KR101142799B1 - Apparatus for making fin-tube block of intercooler system - Google Patents

Abstract

PURPOSE: A pipe expander using a wire is provided to prevent the blockage of an expansion ball during manufacture of a fin-tube block and to remove the need for an expansion rod. CONSTITUTION: A pipe expander comprises a wire, a supporting unit, a motor, a power transmission unit, a winding unit, and a motor stop part. The supporting unit comprises a first receiving pipe, a first link, a second link, and a link drive handle. The first receiving pipe accommodates the wire and is mounted on a guide frame. The first link is coupled with the guide frame. The second link is coupled to the rear end of the first link. The link drive handle is coupled with one side of the second link and operated back and forth to move the first receiving pipe back and forth.

Description

[0001] Apparatus for making fin-tube block of intercooler system [0002]

More particularly, the present invention relates to a radiating fin tube block which is assembled with a radiating fin tube and a tube sheet, which are parts of an intercooler system used in a ship or the like. More specifically, And pulling it into the inside of the tube, thereby forcibly deforming the inside diameter of the tube, thereby integrating the radiating fin and the tube.

The present invention relates to an apparatus for integrating a tube with a heat radiating fin used in an intercooler system (see Fig. 1) of a marine engine or the like.

FIG. 1 is an exploded perspective view of an intercooler main body manufactured by the apparatus of the present invention. FIG. 2 is a perspective view of a tube sheet 120 of the components shown in FIG. 1 mounted with a radiating fin tube block (a radiator fin and a tube integrally formed therewith) Fig. 3 shows only the tube sheet 120. Fig.

Referring to FIGS. 1 and 2, a tube 150 and a pair of tube sheets 120, which receive a tube end portion, are disposed at the center of the body 100, the tube being integrally formed by pulling the tube.

A channel cover 170 and a reversing cover 175 are disposed on the front and rear surfaces of the main body, respectively. Side plates 180a and 180b are coupled to both sides of the main body, And a condensate collector 190 is disposed on the surface. The passages through which the water flows into and out of the tube are an absorption port 160 and a drain port 161, respectively. 4 is a side view of the radiating fin tube block. The radiating fin tube block is integrated by inserting the tube into the hole formed in the radiating fin 110 and then expanding the inside diameter of the tube.

2, a tube is inserted into a hole formed in the radiating fin, which is stacked to form a combined body of the radiating fin 110 and the tube 150, and then an expanding rod 1320 made of a metal as shown in FIG. 26 is inserted into the tube And the inner diameter of the tube was expanded by pushing it, thereby integrating the radiating fin and the tube.

However, the above-mentioned prior art has encountered the following problems.

That is, when the length of the radiating fin is long, the length of the expanding rod 1320 must also increase correspondingly, and the apparatus shown in Fig. 26, in which the expanding rod is mounted, has a complicated configuration and occupies a very large space.

Another method of integrating the radiating fin tube block includes a method (not shown) of placing the radiating fin and the tube in an assembled state, placing only the dilatation ball on the tube end opening and plastically deforming the inside diameter of the tube by projecting the dilatation ball into the tube with a high water pressure In this case, the problem of frequent occurrence of failure to get out of the tube due to non-uniformity of water pressure was also found.

Problems to be solved by the present invention are as follows.

First, we propose a wire expander that can easily integrate a finned tube block even in a narrow space. Secondly, there is no phenomenon such as conventional expansion ball clogging (high pressure ejection type) This paper proposes a wire expander with a motor power drive extension and a wire expander with an inexpensive and simple structure, unlike a pipe expansion system using an existing expansion rod.

The above problem can be solved by having the following configuration.

That is, in the step of pulling the wire into the tube, attaching a spreading ball to the wire, pulling the wire by the motor, and then joining the tube and the tube sheet together, In an expansion pipe for manufacturing a radiating fin tube assembly,

And the other end is wound on the winding portion and the middle portion of the wire is wound in the groove between the upper and lower rollers 800, 500);

Wherein the expansion pipe is provided with supporting means for supporting the heat dissipating fin, tube, and tube sheet so that the heat dissipating fin, tube, and tube sheet are not pulled together with the wire during the expansion process (wire pulling process by the motor).

