KR102123797B1 - Buoy manufacturing equipment - Google Patents

Abstract

The present invention relates to a buoy manufacturing equipment. More particularly, the buoy manufacturing equipment includes: an unwinding roller for unwinding a foam sheet body to be molded to wind the foam sheet body in one direction; a main body spaced next to the unwinding roller and install with a plurality of metal pipes or metal bars to have a frame shape; a guide rod installed on one side of the main body to guide the foam sheet body unwound from the unwinding roller; first and second guide rollers in the form of idle rollers; a winding roller for winding the foam sheet body guided from the second guide roller in the form of a buoy; a pressurizing roller; and a heating member that radiates heat between the pressurizing roller and the winding roller to transmits fusion heat to the foam sheet body guided from the pressurizing roller. Therefore, damage is minimized to reduce marine pollution caused by debris. The buoy is easily manufactured without a separate adhesive, thereby improving productivity.

Description

Buoy manufacturing equipment

The present invention relates to an apparatus for manufacturing a buoy, and more specifically, to wind a foamed sheet body made of synthetic resin foam in a buoy form, and heat one surface of the foamed sheet body in the process of winding the foamed sheet body so that the heated surfaces are fused to each other. It relates to a buoy manufacturing apparatus fixed and manufactured as a buoy.

The buoy is a floating body floating on the surface of the water. It is used to indicate the location of objects in the water, such as fishing nets and anchors, to warn dangerous goods of navigation or to direct a route to help the ship sail safely. It is used for various purposes.

In order to easily float on the surface of the buoy, a buoy made of styrofoam material is often used.

Styrofoam buoys are used by winding the binding line on both sides of a cylindrical shape. Since a lot of force is applied to the bending groove, when the buoy is used for a long time, it is damaged by waves, tides and tidal waves, or the styrofoam surface is not smooth, so that the seawater such as waves is not smooth. There is a disadvantage in that the impact on the product is transmitted and is easily damaged or deformed.

When the buoy is damaged, the styrofoam shattered debris causes severe marine pollution, and the damaged buoy is difficult to use again, and it is difficult to use it again. Resulted in economic disadvantages.

As a technique to compensate for these shortcomings, there is Korean Utility Model No. 20-2019-0002188, and Korean Utility Model No. 20-2019-0002188 uses a styrofoam buoy using a vehicle-mounted mobile polyurea coating device. It is a technology that can be changed to an eco-friendly buoy equipped with a protective layer by coating a polyurea directly at a workable site.

The Republic of Korea Utility Model No. 20-2019-0002188 minimizes the damage of styrofoam to reduce marine pollution, but has had the disadvantage that the production facility cost is excessive and the production period is long and the practicality is reduced.

Accordingly, there is an urgent need for a buoy manufacturing technology that is convenient for production while minimizing the marine environment.

The present invention has been devised to solve the problems of the prior art as described above, and the object of the present invention is to heat one side of the foamed sheet body in the process of winding the foamed sheet body made of synthetic resin in the form of a buoy to heat each other. It is to provide a buoy manufacturing apparatus which improves productivity while significantly reducing marine pollution compared to a buoy made of styrofoam by completing the buoy manufacturing process only by guiding and winding the foam sheet body by fusion fixing.

