KR101297215B1 - Fixing apparatus of heat exchange pipe at plate and fixing method thereof - Google Patents

Abstract

The present invention relates to a heat exchange tube, a plate fixing device and a fixing method, and more particularly, to fix a plurality of heat exchange tubes for boilers having a middle portion bent and having both ends facing in the same direction in parallel to the plate. A plurality of first fixing holes are formed so that one end is inserted in a row, and a plurality of second fixing holes are formed so that the other ends of the heat exchange tube are inserted in a row, and a plurality of first fixing holes respectively correspond to the first fixing holes of the plate. A plurality of second through holes corresponding to each of the first through holes and the second fixed hole are provided on the upper side of the body frame and the body frame formed on the upper end, and the plate is mounted on the first moving hole and the second through hole corresponding to the first through hole. A mounting portion having a second moving hole corresponding to the first through hole and the first moving hole, and the second through hole and the second moving hole, respectively located on the same line and communicating with each other. While moving up and down through, when moving to the lower side by extending the respective ends of the heat exchanger tube inserted into the first fixed hole and the second fixed hole of the plate to fix the end of the heat exchanger tube to the first process hole and the second fixed hole It is provided in the molding unit and the body frame for fixing the heat exchanger tube to a lifting portion for lifting the molded part.

Description

Fixing apparatus of heat exchange pipe at plate and fixing method

The present invention relates to fixing a heat exchanger tube, and more particularly, it is possible to fix it firmly and easily as the ends of the plurality of heat exchanger tubes inserted into respective fixing holes of the plate are extended and fixed from the inside to the outside. By omitting the non-professional can easily work with the heat exchanger tube and plate fixing device and fixing method that can improve the work efficiency.

In general, as shown in FIG. 1, a conventional boiler is provided with a plurality of heat exchange tubes 1 therein, and heats water moved along the heat exchange tubes 1 with a high temperature gas or liquid to exchange temperature. After raising, it is circulated to the room for heating.

The end of the heat exchange tube 1 is coupled to the support plate 6 is installed in the boiler, a plurality of holes are formed in the support plate 6 is coupled to the end of the heat exchange tube (1).

In other words, after the end of the heat exchanger tube 1 is installed in the hole of the support plate 6, the heat exchanger tube 1 is joined to the support plate 6 by bending outward to form an expansion tube portion 1a.

Many of these heat exchange tubes 1 are unclear because the method or apparatus for expanding the expansion tube 1a is not specified. To prevent the heat exchanger tube (1) from escaping in the direction opposite to the direction in which it was inserted.

However, the molded expansion tube 1a may have a difference depending on the material ductility of the heat exchanger tube 1, but when most of the metals are enlarged as shown in FIG. 1, the end portion is cut and the defect occurrence rate is high. have.

In addition, even if the end is not cut, the thickness of the expansion part 1a becomes thin, which causes a problem of low coupling force.

In order to solve this problem, the Korean Utility Model Registration No. 20-0376697 (2005.02.15.) Developed a technique for fixing the heat exchange tube (1).

As shown in FIG. 2, the improved heat exchange tube fixing device separates the first support plate 8 and the second support plate 9 from each other, and the ends of the heat exchange tube 1 have the first support plate 8 and the second. After penetrating the support plate 9, the end of the heat exchange tube 1 is welded to the second support plate 9 by welding to fix it.

However, since the heat exchanger tube 1 and the second support plate 9 are formed of sus or copper plates, holes are melted due to high heat during welding, and a high incidence of defects is still generated. There is a problem that the cost increases as it must.

Accordingly, there is an urgent need to develop a heat exchanger tube fixing technology capable of firmly fixing a plurality of heat exchanger tubes to a support plate, as well as reducing a defect rate and reducing costs.

Accordingly, the present invention has been made to solve the above problems, the mounting portion for mounting a plate on which a plurality of heat exchanger tube is mounted is provided on the upper surface of the body frame, and moved up and down by the elevating portion end of the heat exchanger tube Heat exchanger tube and plate fixing device which has a molding part fixed to each fixing hole of the plate and securely secures it, as well as non-specialists can easily work by omitting conventional welding. And a fixing method.