A motor 800 for generating a driving force for winding the wire;

A power transmitting means (810) for transmitting the power generated from the motor;

A winding portion 830 through which the wire is wound;

After the expansion process is completed, the motor stopping portion B for automatically stopping the motor,

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The supporting means includes a first receiving pipe (610) having wires housed therein and mounted on a guide frame (690);

A first link 670 coupled with the guide frame 690;

A second link coupled to be pivoted rearward of the first link;

And a link drive handle (650) coupled to one side of the second link so as to rotate forward and backward to thereby move the first accommodating pipe (610) forward and backward.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed structure of other inventions will be described in detail with reference to the accompanying drawings.

According to the present invention, it is possible to easily perform the work of integrating the fin tube block even in a narrow space. When the expanding ball passes through the inside of the tube for the coupling of the radiating fin tube block, there is no phenomenon such as the conventional expansion bulb clogging There is no advantage.

And it is easy to manufacture because it has a cheap and simple configuration unlike the expansion pipe system using the previous expansion rod.

1 is an exploded perspective view of an intercooler system main body,
2 is a photograph of a radiating fin tube
3 is a perspective view of a tube sheet,
FIG. 4 is a side view photograph of a state in which FIG. 2 is stacked,
5 to 15 are diagrams for explaining a process of expanding by the apparatus of the present invention,
16 is a photograph of the control panel
17 is a perspective view of the apparatus of the present invention,
FIGS. 18 and 19 are views for explaining a configuration involved in a wire forwarding and backwarding process,
20 is a view for explaining a motor stopping process,
21 is a view for explaining an operation process by the link drive handle,
22 is a view showing a process of integrating a tube sheet with a heat generating fin and a tube,
23 to 25 are a front view, a plan view and a side view of Fig. 17
26 is a photographic view showing the expansion rod of the conventional expansion pipe system.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. It is to be noted that the scope of the present invention is not limited to the embodiments, but all inventions within the scope of the same or equivalent claims to the claims of the present invention belong to the scope of the present invention.

A schematic configuration of the present invention will be described as follows.

That is, in the step of pulling the wire into the tube, attaching a spreading ball to the wire, pulling the wire by the motor, and then joining the tube and the tube sheet together, In an expansion pipe for manufacturing a radiating fin tube assembly,

And the other end is wound on the winding portion and the middle portion of the wire is wound in the groove between the upper and lower rollers 800, 500);

Wherein the expansion pipe is provided with supporting means for supporting the heat dissipating fin, tube, and tube sheet so that the heat dissipating fin, tube, and tube sheet are not pulled together with the wire during the expansion process (wire pulling process by the motor).

A motor 800 for generating a driving force for winding the wire;

A power transmitting means (810) for transmitting the power generated from the motor;

A winding portion 830 through which the wire is wound;

After the expansion process is completed, the motor stopping portion B for automatically stopping the motor,

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The supporting means includes a first receiving pipe (610) having wires housed therein and mounted on a guide frame (690);

A first link 670 coupled with the guide frame 690;

A second link coupled to be pivoted rearward of the first link;

And a link drive handle (650) coupled to one side of the second link so as to rotate forward and backward to thereby move the first accommodating pipe (610) forward and backward.

The motor stop B is formed in a coupling shape that can slide inside the first accommodating pipe, the wire is accommodated therein, and a second accommodating pipe (615); A limit switch (685) for stopping the operation of the motor by the operation of the rotary member driving member; So that the expansion bulb coupled to the wire end portion is retracted while being caught by the pipe end portion 615a of the second accommodating pipe to operate the limit switch.

As described above, the intercooler 100, which is an object of manufacture of the present invention, is for cooling the intake air in an industrial engine, particularly a marine engine. The intercooler 100, It is a system that effectively discharges heat.

