connecting shaft 810. Sphere 830.

Looking at the operation and effect of the present invention configured as described above, the operator puts the semi-circular cylindrical body manufactured by injection molding in the first rotary sphere 210 and the second rotary sphere 280, the rope connector formed in the semi-circular cylinder (10) is pushed into the fixture 300 so that the fixing plate 340 of the fixture 300 is in close contact with the rope connector 10, the semi-circular cylindrical body of the first rotary sphere 210 and the second rotary sphere ( 280).

Then, the operator presses the operation switch formed in the control unit 130 of the body portion 100, the control unit 130 sends a signal to the hydraulic pump 120 installed in the body portion 100 is installed on the second panel 250 The cylinder shaft of the first hydraulic cylinder 255 is drawn out.

In this way, the moving panel 270 is moved in the direction of the first panel 200 due to the withdrawal of the cylinder shaft of the first hydraulic cylinder 255, so that the first rotating hole 210 and the second rotating hole 280 The end part of the semi-cylindrical cylinder accommodated in it will be in close contact.

In this case, it is preferable that the cylinder shaft of the first hydraulic cylinder 255 is continuously drawn out, and when the first rotating hole 210 is rotated by the driving of the driving motor 150, the first rotating hole 210 is rotated. This is to achieve a more smooth thermal fusion in the state in which the cylindrical end face accommodated and the cylindrical end face accommodated in the second rotary hole 280 are in contact with each other.

In other words, when the cylinder shaft of the first hydraulic cylinder 255 pushes the second hydraulic cylinder 400 by hydraulic pressure, the guide rod 230 coupled to the second hydraulic cylinder 400 and the moving panel 270 is provided. As a result, a force applied to the second hydraulic cylinder 400 is transmitted to the moving panel 270 so that the moving panel 270 moves in the direction of the first panel 200.

In this state, the first rotating hole 210 coupled to the drive shaft by the driving of the driving motor 150 is rotated, and the joint surface of the semi-circular cylindrical body accommodated in the first rotating hole 210 and the second non-rotating rotation Heat is generated on the joint surface of the semi-circular cylindrical body accommodated inside the sphere 280, and the two semicircular cylindrical bodies are heat-sealed.

At this time, the rotation speed of the drive shaft 151 of the drive motor 150 is controlled to rotate by the rotation speed previously input to the controller 130, and the detection of the rotation speed is to cover the cover 180 to the drive motor 150 The rotation sensor 160 installed as a medium is made by detecting the protrusion 152 formed on the drive shaft 151.

For example, when the driving shaft 151 of the driving motor 150 is rotated while the rotation speed is input to the controller 130, the protrusion 152 formed on the driving shaft 151 may be rotated. ) Is detected, and when the rotation detection sensor 160 detects 10 rotations of the drive shaft 151, the detection signal is input from the controller 130 to decelerate the driving of the driving motor 150, and the decelerated state. When the drive shaft 151 is rotated 10 times so that the projection 152 of the drive shaft 151 reaches the position sensor 170 through the rotation sensor 160, the position sensor 170 in the control unit 130 The braking is performed to completely stop the driving shaft 151 by receiving the detected signal.

In other words, as described above, the drive shaft 151 is rotated a predetermined number, so that heat is applied to the semi-circular cylindrical body accommodated in the first rotary hole 210 and the semi-circular cylindrical joint surface accommodated in the second rotary hole 280. When generated, the cylinder shaft advancement of the first hydraulic cylinder 255 is stopped, and when the drive motor 151 stops after rotating according to the required rotation speed, the cylinder shaft of the first hydraulic cylinder 255 is operated again. Pressure is applied to the joining surfaces of the two cylinders for smoother fusion.

At this time, the control unit 130 is heated by opening the valve installed in the air outlet pipe 650, the air flowing out of the air pump 600 is blown to the joint surface of the cylinder through the air outlet pipe 710 Cool the joint surface bonded with.

While the air flowing out through the air blowing pipe 710 is cooled by blowing the joint surface of the cylinder, the controller 130 sends a signal to the hydraulic pump 120 to move the cylinder shaft to the inside of the second hydraulic cylinder 400. By pulling in, the rotation control plate 520 of the flow plate 510 is separated from the rotation disc 530 coupled to the rotation shaft of the second rotation hole 280.

In this case, when the rotation control plate 520 is in the process of being separated from the rotation disc 530, the air flowing out through the air ejection pipe 710 is in a state of being continuously blown to the joint surface of the barrel, After the departure of the rotation control plate 520 from the rotation disc 530 is confirmed, the control unit 130 stops the air ejection of the air blowing pipe 710.

In other words, when the cylinder shaft is introduced into the second hydraulic cylinder 400, the rotation control plate 520 is separated from the rotation disc 530 by the movement of the fluid plate 510, and the fluid plate ( The sensing rod 515 installed in the 510 is detected by the movement detecting sensor 560 installed on the moving panel 270 via the mounting piece 550 to limit the movement of the flow plate 510. The control unit 130 locks the valve installed in the air outlet pipe 650 by a signal of the movement detecting sensor 560 for detecting the rod 515 to block the outflow of air.