In order to achieve the above object, the present invention is to fix a plurality of heat exchange tubes for boilers in which a middle portion is bent and both ends thereof face in the same direction in parallel, and the plate is inserted so that one end of the heat exchange tube forms a row. First fixing holes are formed, and a plurality of second fixing holes are formed to be inserted into the other ends of the heat exchange tube in a row, and a plurality of first through holes and the second fixing holes respectively corresponding to the first fixing holes of the plate are formed. A plurality of second through holes corresponding to each of the balls are formed in the upper end of the body frame, and provided on an upper side of the body frame to mount the plate, corresponding to the first moving hole and the second through hole corresponding to the first through hole. A mounting portion formed with a second moving hole, and each of the first through hole and the first through hole and the second through hole in communication with each other It moves up and down through a second moving hole, and when moving to the lower side, each end of the heat exchanger tube inserted into the first fixed hole and the second fixed hole of the plate is extended outward to extend the end of the heat exchanger tube to the first process hole and the first process hole. 2 is fixed to the fixing hole comprises a forming portion for fixing the heat exchanger tube to the plate, and the lifting portion provided in the body frame for lifting the forming portion.

Preferably, the mounting portion, the first mounting block is fixed to the upper surface between the first through hole and the second through hole of the body frame, the second mounting block fixed to the outer upper surface of the first through hole, the second through hole A third forming block fixed to an outer upper surface of the first forming block, the first forming block provided between the first mounting block and the second mounting block, the first forming block having a first moving hole vertically communicating with the first through hole, and the second mounting block It is provided between the block and the third mounting block, and comprises a second forming block through which the second moving hole is in communication with the second through hole up and down, the first mounting block, the second mounting block, the third mounting block The plate is mounted on the upper end of the molding unit in the first moving hole of the first molding block and the second moving hole of the second molding block, and is fitted into the first fixing hole and the second fixing hole of the plate.

And the molding portion, the lower end is fixed to each of the first moving hole and each of the second moving hole, the inner through the inner hole to communicate with the first through hole or the second through hole of the body frame therein, in the middle Pressure rods branched into a plurality of pieces at regular intervals to an upper end portion, a lifting frame positioned below the pressing rods to be lifted and lowered by the lifting unit, and a lower end fixed to the lifting frame, and communicating with the inner through hole of each pressurizing rod. A lifting rod which is moved along the through hole and the second through hole, and is provided at an upper end of the lifting rod installed in the pressure rod, and is provided to protrude upward of the pressure rod, and has a larger diameter than the lifting rod but is connected to the lifting rod. It is made to include a pressing piece tapered inwardly inclined toward the lower side, and to be fixed to the first process hole and the second fixed hole of the plate When the lifting frame is moved downward by the lifting unit in a state where each end of the heat exchanger tube is located, the lifting rod and the pressing piece are moved downward, so that the pressing piece bends the branched upper end of the pressing rod to the outside. The bent upper end expands the end of the heat exchanger tube to the outside to fix the first fixed hole or the second fixed hole of the plate.

In addition, the upper end portions of the pressure rods provided in the first and second movement holes, respectively, are branched at different positions to expand both ends of the heat exchanger tube, and are first expanded and fixed by the pressure rods provided in the first movement hole. The end of the heat exchanger tube is secondly expanded and fixed by the pressure rod provided in the second moving hole, or vice versa. The second expansion is secured by the pressure rod provided in the first moving hole, but the second expansion is the first expansion, as part of the end of the less extended heat exchanger tube expands to extend the entire end of the heat exchanger tube Fix it to

In addition, the pressure rod is formed by inserting the end of the heat exchanger tube to be formed in multiple stages along the outer circumferential surface of the upper end.

In addition, by fixing a plurality of heat exchange tubes for boilers in which the middle part is bent and both ends face in the same direction in parallel to the plate, a plurality of first fixing holes are inserted so that one ends of the plurality of heat exchange tubes to be fixed are inserted in a row. And a plate having a plurality of second fixing holes formed therein so that the other ends of the heat exchange tube are inserted in a row, and the plurality of first fixing holes are provided in the first molding block of the mounting portion. A plate mounting step of inserting a pressure rod is inserted into the plurality of second fixed holes to be inserted into the plurality of pressure rods provided in the second molding block, both ends of the heat exchange tube corresponding to the first fixed hole and the second fixed hole of the plate Heat exchanger tube mounting step of inserting into the upper part of the branched upper end of each pressurized rod, by the elevating rod moved up and down by the elevating unit As the branched upper end of the pressure bar is bent to the outside, each end of the mounted heat exchanger tube is fixed to the inner surface of the first fixing hole and the second fixing hole of the plate by fixing the first fixing step of the heat exchanger tube, and the heat exchanger tube is fixed. After the plate is separated from the mounting portion, one end of the heat exchanger tube fixed to the second fixed hole is mounted on each pressure rod provided in the first molding block, and then each pressure rod is moved by the lifting portion to the outside. As a result of bending, the second end of the heat exchanger tube fixed to the second fixing hole is secondly expanded and fixed, and the part of one end of the heat exchanger tube which is less extended in the first fixing step is expanded to extend the entire end portion. Heat fixing tube fixing step of fixing and fixing the second fixing step, and after the second fixing step, the plate is separated from the mounting part, and the other end of the heat exchanging tube fixed to the first fixing hole It is mounted on each pressure rod provided in the mold block, and then the second end of the heat exchanger tube fixed to the first fixed hole is expanded and fixed as the pressure rod is bent outwardly by the lifting unit. And a third heat exchange tube fixing step in which a part of the other end of the heat exchange tube which is less extended in the fixing step is expanded to expand and fix the entire end portion.