FIG. 1 is an exploded perspective view of an intercooler main body manufactured by the apparatus of the present invention. FIG. 2 is a perspective view of a tube sheet 120 of the components shown in FIG. 1 mounted with a radiating fin tube block (a radiator fin and a tube integrally formed therewith) Fig. 3 shows only the tube sheet 120. Fig.

Referring to FIGS. 1 and 2, a tube 150 and a pair of tube sheets 120, which receive a tube end portion, are disposed at the center of the body 100, the tube being integrally formed by pulling the tube. 4 is a side view of the radiating fin tube block. The radiating fin tube block is integrated by inserting the tube into the hole formed in the radiating fin 110 and then expanding the inside diameter of the tube. Figure 5 corresponds to an actual photograph with a tube, tube sheet and other outer frame mounted.

In the present invention, a description will be given of an apparatus for integrating a radiating fin tube block.

First, the outline of the process of integrating the radiating fins with the tube using the present invention device will be described first.

6 and 17 are respectively a photograph and a perspective view of a manufacturing apparatus according to a preferred embodiment of the present invention.

6 is a device for inserting a wire 500 into the tube sheet hole 122 and the tube 150 shown in Fig.

5 is a state in which the tube sheet 120 of FIG. 3 and the radiating fin 110 of FIG. 4 and the tube 150 are assembled together, and the radiating fins and tubes of FIG. 4 are also assembled together. The tube sheet, the tube, and the heat dissipation fin are integrated through the expansion process by the apparatus described in the present invention.

Hereinafter, the state of Fig. 5 "temporarily assembled Tube heat sink fin tube sheet ".

The inner diameter of the tube is forcibly deformed by allowing the expansion bulb 510 attached to the end of the wire 500 to pass through the tube 150 so that the heat dissipation fin 110 and the tube 150 are integrated . The integration of such a radiating fin with the tube is generally referred to as "expansion work (expansion of the tube) or expansion process".

The expansion ball is different from the ball shape, but has a roughly elliptical shape.

The expansion process will be described below in the order of operations.

The end of the first housing pipe 610 of Fig. 17 is moved to one side of the gum tube heat-radiating fin tube sheet of Fig. At this time, a wire 500 (see FIG. 8) is accommodated in the first housing pipe, and a wire receiving stand 514 is coupled to the wire end. The lower left portion of the photograph in Fig. 7 corresponds to the first housing pipe 610 and the link drive handle 650 in the apparatus of Fig.

As will be described later, in the step of starting the work as shown in FIG. 7, the wire accommodating stand 514 is not engaged with the expansion ball 510 (FIG. 12), and the wire 500 is moved from the tube- And then, after pushing out through the opposite tube opening, the wire receiving stand 514 and the spreading ball are coupled by means of the bolt 512 or the like in Fig.

At this time, the reason for coupling the expansion ball 510 is that the expansion ball having an outer diameter larger than the inner diameter of the tube 150 is expanded by pulling the left end of the wire by the motor as shown in turn in FIG. (Or expanded) to integrate the radiating fin 110, the tube 150, and the tube sheet 120 together.

The role of the link drive handle 650 is to guide the end 610a of the first containment pipe 610 to the side of the first support pipe 610 in order to perform the expanding operation as shown in Fig. 21 (a view for explaining the operation of the link drive handle) 7 so as to firmly adhere to the tube sheet 120.

The portion indicated by the tube sheet holding portion A in Fig. 19 is a portion which advances toward the tube sheet by the operation of the link drive handle and is brought into close contact with the tube sheet.

21 is a side view of a state in which the link driving handle is operated back and forth. The first link 670 fitted to the guide frame hole 1 in accordance with the operation of the link drive handle, the first link 670 connected to the rear portion of the first link 2 link 672, the guide frame 690 and the first housing pipe 610 are operated.

21 shows a state in which the expansion ball 510 is mounted on the end of the wire. FIG. 21 is a view for explaining the operation of the link drive handle. In FIG. 7, Do not.