In order to achieve the above object, the present invention is a unwinding roller in which the foamed sheet body is wound and unwound in one direction; A body formed by a plurality of metal pipes or metal bars spaced apart from the unwinding roller and installed on the ground in a frame form; A guide rod installed on one side of the main body and a pair of rods arranged side by side in a diagonal direction to guide the foam sheet body unwound from the unwinding roller; First and second guide rollers in the form of idle rollers to guide the foam sheet bodies moved by the guide rods to the upper side of the main body; A winding roller which is formed in a roller shape rotated by a power means at the other end of the main body provided with the guide rod, and winds the foam sheet body guided from the second guide roller in the form of a buoy; A pressurizing roller provided next to the winding roller and pressurizing the foamed sheet body wound by the winding roller while guiding the foam sheet body guided from the second guide roller to the winding roller; A heating member that radiates heat to the lower portion between the pressurized roller and the take-up roller to transfer the heat to the foamed sheet body guided by the pressurized roller, so that the foamed sheet body wound up on the take-up roller is fused; and the take-up roller has an outer diameter. A fixed groove is formed extending in one direction and the end of the foam sheet body is drawn in and fixed, and support plates for rotatably supporting the pressure rollers on both sides of the pressure roller are provided, and the upper side of the support plate is horizontal in the horizontal direction. It is composed of a metal plate that is bent in an "a" shape in which the extended end is extended downward, and the upper end extending in the horizontal direction is rotatably fixed at both ends of the pressure roller, and the lower end extending in the vertical direction is diagonal. A moving plate to which the moving body extending is fastened is provided, and a guide groove is formed in which the upper portion extending horizontally of the moving plate is guided to both sides where the moving plate is provided, and a seating portion on which an end side of the moving body is seated It is formed, and when the upper part of the moving plate is moved to the guide groove of the main body on the upper and lower sides of the moving plate, a first moving roller for rolling motion is provided next to the guide groove formed in the main body and seated on the seating portion of the main body. It is provided with a second moving roller for rolling motion, a fixed bar is provided forward to which the pressure roller of the moving plate is fixed, and an extension bar extending to both lower portions of the fixed bar and a lower side of the extended bar extending to both sides It is characterized in that each of the connecting bars connecting the parts is provided, and fixed plates for extending the heating member to be connected to the heating member and extending in one direction to both sides of the connecting bar are respectively provided.

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In addition, the first operation cylinder is connected by interruption of the connection bar, and is characterized in that it is configured to move the connection bar by driving the first operation cylinder.

In addition, a plurality of through-holes are formed with the fixing plate, a second operating cylinder is provided below each of the fixing plate, and a rod of the second operating cylinder is configured to penetrate the through-hole, and the upper side is configured to receive the heating member. It is made in the form of an "U" that is opened, the lower surface is in contact with the rod end of the second operating cylinder, and a receiving plate is configured to move the heating member vertically upward and high by driving of the second operating cylinder. The rod of the second working cylinder is penetrated through a through hole that is not penetrated so as to guide the receiving plate when it is moved up and down in the vertical direction by the second working cylinder, and a rod-shaped guide portion having an upper side contacting the receiving plate is provided. Is done.

As described above, according to the present invention, in the process of the winding roller winding the foamed sheet body unwound from the unwinding roller, the foamed sheet body wound with the winding roller is pressed through the pressurizing roller, and the heating member causes one side of the foam sheet body to be wound. As the heated surface is fused by heating and manufactured as a buoy, the buoy manufacturing process is completed only by the guiding and winding process of the foam sheet body, thereby minimizing damage compared to the buoy produced with the existing styrofoam, as well as by broken fragments of the styrofoam. It reduces marine pollution, and it is easy to manufacture buoys by fusion-fixing the double-layered foamed sheet body wound without a separate adhesive, thereby increasing the efficiency of the work, improving productivity and minimizing the defect rate.

In addition, when the coiled diameter varies depending on the amount of the foamed sheet body that is wound through the coiling roller, the pressure roller and the heating member can be moved according to the coiled diameter of the foamed sheet body together with the moving plate to the foamed sheet body. Since it is possible to perform continuous pressing action and heat fusion, there is an effect to realize automation of the buoy manufacturing operation.

1 is a perspective view showing a preferred form of the present invention,
2 and 3 are side views showing a preferred form of the present invention,
4, 5 and 6 are exemplary views showing a preferred form of a component for moving the pressure roller and the heating member of the present invention,
Figure 7 is an exemplary view showing a preferred form in which the inventors pressurized roller is moved,
8 is an exemplary view showing a preferred form in which the inventors heating member is moved,
9 is an exemplary view showing a preferred form in which the inlet pipe and the outlet pipe are provided in the pressure roller of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail based on the accompanying drawings.

1 is a perspective view showing a preferred form of the present invention, FIGS. 2 and 3 are side views showing a preferred form of the present invention, the buoy manufacturing apparatus according to the present invention is a foam sheet body as shown in FIGS. 1) The unwinding roller (5) for unwinding and conveying, the main body (10) installed on the ground, and guide rods (20) and first and second installed on the main body (10) to guide the foam sheet body (1) A winding roller for winding the guide rollers 30, 40, and the foam sheet 1 guided from the guide rods 20 and the first and second guide rollers 30, 40 in the form of a buoy, and the winding roller ( It comprises a pressure roller (60) for pressing the foamed sheet body (1) to be wound by 50) and a heating member (70) to ensure that the foamed sheet body (1) wound on the winding roller (50) is fused do.