The upper end portions of the pressurizing rods provided in the first forming block and the second forming block, respectively, are formed in different branched positions so as to expand both ends of the heat exchanger tube, respectively. The less expanded portion of the end is extended by the other pressure rod.

As described above, according to the heat exchanger tube and the plate fixing device and the fixing method according to the present invention, it is possible to easily fix a plurality of heat exchanger tube to the plate as well as to prevent and minimize defects, and to omit welding It is a very useful and effective invention that makes it easy for non-professionals to improve their work efficiency.

1 is a view showing a conventional heat exchanger tube and the plate fixed state,
2 is a view showing a conventional heat exchanger tube and the plate fixed state,
3 is a view showing a heat exchange tube and a plate fixing device according to the present invention,
4 is a view showing a side view of the heat exchange tube and the plate fixing device according to the present invention,
5 is a view showing a plan view of the heat exchange tube and the plate fixing device according to the present invention,
6 is a view showing a molded part of the heat exchanger tube and the plate fixing device according to the present invention,
7 is a view showing an operating state in the heat exchange tube and plate fixing apparatus according to the present invention,
8 is a view showing a flow chart of the heat exchange tube and plate fixing method according to the present invention,
9 is a view showing a heat exchange tube and a plate fixing method according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

It should be noted that the present invention is not limited to the scope of the present invention but is only illustrative and various modifications are possible within the scope of the present invention.

3 is a view showing a heat exchange tube and a plate fixing device according to the present invention, Figure 4 is a view showing a side view of the heat exchange tube and plate fixing device according to the present invention, Figure 5 is a heat exchange tube and 6 is a view showing a plan view of the plate fixing device, and FIG. 6 is a view showing a molded part of the heat exchanger tube and the plate fixing device according to the present invention, and FIG. 8 is a view showing a flow chart of the heat exchange tube and plate fixing method according to the present invention, Figure 9 is a view showing a heat exchange tube and plate fixing method according to the present invention.

As shown in the figure, the heat exchanger tube fixing device 100 for the boiler is composed of a body frame 110 and the mounting portion 120, the forming unit 130 and the lifting unit 140, a plurality of heat exchange tubes (20). It will be fixed to the plate (10).

First, the boiler heat exchange tube 20 is a corrugated tube, the middle portion is bent a number of times so that both ends in the same direction in parallel.

In addition, a plurality of first fixing holes 12 are formed so that one end of the heat exchange tube 20 is inserted in a row, and the plate 10 is formed of a plurality of first fixing holes 12 so that the other ends of the heat exchange tube 20 are inserted in a row. The two fixed holes 14 are formed.

Both ends of the heat exchange tube 20 are fixed to the first fixing hole 12 and the second fixing hole 14 by the heat exchange tube fixing device 100, so that a plurality of heat exchange tubes 20 are attached to the plate 10. It is fixed.

The body frame 110 of the heat exchange tube fixing device 100 for this is a plurality of first through holes 112 and second fixing holes 14 corresponding to the first fixing hole 12 of the plate 10, respectively. A plurality of second through holes 114 respectively corresponding to the upper ends are formed.

And the mounting portion 120 is provided on the upper side of the body frame 110 to mount the plate 10, the first moving hole 126 and the second through hole corresponding to the first through hole 112 (114) A second moving hole 127 corresponding to) is formed.

The molding unit 130 expands each end portion of the heat exchange tube 20 mounted on the first fixed hole 12 and the second fixed hole 14 of the plate 10, thereby replacing the heat exchange tube 20 with the plate 10. It is fixed at.