After the state shown in FIG. 7, the first handle is rotated as shown in FIG. 9 so that the wire 500 is passed through the tube to protrude to the opening opposite to the tube. That is, when the first handle is turned, only the wire (including the wire receiving unit) can be advanced as shown in FIG.

As shown in FIG. 11, after the wire is sufficiently drawn out to the opening opposite to the tube, the expansion bulb 510 is engaged with the wire receiving base 514 as shown in FIGS. 12 and 13. At this time, there are various joining methods other than the screw coupling.

Next, pull out the wire (expanding ball mount) for tube expansion.

At this time, it should be noted that it is necessary to check whether the first housing pipe 610 is tightly adhered to the tube sheet as shown in FIG. 15, the link drive handle 650 should be moved forward and tightly adhered, as the wire is pulled back, and when the expanding ball is drawn while expanding the inside of the tube, state of Figure 5 and the same "temporarily assembled Tube heat sink fin tube sheet "is not pulled together with the wire .

The second handle 591 is a handle for manually retracting the wire. The second handle is used when pulling out the wire protruding as shown in Fig. 11 only to the position of the opening of the tube sheet hole 122 as shown in Fig.

In the state shown in Fig. 13, the motor 800 (see Fig. 17) is operated to reverse the wire. The coupling relationship between the tube 150 in the wire retraction process and the heat dissipation fin 110 and the tube sheet is shown in Fig. The tube 150 and the tube sheet 120 and the radiating fins 110 form a block as a single body while plasticizing the tube while passing through the inside of the tube.

Hereinafter, the configuration and functions of the apparatus according to the preferred embodiment of the present invention will be described.

Referring to FIG. 17, the present invention corresponds to a device that accommodates a wire and pushes (advances) or pulls (retracts) the wire into the tube.

FIG. 18 is an enlarged view of the upper part of the apparatus of FIG. 19, and FIG. 19 is an exploded perspective view of the apparatus of FIG.

17 to 19, a rail 850 is provided on the base 840 at the bottom, and the device can be moved left and right. And a gear box 810 connected to the motor output shaft and a wire winding part 830 are connected to a first end of the gear box by a shaft 820 for transmitting power.

However, when the tube length is long, the length of the expanding rod 1320 is also long and the length of the expanding rod 1320 is long. So that the apparatus becomes complicated and expensive. In the present invention, since the wire is wound around the wire winding part 830, the device of the present invention occupies only a very small area, and there is an advantage that the components of the device are greatly simplified.

Although both the expansion operation using the conventional fluid pressure and the expansion operation using the mill-large expansion rod of Fig. 26 have taken the method of pushing the expansion ball from the front of the tube, the technical point of the present invention is that the wire is inserted into the tube sheet in the assembled state, , The tube is inserted into the hole in the tube in advance, and then the wire is pulled out to expand it, which is different from the conventional technique.

The pulling speed of the wire can be adjusted by freely adjusting the speed of the motor 800 when the pulling-type expanding operation is performed by the present invention device, thereby enabling the expansion operation to be performed in accordance with each intercooler specification.

As a result of the wire pulling operation by the apparatus of the present invention, it has been confirmed that the quality of the expanding operation, that is, the coupling state of the radiating fins and the tube is very good.

On the contrary, during the expansion work using the conventional fluid pressure, the phenomenon that the expansion ball is embedded in the intermediate position of the tube during the expansion process due to the unevenness of the fluid pressure is very frequent, so it is necessary to remove it again and to expand it again.

The components of the first receiving pipe 610 in which the wire 500 is housed and the devices connected to the rear end of the first receiving pipe 610 will be described below. The name of the housing pipe is named because it houses the wire inside.

Referring to FIG. 19, a plurality of first housing pipes 610 are formed side by side, and wires are housed therein.

The second accommodating pipe 615 is located inside and behind the first accommodating pipe and is also connected to the inside of the second accommodating pipe through the grooves 800a and 802a of the upper and lower rollers 800 and 802 And is wound or unwound by the wire winding portion 830.