On the other hand, the raw material of the foamed sheet body 1 of the present invention is preferably used as polypropylene (polypropylene, PP) among various synthetic resins, which has a solid strength during foaming, and is suitable for use as a buoy, but is easily supplied as a foaming process. This is because it is a material that minimizes marine pollution even when it is damaged in the process of being used as a buoy because no harmful substances such as environmental hormones are generated as it is easy to use and is often used for food packaging containers.

The unwinding roller 5 is configured such that the foamed sheet body 1 to be molded in the form of a buoy is wound and unwound in the direction of the main body 10.

The main body 10 is spaced apart from the unwinding roller 5, and a plurality of metal pipes or metal bars are installed on the ground in the form of a frame, and are configured to provide the components of the present invention, which will be described later.

The guide rod 20 is installed on one side of the main body 10 and is made of a pair of rods to guide the foam sheet body 1 unwound from the unwinding roller 5. The guide rod 20 is configured to be spaced up and down, and is preferably formed by being inclined in the direction in which the foam sheet body 1 is moved, which is to guide the foam sheet body 1 being moved in a tight state. to be.

The first and second guide rollers 30 and 40 are installed in the upper side of the main body 10, respectively, and are formed in the form of an idle roller to sequentially guide the foam sheet body 1 moved by the guide rod 20.

Winding roller 50 is made of a roller that is rotated by the power means (M) on the other end of the body 10 is provided with the guide rod 20, the foam sheet guided from the second guide roller 40 It is configured to wind the sieve 1 in the form of a buoy.

In addition, the winding roller 50 is extended in one direction with an outer diameter, the end of the foam sheet body 1 is inserted and fixed to form a fixing groove 51 is formed, the first foam sheet body 1 and the winding roller 50 ) To increase the fixing force with the foam sheet body (1) to prevent the phenomenon that the foam sheet body (1) is separated from the winding roller (50) during the winding process.

The pressure roller 60 is provided next to the winding roller 50 and is guided by the winding roller 50 while guiding the foam sheet body 1 guided from the second guide roller 40 to the winding roller 50. It is configured to press the foamed sheet body 1 to be wound.

The heating member 70 radiates heat to the lower portion between the pressure roller 60 and the winding roller 50 to transfer heat to the foam sheet body 1 guided from the pressure roller 60, thereby winding the winding roller 50 The foamed sheet body 1 wound on is configured to be fused.

Here, the heating member 70 can be used as long as it is configured to radiate heat to the lower portion between the pressurizing roller 60 and the winding roller 50, but more preferably, it is formed in a cylindrical pipe shape, and is opened inside the pipe It is composed of a structure in which heat is discharged to the upper side by generating a discharge groove on the upper side, and generating heat inside the pipe may cause LPG gas to burn inside the pipe to generate heat, and an electric heater inside the pipe. It can be provided to generate heat.

Therefore, in the process of the winding roller 50 winding the foamed sheet body 1 unwound from the unwinding roller 5, the foamed sheet body 1 wound up to the winding roller 50 through the pressing roller 60 is pressurized. Then, the heating member 70 is heated to one side of the foam sheet body 1, and the heated surface is fused to be manufactured as a buoy. Thus, the buoy manufacturing process is completed only by guiding and winding the foam sheet body 1 Compared to the buoy produced with Styrofoam, the damage is minimized and the marine pollution is reduced by the broken debris of Styrofoam, and the double layered foam sheet body (1) wound without a separate adhesive is fused and fixed so that the buoy can be easily manufactured. This increases the efficiency of the work, thereby improving productivity and minimizing the defect rate.

Here, as shown in Figures 2, 3, 4, 5, 6, 7, 8, support plates 100 for rotatably supporting the pressure rollers 60 are provided on both sides of the pressure rollers 60.

