KR20160129410A - Adhesion device using heat - Google Patents

Abstract

The present invention relates to an adhesion device using heat. The device includes: a first heating pipe (10) to one end of which a frame (100) is inserted; a second heating pipe (20) one end of which is connected to the other end of the first heating pipe (10) and to the other end of which a medium pipe (200) is inserted; and a heating member (30) which delivers heat to the surface of the first heating pipe (10) in contact with the frame (100) and to the surface of the second heating pipe (20) in contact with the medium pipe (200). By doing so, the present invention can combine the frame and the medium pipe while being inserted to each other, so the frame can be connected stably in an efficient manner.

Description

ADHESION DEVICE USING HEAT [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermal welding apparatus, and more particularly, to a thermal welding apparatus for efficiently and firmly connecting a tube-shaped frame installed in a cage farm.

In general, a floating body is a term collectively referred to as a body that receives buoyancy and floats in the liquid or on the surface. The body is divided into various types according to the purpose of use.

These are also used in floats, mariners, waterworks, or cage farms. Among them, the Cagehus farm is a place where fish are cultivated by forming a cage using a net in water. The body used in the Cage farm is not only a space for culturing fish, but also a work path Function at the same time.

FIG. 1 is a partially exploded perspective view showing a conventional cage farm (Patent Document 1). As shown in FIG. 1, a conventional cage farm includes a plurality of carriers 1; A frame (2) connecting the plurality of the supports (1) and arranged in a rectangular shape; And a foot plate (3) provided on the frame (2). Accordingly, a net (not shown) can be installed inside the square frame 2 to fish fish, and people can move to the foot plate 3. [

On the other hand, the frame 2 serves as a skeleton of a cage farm. In general, the frame (2) mainly uses polyethylene pipes for transportation and assembly efficiency. Conventionally, in order to assemble such a frame 2, the end of the adjacent frame 2 is welded back to back, or the frame 2 is assembled using a band-shaped socket member as disclosed in Patent Document 2 Respectively.

However, conventionally, there is a problem that since the end face of the frame 2 is simply abutted and joined, it is weak to the shear force, which is not stable and the rigidity is lowered.

KR 20-0450479 Y1 (Oct. 11, 2010) KR 20-0353919 Y1 (June 22, 2004)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a thermal welding apparatus having an intermediate pipe connecting frames and providing a heat- .

According to an aspect of the present invention, there is provided a thermal welding apparatus including: a first heating tube into which a frame is inserted; A second heating pipe having one end connected to the first heating end and the intermediate pipe inserted into the other end; And a heating member for transmitting heat to a surface of the first heating tube which is in contact with the frame and a surface of the second heating tube which is in contact with the intermediate tube.

In the heat-fusing apparatus according to the present invention, the frame and the intermediate pipe can be thermally fused in a state where they are inserted to each other, thereby making it possible to connect the frame firmly and efficiently.

1 is a partially exploded perspective view showing a conventional cage farm,
2 is a perspective view showing a heat-sealing apparatus according to the present invention.
Figure 3 is a partial perspective view of Figure 2,
4 is a side cross-sectional view of the heat-
5 is a perspective view showing a supporting member;
6 to 8 are perspective views showing an operating state of a supporting member;

Hereinafter, a thermal welding apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of a thermal welding apparatus according to the present invention, FIG. 3 is a partial perspective view of FIG. 2, and FIG. 4 is a side sectional view of a thermal welding apparatus according to the present invention.

The thermal fusing device according to the present invention includes a first heating pipe (10) into which a frame (100) is inserted at one end; A second heating pipe (20) having one end connected to the other end of the first heating pipe (10) and the intermediate pipe (200) inserted at the other end; And a heating member 30 for transmitting heat to a surface of the first heating pipe 10 that contacts the frame 100 and a surface of the second heating pipe 20 that contacts the intermediate pipe 200. [

Before describing each component, the frame 100 and the medicament tube 200 of the cage farm where the present invention is applied will be briefly described.

The frame 100 is a component of the skeleton of the cage farm, and serves to connect the floats. Generally, the frame 100 has a pipe shape and is made of a synthetic resin material such as polyethylene.