The upper and lower rollers should be formed of a cylindrical metal so that the wire can be wound and unwound reliably during the spreading process.

Hereinafter, a configuration of the apparatus for stopping the motor at the moment when the wire is pulled by the motor will be described.

20 shows a state after the wire (a) enters the first housing pipe 610 (a)). In the step (b), the outer diameter portion of the expansion bulb 510 is inserted into the second housing Is caught by the pipe end portion 615a of the pipe 615 and is moved backward together.

(c) is a view in which the rotary arm driving member 617 pushes the portion of the rotary rocking arm 675 to operate the limit switch 685 (FIG. 19). This stops the wire pulling operation of the motor. In Fig. 19, a configuration related to stopping the motor is indicated by a motor stop B. The cogwheel driving member 617 moves forward and backward while being inserted into the elongated receiving hole 673 and is positioned as shown in FIG. 20 (c) to stop the motor.

Meanwhile, the first and second receiving pipes and the rear frame 640 can be moved up and down along the rail 852, which is a known technique, and thus a detailed description thereof will be omitted.

23 to 25 correspond to a front view, a plan view, and a side view of the apparatus of the present invention, respectively.

According to the present invention, it is possible to easily perform the work of integrating the fin tube block even in a narrow space. When the expanding ball passes through the inside of the tube for the coupling of the radiating fin tube block, there is no phenomenon such as the conventional expansion bulb clogging There is no advantage.

And it is easy to manufacture because it has a cheap and simple configuration unlike the expansion pipe system using the previous expansion rod.

100: intercooler main body 110: radiating fin
112: radiating fin hole 120: tube sheet 122: tube sheet hole
150: tube 160: absorption port 161: drain port
170: channel cover 175: reversing cover 180a, 180b: side plate
190: Condensate collector 1320: Expansion rod
300: Expansion pipe 500: Wire 510:
512: bolt 514: wire receptacle
590: first handle 591: second handle
610: first receiving pipe
610a: pipe end portion 615: second receiving pipe
615a: pipe end portion 617:
640: rear frame
650: link drive handle 670: first link
672: second link 675:
685: Limit switch 690: Guide frame
800: upper roller 802: lower roller
800a, 802a: groove 830: winding part
A: tube sheet support part B: motor stop part

Claims (2)

A heat-radiating fin tube for use with a wire, which is used in a process of pushing a wire into a tube, attaching a spreading ball to the wire, pulling the wire by a motor, In the expansion tank for the assembly,
One end is formed detachably this check gwanbol 510 with a larger outer diameter than the bore, and the other end is wound around the winding wire advances and retreats while sandwiched in the groove between the stop portion the upper and lower rollers (800 802) ( 500);
Wherein the expansion pipe is provided with supporting means for supporting the heat dissipating fin, tube, and tube sheet so that the heat dissipating fin, tube, and tube sheet are not pulled together with the wire during the expansion process (wire pulling process by the motor) .
A motor 800 for generating a driving force for winding the wire ;
A power transmitting means (810) for transmitting the power generated from the motor ;
The winding 830 is wound around the wire;
After the expansion process is completed, the motor stopping portion B for automatically stopping the motor ,
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The supporting means includes a first receiving pipe (610) having wires housed therein and mounted on a guide frame (690);
A first link 670 coupled with the guide frame 690;
A second link coupled to be pivoted rearward of the first link;
And a link drive handle (650) coupled to one side of the second link so as to rotate forward and backward to thereby move the first accommodating pipe (610) forward and backward.
Expansion pipes using wire.
The motor control apparatus according to claim 1, wherein the motor stop section (B)
A second receiving pipe (615) which is formed in an engageable manner to be slidable in the first accommodating pipe and accommodates the wire therein and has a rotatable arm driving member (617) at an end thereof ;
A limit switch (685) for stopping the operation of the motor by the operation of the rotary member driving member ;
So that the expansion switch coupled to the wire end portion is retracted while being held by the pipe end portion 615a of the second accommodating pipe to operate the limit switch.

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