The molding unit 130 is positioned up and down through each of the first through hole 112 and the first moving hole 126 and the second through hole 114 and the second moving hole 127 communicated with each other positioned on the same line. When moved to the lower side, each end of the heat exchanger tube 20 inserted into the first fixing hole 12 and the second fixing hole 14 of the plate 10 is extended to the outside.

As described above, when each end of the heat exchanger tube 20 is extended outward, the end of the expanded heat exchanger tube 20 is fixed to the first process hole 12 and the second fixed hole 14. 20 may be fixed to the plate 10.

In addition, the lifting unit 140 is provided to the body frame 110 to elevate the forming unit 130, in one embodiment, the hydraulic cylinder is moved back to the lower side by the operation unit 200 to the original side.

As the forming unit 130 is moved downward by the elevating unit 140, each end of the heat exchanger tube 20 is extended to the outside to be fixed to the plate 10, and the forming unit 130 extended as it is moved upward. The upper end portion of the) may be returned to the original shape, so that the heat exchange tube 20 may be separated from the molding part 130.

As shown in FIG. 3, the mounting unit 120 includes a first mounting block 121, a second mounting block 122, a third mounting block 123, a first molding block 124, and a second mounting block 124. It is composed of a forming block (125).

First, the first mounting block 121 is fixed to the upper surface between the first through hole 112 and the second through hole 114 of the body frame 110, the second mounting block 122 is the first through hole ( 112) is fixed to the outer upper surface.

The third mounting block 123 is fixed to the outer upper surface of the second through hole 114, and the first mounting block 121, the second mounting block 122, and the third mounting block 123 are mutually constant. It is spaced apart to mount the plate 10.

The first molding block 124 is provided between the first batch block 121 and the second batch block 122, the first moving hole 126 is vertically communicated with the first through hole 112, the through hole, The second molding block 125 is provided between the second mounting block 122 and the third mounting block 123, and the second moving hole 127 which communicates with the second through hole 114 up and down is passed through the second forming block 125.

The mounting part 120 is a plate 10 is mounted on the first mounting block 121, the second mounting block 122, the third mounting block 123, the first movement of the first molding block 124 The upper end of the molding unit 130 is installed in the second moving hole 127 of the ball 126 and the second molding block 125, so that the first fixing hole 12 and the second fixing hole 14 of the plate 10 are provided. )

1 to 4, the molding unit 130 is composed of a pressure bar 132, a lifting frame 134, a lifting bar 136 and the pressing piece 138.

As shown in Figure 4, the pressure bar 132, the lower end is fixed to each of the first moving hole 126 and each of the second moving hole 127 of the mounting portion 120, the body frame 110 therein The interior of the through-hole so as to communicate with the first through hole 112 or the second through hole 114, the branch from the middle portion to the upper end at a plurality of intervals.

In addition, the elevating frame 134 is located on the lower side of the pressure bar 132 and is elevated by the elevating unit 140, and moves up and down as guided along a plurality of guide rods 116 provided in the body frame 110. At the same time, warping is prevented.

The lifting bar 136 is fixed to the lifting frame 134 at the lower end, and moves along the inner through hole 132a, the first through hole 112, and the second through hole 114 of each pressurized bar 132 in communication. do.

And the pressing piece 138 is provided on the upper end of the lifting bar 136 installed in the pressure bar 132, is provided to protrude to the upper side of the pressure bar 132, has a larger diameter than the lifting bar 136 The taper 138a is inclined inward toward the lower side connected to the lifting bar 136.

Of course, the inner perforated upper end inner surface of the pressure rod 132 is also tapered 132c so as to correspond to the tapered portion 138a of the pressure piece 138, when the downward movement of the lifting bar 136, branched pressure It is preferable to easily extend the upper end of the rod 132 to the outside.

The forming unit 130 is a lifting unit 140 in the state where each end of the heat exchange tube 20 to be fixed to the first process hole 12 and the second fixed hole 14 of the plate 10 is located. When the lifting frame 134 is moved to the lower side, the lifting bar 136 and the pressing piece 138 is moved to the lower side.

As the pressing piece 138 moved downward extends the branched upper end of the pressing rod 132 to the outside, the upper end being bent extends the end of the heat exchange tube 20 to the outside to correspond to the plate 10. It is fixed to the first fixed hole 12 or the second fixed hole (14).