Subsequently, the control unit 130 sends a signal to the hydraulic pump 120 to introduce the cylinder shaft of the third hydraulic cylinder 800 installed in the body portion 100 to the trim 830 coupled to the cylinder shaft. Make contact with the joint surface of.

Thereafter, when the first and second rotation holes 210 and 280 are rotated by driving the driving motor 150, the joint surface of the sub-ball which is accommodated inside and heat-sealed is the trimmer 830. It is smoothed by).

After a predetermined number of rotations are made to smooth the joining surface of the float, the control unit 130 sends a signal to the hydraulic pump 120 to draw the cylinder shaft of the third hydraulic cylinder 800 so that the trim 830 Is moved to the initial position, and the cylinder shaft of the second hydraulic cylinder 400 is pulled out to rotate the control plate 520 of the fluid plate 510 first teeth 525 and the second tooth 535 of the rotation disc 530. ) Are connected together.

Thereafter, the cylinder shaft of the first hydraulic cylinder 255 is introduced to allow the movable panel 270 to be moved to the first position so as to be inserted into and coupled to the first and second rotational holes 210 and 280. Take out the old ball.

1 is a perspective view showing a relief action rotation heat welding device according to the present invention,

Figure 2 is a state diagram showing a state in which a semi-circular cylindrical body is inserted into the first and second rotary holes according to the present invention,

Figure 3 is an exploded perspective view showing a separation state of the fixture according to the invention,

4 is a state diagram showing a state of the rotation control means according to the present invention;

5 is an exploded perspective view showing a separation state of the rotation control means according to the present invention,

6 is an exploded perspective view showing an air discharge unit according to the present invention;

Figure 7 is a state diagram showing a state in which the air discharge unit installed in accordance with the present invention,

8 is a state diagram showing a state of the care gear of the present invention.

<Description of the symbols for the main parts of the drawings>

10: rope connector 100: body 120: hydraulic pump

130: control unit 150: drive motor 151: drive shaft

152: protrusion 160: rotation detection sensor 170: position detection sensor

180: cover 200: first panel 210: first rotary port

230: guide rod 250: second panel 255: first hydraulic cylinder

270: moving panel 280: the second rotary hole 290: support rod

300: fixture 310: top plate 320: extension rod

330: elastic spring 340: fixed plate 350: lower plate

400: second hydraulic cylinder 450: binding piece 500: connecting rod

510: flow plate 515: sensing rod 520: rotation control panel

525: first tooth 530: rotating disc 535: second tooth

550: mounting piece 560: movement detection sensor 600: air pump

650: air outlet pipe 700: air discharge unit 710: air outlet pipe

715: air blowing hole 720: moving frame 730: fixed frame

750: connector 751: first connector 752: first fitting hole

753: first bolt 755: second connector 756: second fitting hole

757: second bolt 800: third hydraulic cylinder 810: connecting shaft

830: trim

Claims (3)

A body having a rectangular frame shape, first and second panels connected to the upper side of the body by a guide rod, a drive motor passing through the first panel, and reciprocally installed on the guide rod. The second rotating hole is connected to the moving panel, the first and second rotating holes installed to face each other on the first panel and the moving panel, and the first hydraulic cylinder installed on the second panel, and are connected to each other by the rotation control means of the cylinder shaft. In the rotary heat-sealing apparatus consisting of a second hydraulic cylinder connected to the to complete two semi-circular cylindrical body in one side, The rotation control means, one side is coupled to the second hydraulic cylinder 400 via the binding piece 450, the other side is coupled to the coupling bar 500 and the moving panel 270; A flow plate 510 installed on the connecting rod 500 so as to reciprocate and having an end portion of a cylinder shaft of the second hydraulic cylinder 400 coupled to one side thereof; A disk-shaped rotation control plate 520 coupled to the other side of the flow plate 510 in a state in which one side is in surface contact, and having a plurality of first teeth 525 on the other side; It is composed of a rotating disk 530 connected to the second rotating hole 280 in a state where the second tooth 535 is formed to be engaged with the first tooth 525 of the rotation control plate 520, The first sawtooth 525 and the second sawtooth 535 is a relief action rotation heat welding device, characterized in that formed to rotate in one direction. The method of claim 1, The body portion 100, when the end portion of the semi-circular cylindrical body accommodated in the first rotary hole 210 and the semi-circular cylindrical body accommodated in the second rotary hole 280 is in contact with each other the air pump to the contacted portion Relief action rotatable heat fusion apparatus, characterized in that the air discharge portion 700 is further included to allow the air flowing out from the 600 is smoothly included. The method of claim 2, The air discharge unit 700, the air pump pipe 710 of the ring-shaped connected to the air pump 600 through the air outlet pipe 650; A moving frame 720 having one side connected to the air blowing pipe 710 and the other side extending to an upper side of the body portion 100; A fixed frame 730 installed horizontally on an upper side of the body portion 100; Relief action rotary thermal fusion apparatus, characterized in that consisting of the connector 750 for fitting the vertical moving frame 720 and the fixed frame 730 vertically.

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