In addition, the upper side of the support plate 100 is formed of a metal plate that is bent in the form of an "a" extending downwardly extending in the horizontal direction, the upper side extending in the horizontal direction of the pressing roller 60 The both ends are rotatably fixed, and the lower side extending in the vertical direction is provided with a moving plate 110 to which the moving body 120 extending in the diagonal direction is fastened to allow the left and right movement of the pressure roller 60.

In addition, the main body 10 is formed with a guide groove 11 in which a horizontally extending upper portion of the moving plate 110 is guided and moved to both sides where the moving plate 110 is provided, and an end portion of the moving body 120 The seating portion 13 on which the side is seated is formed.

In addition, when the upper portion of the moving plate 110 on the upper and lower sides of the moving plate 110 is moved to the guide groove 11 of the main body 10, the cloud next to the guide groove 11 formed in the main body 10 The first moving roller 130 for movement is provided, and the second moving roller 140 for rolling motion is mounted on the seating portion 13 of the main body 10 to be moved together with the pressing roller 60. It makes the movement of the moving plate 110 easy.

In addition, a fixing bar 150 is provided to the front where the pressing roller 60 of the moving plate 110 is fixed.

In addition, an extension bar 160 extending to both lower portions of the fixing bar 150 and a connecting bar 170 connecting the lower parts of the extension bar 160 extending to both sides are provided.

In addition, the fixing plates 180 extending in one direction to both lower portions of the connecting bar 170 and connected to the heating member 70 to fix the heating member 70 are provided.

That is, the diameter of the wound is variable according to the amount of the foam sheet body 1 wound through the winding roller 50, wherein the pressing roller 60 and the heating member 70 are foamed together with the moving plate 110 It is possible to move according to the wound diameter of the sheet body 1, so that it is possible to perform a continuous pressing action and heat fusion to the foam sheet body 1.

Here, the first operation cylinder 190 is connected by the interruption of the connection bar 170 to be configured to move the connection bar 170 by driving the first operation cylinder 190.

For example, after moving the pressure roller 60 and the moving plate 110 through the first operating cylinder 190 to the initial position of the foamed sheet body 1 wound on the winding roller 50, the foamed sheet body 1 continues. ) The diameter of the wound of the foam sheet body 1 is gradually thickened through the winding process, and when the pressure generated in the process of thickening the foam sheet body 1 is applied to the pressure roller 60, the pressure roller 60 is It will be moved together with the moving plate 110 and the heating member 70, so that it is possible to perform continuous pressing action and heat fusion on the foamed sheet body 1 being wound.

Meanwhile, a plurality of through holes 181 are formed by the fixing plate 180.

In addition, a second operation cylinder 195 is provided below the fixing plate 180, and a rod of the second operation cylinder 195 is configured to pass through the through hole 181.

In addition, it is made of a "U" shape with an upper side open to accommodate the heating member 70, the lower surface of which is in contact with the rod end of the second operating cylinder 195 by the driving of the second operating cylinder 195 The receiving plate 200 is configured to move the heating member 70 upward and downward in the vertical direction.

That is, the receiving plate 200 accommodating the heating member 70 so as to correspond to the foamed sheet body 1 that is thickened through the winding process of the foamed sheet body 1 is up and down by the second operating cylinder 195. It is configured to move.

At this time, when the receiving plate 200 is moved up and down in the vertical direction by the second operating cylinder 195, the through hole in which the rod of the second operating cylinder 195 is not penetrated to guide the receiving plate 200. It is penetrated through (181), the upper side is provided with a rod-shaped guide portion 210 in contact with the receiving plate 200, the receiving plate 200 for receiving the heating member 70 is configured to stably move up, high will be.

Here, since the pressure roller 60 is overheated by the heat of the heating member 70 and may cause damage to the foam sheet body 1, as shown in FIG. 9, the cooling water is inside the pressure roller 60. Cooling water is introduced into one side of the pressure roller 60 so that it can flow, and an inlet pipe 61 for flowing inside the pressure roller 60 is provided, and the other of the pressure roller 60 provided with the inlet pipe 61 is provided. A discharge pipe 62 for discharging the flowed cooling water is provided on the side.