3, each pressurizing rod 132 provided in the first moving hole 126 and the second moving hole 127 in order to enlarge both ends of the heat exchange tube 20 is branched from the upper end. The positions are formed differently.

In one embodiment, the upper end of the pressing rod 132 is divided into four, the branching direction of the pressing rod 132 inserted into the first moving hole 126 and fixed to the first molding block 124 is branched in a cross shape. do.

The branching direction of the pressure rod 132 inserted into the second moving hole 127 and fixed to the second molding block 125 branches in two diagonal directions perpendicular to each other.

In other words, the branching direction of the pressing rod 132 fixed to the first molding block 124 and the branching direction of the pressing rod 132 fixed to the second molding block 125 are formed differently and extend in different directions. .

When the plurality of heat exchanger tubes 20 are fixed to the plate 10 by the molding unit 130, each end of the heat exchanger tube 20 may include a pressure rod 132 fixed to the first molding block 124. The pressure rods 132 fixed to the second molding block 125 extend in different directions and are fixed to the plate.

That is, the less-extended portion of any one end of the heat exchanger tube 20 extended by the pressure rod 132 fixed to the first molding block 124 is the pressure rod 132 fixed to the second molding block 125. By expanding by) it is possible to expand the entire end of the heat exchanger tube 20 to improve the fixing force.

In addition, an end of the heat exchange tube 20 fixed by the pressure rod 132 provided in the first moving hole 126 of the first forming block 124 is moved to the second moving hole 127 of the second forming block 125. Secondary expansion by the pressure rod 132 provided in the) to be fixed.

Accordingly, the entire end portion of the heat exchange tube 20 may be extended to the inner surface of the first fixing hole 12 to fix the plate 10 firmly.

In addition, an end of the heat exchange tube 20 fixed by the pressure rod 132 provided in the second moving hole 127 of the second forming block 125 is moved into the first moving hole 126 of the first forming block 124. Secondary expansion by the pressure rod 132 provided in the) to be fixed.

Accordingly, the entire end portion of the heat exchange tube 20 may be extended to the inner side surface of the second fixing hole 14 to fix the plate 10 firmly.

At this time, the pressure rod 132 is formed with a multi-stage 132b along the outer circumferential surface of the upper end is inserted into the end of the heat exchanger tube 20 to be fixed, and the plurality of heat exchanger tube 20 is temporarily fixed. The heat exchange tube 20 can be fixed to the plate 10 uniformly.

5 is a view illustrating a state in which the heat exchanger tube 20 is fixed to the plate 10 by the heat exchanger tube fixing device 100 for the boiler.

Looking at the method of fixing the heat exchanger tube using the heat exchanger tube fixing device 100 for such a boiler, as shown in Figure 6 to 7, the plate mounting step (S10) and the heat exchanger tube mounting step (S20), heat exchange tube first fixing It consists of a step (S30), the heat exchange tube second fixing step (S40) and the heat exchange tube third fixing step (S50).

First, the plate mounting step (S10) is a plurality of first fixing holes 12 are formed so that one ends of the plurality of heat exchange tubes 20 to be fixed in a row is formed, the other end of the heat exchange tube 20 The plate 10 on which the plurality of second fixing holes 14 are formed is mounted on the mounting part 120 so that the second fixing holes 14 are inserted in a row.

In other words, a plurality of pressing rods 132 provided in the first molding block 124 of the mounting part 120 are inserted into the plurality of first fixing holes 12, and the plurality of second fixing holes 14 are inserted therein. The plate 20 is mounted so that the plurality of pressure rods 132 provided in the second molding block 125 are inserted.

And the heat exchange tube mounting step (S20) is inserted into both ends of the first fixing hole 12 and the second fixing hole 14 of the plate 10 of the heat exchange tube 20 branched of each pressure rod 132 It is mounted on the upper end.

The heat exchanger tube fixing step S30 is a heat exchanger tube 20 mounted as the branched upper end portions of the pressure rods 132 are bent outwardly by the elevating rods 136 that are moved up and down by the elevating unit 140. Each end of the plate 10 is fixed to extend to the inner surface of the first fixing hole 12 and the second fixing hole 12 of the plate (10).

Here, the plurality of heat exchange tubes 20 may be fixed to the plate 10 one by one, or after the plurality of heat exchange tubes 20 are all inserted into the plate 10, may be fixed at the same time, optionally Fixing is preferred.