The intermediate pipe 200 connects the frame 100 with the frame 100 and is formed in a pipe shape like the frame 100. The inner tube 200 is formed to be larger than the inner diameter of the frame 100 so that the frame 100 is inserted into the inner tube 200 or the inner diameter of the tube 200 is smaller than the inner diameter of the frame 100, Type. Basically, the present invention will be described on the basis of a structure in which the interior of the intermediate pipe 200 is formed larger than the diameter of the frame 100, and the frame 100 is inserted into the intermediate pipe 200.

Further, the intermediate tube 200 can be perforated in a direction perpendicular to the longitudinal direction so that the frame 100 can be vertically disposed.

Each component will be described in detail below.

The first heating pipe 10 is a pipe-shaped component as shown in FIG. 3 and is connected to the frame 100. The first heating pipe 10 is formed in the shape of a pipe having a hollow shape, and is preferably formed to have the same size as that of the intermediate pipe 200. That is, in this embodiment, since the frame 100 is inserted into the intermediate pipe 200, the hollow of the first heating pipe 10 is formed larger than the diameter of the frame 100. The frame 100 is inserted into the hollow of the first heating pipe 10 so that the outer periphery of the frame 100 and the inner periphery of the first heating pipe 10 abut each other.

3, the second heating pipe 20 is formed in the shape of a pipe like the first heating pipe 10, one end is fixed to the first heating pipe 10, and the intermediate pipe 200 is connected to the other end Lt; / RTI > The second heating pipe 20 is formed in the shape of a hollow pipe, and is formed to have the same size as the frame 100. That is, the diameter of the second heating pipe 20 is smaller than the hollow of the intermediate pipe 200. The second heating pipe 20 is inserted into the hollow of the intermediate pipe 200 so that the inner peripheral edge of the intermediate pipe 200 and the outer peripheral edge of the second heating pipe 20 are in contact with each other.

Meanwhile, when the intermediate pipe 200 is inserted into the frame 100, the sizes of the first heating pipe 10 and the second heating pipe 20 may be switched from each other.

The heating member 30 is connected to the first heating pipe 10 and the second heating pipe 20 to transmit heat to the inner circumference of the first heating pipe 10 and the outer circumference of the second heating pipe 20 As a component, a common heater can be used. The heating member 30 heats the outer peripheral edge of the first heating tube 10 and the inner peripheral edge of the second heating tube 20 so that the frame 100 made of synthetic resin and the intermediate tube 200 can be heat- The temperature of the outer periphery of the intermediate pipe 100 and the inner periphery of the intermediate pipe 200 are brought close to the melting point. Specifically, the heating member 30 includes a first heater 32 disposed on an inner side surface of the first heating tube 10 as shown in FIG. 4; A second heater (34) disposed on an outer surface of the second heating pipe (20); And a power supply 36 connected to the first and second heaters 34 to supply current.

As described above, the heat-welding apparatus according to the present invention can simultaneously and simply heat the outer periphery of the frame 100 and the inner periphery of the intermediate pipe 200 and then directly connect the frame 100 and the intermediate pipe 200, There is an advantage that heat fusion can proceed.

The supporting member 400 may further include a supporting member 400 for more easily fusing the frame 100 and the intermediate pipe 200 by using the thermal fusing device 300 according to the present invention. (Hereinafter referred to as " composite heat-sealing apparatus ") will be described with reference to the drawings.

Fig. 5 is a perspective view showing a supporting member, and Figs. 6 to 8 are perspective views showing an operating state of the supporting member.

Specifically, the supporting member 400 includes a supporting plate 410; A frame support 420 installed on one side of the support plate 410 and on which the frame 100 is fixed; A shaft holder 430 mounted on the frame support 420 side of the support plate 410; An intermediate tube support 440 installed on the other side of the backing plate 410 and fixed to the intermediate tube 200 and moved along the longitudinal direction of the backing plate 410; A rotary shaft 450 having one end connected to the shaft holder 430 and the other end connected to the intermediate pipe support 440; And a connecting rod 460 having one end fixed to the rotating shaft 450 and the other end fixed to one side of the heat sealing apparatus 300.

The support plate 410 is a plate-shaped component serving as a base on which the respective components of the support member 400 are installed. In the present invention, as shown in FIG. 5, a pair of support plates 410 are installed side by side.

5, the pair of rail guides 412 are disposed side by side on the upper surface of the support plate 410. The rail guide 412 is formed with a rail groove on a bottom surface thereof so that a sliding plate 442 to be described later can be inserted.