DESCRIPTION OF SYMBOLS 1 Foamed sheet body 5 Unwinding roller
10: main body 11: guide groove
13: seating portion 20: guide rod
30: first guide roller 40: second guide roller
50: winding roller 51: fixing groove
60: pressure roller 70: heating member
M: Power means
100: support plate 110: moving plate
120: moving body 130: the first moving roller
140: second moving roller 150: fixed bar
160: extension bar 170: connection bar
180: fixed plate 190: first operating cylinder
195: second operating cylinder 200: receiving plate
210: guide unit

Claims (5)

The unwinding roller 5 in which the foamed sheet body 1 is wound and unwound in one direction;
A body 10 spaced apart from the unwinding roller 5 and a plurality of metal pipes or metal bars are installed on the ground in a frame form;
A guide rod 20 installed on one side of the main body 10 to guide the foam sheet body 1 unwound from the unwinding roller 5 in parallel in a diagonal direction;
First and second guide rollers 30 and 40 in the form of idle rollers to guide the foam sheet bodies 1 moved by the guide rods 20 to the upper side of the main body 10, respectively;
The guide rod 20 is made of a roller that is rotated by a power means (M) at the other end of the main body 10 is provided, buoys the foam sheet body 1 guided from the second guide roller 40 Winding roller 50 to be wound in the form;
A foam sheet body provided by the winding roller 50 while being provided next to the winding roller 50 and guiding the foam sheet body 1 guided from the second guide roller 40 to the winding roller 50. 1) pressurizing roller 60 to pressurize;
By dissipating heat in the lower portion between the pressure roller 60 and the winding roller 50 to transfer heat to the foam sheet body 1 guided from the pressure roller 60, the foam sheet body wound around the winding roller 50 (1) is a heating member that allows the fusion; 70 is included,
The winding roller 50 is extended in one direction with an outer diameter to form a fixing groove 51 to which the end of the foam sheet body 1 is drawn and fixed,
Support plates 100 for rotatably supporting the pressure rollers 60 to both sides of the pressure roller 60 are provided,
The upper side of the support plate 100 is formed of a metal plate that is bent in an "a" shape that extends in the horizontal direction and the extended end extends downward, and the upper ends extending in the horizontal direction are both side ends of the pressure roller 60. Is fixed to be rotatable, the lower side extending in the vertical direction is provided with a moving plate 110 to which the moving body 120 extending in the diagonal direction is fastened,
The main body 10 is formed with a guide groove 11 in which an upper portion extending horizontally of the moving plate 110 is guided and moved to both sides where the moving plate 110 is provided, and an end side of the moving body 120 is provided. The seating portion 13 to be seated is formed,
When the upper portion of the moving plate 110 is moved to the guide groove 11 of the main body 10 on the upper and lower sides of the moving plate 110, rolling motion is performed next to the guide groove 11 formed in the main body 10. The first moving roller 130 is provided, and the second moving roller 140 is mounted on the seating portion 13 of the main body 10 to perform rolling motion.
A fixing bar 150 is provided to the front where the pressing roller 60 of the moving plate 110 is fixed,
Each of the fixed bar 150 is provided with an extension bar 160 extending to the bottom of both sides and a connecting bar 170 connecting the lower parts of the extension bar 160 extending to both sides,
Buoy manufacturing apparatus, characterized in that each of the fixing plate 180 is extended to one side to the lower side of the connecting bar 170 to be connected to the heating member 70 to fix the heating member 70. delete delete According to claim 1,
A buoy manufacturing apparatus characterized in that the first operation cylinder 190 is connected to the suspension of the connection bar 170 to be configured to move the connection bar 170 by driving the first operation cylinder 190. According to claim 1,
A plurality of through holes 181 are formed by the fixing plate 180,
A second working cylinder 195 is provided below the fixing plate 180, and a rod of the second working cylinder 195 is configured to penetrate through the hole 181,
It is made of a "U" shape whose upper side is opened to accommodate the heating member 70, and when the lower surface is in contact with the rod end of the second operating cylinder 195, the heating member is driven by the driving of the second operating cylinder 195 The receiving plate 200 for vertically and highly moving the 70 in the vertical direction is configured,
When the receiving plate 200 is moved up and down in the vertical direction by the second operating cylinder 195, the through hole 181 in which the rod of the second operating cylinder 195 is not penetrated to guide the receiving plate 200 ), the buoy manufacturing apparatus, characterized in that the upper side is provided with a guide portion 210 in the form of a rod contacting the receiving plate 200.

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