The frame support 420 is a component for fixing the frame 100, specifically, a support 422 fixed to the upper surface of the support plate 410; A fastening band 424 formed on the supporter 422 and composed of a semicircular supporter 425 and a lid 426 hinged to the supporter 425; And a fixing pin 428 fastened to the fastening band 424 to fix the lid part 426.

The support table 422 is vertically fixed to the upper surface of the support plate 410.

The fastening band 424 is provided on the upper surface of the support base 422 and serves to fix the frame 100. The fastening band 424 includes a base 425 and a lid 426. When the frame 100 is placed on the semicircular support portion 425, the cover portion 426 hinged to the support portion 425 covers the upper surface of the frame 100. [ Grooves are formed at the tip ends of the receiving portion 425 and the lid portion 426.

The fixing pin 428 is an element that is coupled to the fastening band 424 and serves to fix the frame 100. As shown in FIG. 5, each end is thicker than the center, (426), the lid portion (426) firmly fixes the frame (100).

The shaft holder 430 is vertically installed at one end of the receiving plate 410, and the end of a rotating shaft 450, which will be described later, is inserted. Further, one pair of shaft holders 430 may be provided, so that the support shaft 480 is further installed.

The intermediate pipe support 440 is a component for fixing the intermediate pipe 200, specifically, a sliding plate 442 installed between the rail guides 412 and moving along the longitudinal direction of the rail guide 412; A pair of vane plates 444 fixed to the upper surface of the sliding plate 442 and fixed to the intermediate tube 200; And a holder 446 installed on the blade plate 444 and through which the rotating shaft 450 penetrates.

The sliding plate 442 is installed on the upper surface of the receiving plate 410 and is inserted into the rail groove of the rail guide 412 and slides along the longitudinal direction of the receiving plate 410.

The wing plates 444 are provided on the upper surface of the sliding plate 442, and a pair of the wing plates 444 are arranged side by side at predetermined intervals, and the intermediate tube 200 is positioned therebetween. An insertion groove 445 is formed on the upper surface of the vane plate 444 to allow the vertical tube 210 installed in the intermediate tube 200 to be inserted. For reference, the vertical pipe 210 is a pipe installed in a vertical hole of the intermediate pipe 200, and is a kind of frame 100 installed vertically to the intermediate pipe 200.

The holder 446 is installed on the blade plate 444, and one end of a rotating shaft 450 to be described later is passed. Therefore, the holder 446 supports the rotating shaft 450 and can guide the intermediate tube support 440 to be stably moved when it is moved along the longitudinal direction of the receiving plate 410. Further, one holder 446 may be further provided to support the base shaft 480 to be described later.

The rotary shaft 450 is connected to the shaft holder 430 at one end and connected to the intermediate tube support 440 at the other end so that the thermal welding apparatus 300 according to the present invention can be rotated. 5, one end of the rotary shaft 450 is supported by the shaft holder 430, and the other end thereof is supported by the holder 446 of the intermediate tube support 440. As shown in FIG.

The connecting rod 460 is a component that has one end fixed to the rotating shaft 450 and the other end fixed to one side of the thermal welding apparatus 300 to rotate the thermal welding apparatus 300. The matters related to the rotation of the thermal fusing device 300 will be described later.

The lug 470 is fixed to the other side of the heat fusing device 300, that is, the opposite side of the portion where the fusebox 460 of the heat fusing device 300 is installed to restrict the rotation of the heat fusing device 300, Allowing the device 300 to be placed in the correct position.

One end of the support shaft 480 is supported by the shaft holder 430 and the other end is supported by the holder 446 of the support tube 440 and the retaining plate 470 is seated on the upper surface. 5, a pair of receiving plates 482 are provided at predetermined intervals in the supporting shaft 480 so that the receiving plate 470 is supported by the receiving plate 410 To move the base 480 in conjunction therewith.

Hereinafter, the thermal welding operation of the thermal welding apparatus 300 including the supporting member 400 will be described with reference to the drawings.

6, the frame 100 and the intermediate pipe 200 are fixed to the frame support 420 and the intermediate pipe support 440, respectively. Thereafter, as shown in FIG. 2, . At this time, the stopper 470 is engaged with the support shaft 480 so that the frame 100 and the intermediate tube 200 can be correctly inserted. When the intermediate tube 200 is pushed toward the thermal welding apparatus 300, the intermediate tube 200 and the thermal welding apparatus 300 are coupled as shown in FIG. 7 by sliding the frame supporting table 420. When the intermediate tube 200 is further pushed in the direction of the frame 100 in this state, the intermediate tube 200 and the heat-sealing apparatus 300 are moved together and the heat-sealing apparatus 300 and the frame 100) are combined.

When the thermal welding apparatus 300 is operated in this state, the outer periphery of the frame 100 and the inner periphery of the intermediate pipe 200 are melted by the heat of the heating member 30, 100 to separate the thermal fusing device 300 as shown in FIG. 2, and then the thermal fusing device 300 is rotated as shown in FIG. Finally, when the intermediate tube 200 is pushed toward the frame 100 and joined to the frame 100, the heat fusion is completed.

10: first heating tube 20: second heating tube
30: heating member 32: first heater
34: second heater 36: power supply
100: Frame 200:
210: Vertical tube 300: Heat fusion device
400: Supporting member 410: Support plate
412: rail guide 420: frame support
422: support base 424: fastening band
425: receiving portion 426: lid portion
428: Fixing pin 430, 430 ': Shaft holder
440: intermediate tube support 442: sliding plate
444: wing plate 445: insertion groove
446, 446 ': Holder 450: Rotary shaft
460: connecting rod 470:
480: Support shaft 482: Support plate

Claims (7)

A heat-fusing device for fusing a pipe-shaped frame (100) and an intermediate pipe (200) inserted in the frame (100)
A first heating tube 10 into which the frame 100 is inserted at one end;
A second heating pipe 20 having one end connected to the other end of the first heating pipe 10 and the intermediate pipe 200 inserted at the other end,
And a heating member (30) for transmitting heat to a surface of the first heating pipe (10) in contact with the frame (100) and a surface of the second heating pipe (20) in contact with the intermediate pipe (200) And the heat-sealing member.
The method according to claim 1,
The frame 100 is inserted into the first heating pipe 10,
And the intermediate pipe (200) is inserted outside the second heating pipe (20).
The method of claim 2,
The heating member 30 includes a first heater 32 disposed on the inner side of the first heating tube 10;
A second heater 34 disposed on the outer surface of the second heating pipe 20,
And a power supply (36) connected to the first and second heaters (34) to supply current.
A pipe-shaped frame 100;
An intermediate pipe 200 in the form of a pipe;
The heat sealing device (300) according to any one of claims 1 to 3, which is disposed between the frame (100) and the intermediate pipe (200) and fuses the frame (100)
And a supporting member 400 on which the frame 100, the intermediate tube 200, and the heat-sealing apparatus 300 are installed,
The supporting member 400 includes a support plate 410;
A frame support 420 installed on one side of the support plate 410 and to which the frame 100 is fixed;
A shaft holder 430 installed on the frame support plate 420 side of the support plate 410;
An intermediate tube support 440 installed above the other side of the receiving plate 410 and fixed to the intermediate tube 200 and moved along the longitudinal direction of the receiving plate 410;
A rotary shaft 450 having one end connected to the shaft holder 430 and the other end connected to the intermediate tube support 440,
And a connecting rod (460) having one end fixed to the rotating shaft (450) and the other end fixed to one side of the heat sealing apparatus (300).
The method of claim 4,
The frame support 420 includes a support 422 fixed to the upper surface of the support plate 410;
A fastening band 424 formed on the supporter 422 and composed of a semicircular supporter 425 and a lid 426 hinged to the supporter 425,
And a fixing pin (428) fastened to the fastening band (424) to fix the lid part (426).
The method of claim 4,
A pair of rail guides 412 are further provided on the upper surface of the receiving plate 410,
The intermediate pipe support 440 includes a sliding plate 442 installed between the rail guides 412 and moving along the longitudinal direction of the rail guide 412;
A pair of vane plates 444 fixed to the upper surface of the sliding plate 442 and to which the intermediate tube 200 is fixed,
And a holder (446) installed on the vane plate (444) and through which the rotating shaft (450) passes.
The method of claim 4,
And a support shaft (480) installed on the support plate (410) and supporting the support base (470), the support shaft (480) being fixed to the other side of the heat fusion apparatus (300) Device.

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