In addition, when fixing the plurality of heat exchange tubes 20 to the plate 10, a separate clamp (not shown) for fixing the plate 10 to the mounting portion 120 may be further provided.

In the second fixing step S40 of the heat exchanger tube, the heat exchanger tube 20 fixed to the plate 10 by the pressure rods 132 provided in the first molding block 124 is connected to the second molding block 125. Secondary expansion by the fixed pressure bar 132.

At this time, in order to enlarge both ends of the heat exchanger tube 20, each of the pressing rods 132 provided in the first forming block 124 and the second forming block 125 is formed to have a different branched position at the upper end.

Accordingly, the entire end portion of the heat exchange tube 20 may be extended to the inner surface of the first fixing hole 12 to fix the plate 10 firmly.

Looking at the heat exchange tube second fixing step (S40) in more detail, after separating the plate 10, the heat exchange tube 20 is fixed in the mounting portion 120, the heat exchange tube fixed to the second fixing hole 14 One end of the 20 is mounted on each pressure rod 132 provided in the first molding block 124.

And by bending the pressure bar 132 to the outside by the lifting unit 140 to be fixed by expanding the second end of any one end of the heat exchange tube 20 fixed to the second fixing hole 14, the first In the fixing step (S30) by expanding a portion of any one end of the less extended heat exchanger tube 20 to expand and fix the entire end of the heat exchanger tube 20 can be fixed to enhance the fixing force.

The third heat exchange tube fixing step S50 is opposite to the second heat exchange tube fixing step S40, and the heat exchange tube fixed to the plate 10 by the respective pressure rods 132 provided in the second forming block 125 is formed. 20) is secondly expanded by the pressure rod 132 fixed to the first molding block 124.

The third heat exchange tube fixing step (S50) is a heat exchange tube after the second fixing step (S40), the plate 10 of the heat exchange tube 20 fixed to the first fixing hole 12 after the plate 10 is separated from the holder. The end is mounted on each pressure rod 132 provided in the second molding block 125.

As the pressure rods 132 are bent to the outside by the lifting unit 140, the other end of the heat exchanger tube 20 fixed to the first fixing hole 14 is secondly expanded and fixed. In the fixing step (S30), by expanding a portion of the other end of the less extended heat exchanger tube 20 to expand the entire other end of the heat exchanger tube 20, the fixing force may be reinforced to enhance the fixing force. .

Here, the heat exchange tube second fixing step (S40) and the heat exchange tube third fixing step (S50) may be changed in order depending on the case, a plurality of heat exchange tubes 20 in the first heat exchange tube fixing step (S30). As it is fixed to the plate 10, the order may be changed.

In addition, the number of heat exchange tubes 20 through which the number of heat exchange tubes 20 passed through the third fixing step S50 may be further provided with the same reinforcement step (not shown) as the first fixing step S30 of the heat exchange tube. By this reinforcing step, the heat exchange tube 20 can be more firmly fixed to the plate 10.

10 plate 20 heat exchange tube
100: fixing device 110: body frame
120: mounting portion 121: first mounting block
122: second mounting block 123: third mounting block
124: first molding block 125: second molding block
130: molding part 132: pressure bar
134: lifting frame 136: lifting bar
138: pressure piece 140: lifting portion
200:

Claims (7)

By fixing a plurality of heat exchange tubes for boilers in which the middle part is bent and both ends face in the same direction in parallel,
The plate has a plurality of first fixed holes are formed so that one end of the heat exchange tube is inserted in a row, a plurality of second fixed holes are formed so that the other ends of the heat exchange tube are inserted in a row,
A body frame having a plurality of first through holes corresponding to the first fixed holes of the plate and a plurality of second through holes respectively corresponding to the second fixed holes;
A mounting portion provided on an upper side of the body frame to mount the plate and having a first moving hole corresponding to the first through hole and a second moving hole corresponding to the second through hole;
The first fixed hole and the second fixed hole of the plate are moved up and down through each of the first through hole and the first moving hole and the second through hole and the second moving hole which are located on the same line and communicate with each other. A molding part configured to fix the heat exchanger tube to the plate by extending each end of the heat exchanger tube inserted into the ball to fix the end of the heat exchanger tube to the first process hole and the second fixed hole; And
It is provided on the body frame and comprises an elevator for lifting the molded part,
The mounting portion,
A first latch block fixed to an upper surface between the first through hole and the second through hole of the body frame;
A second mounting block fixed to an outer upper surface of the first through hole;
A third mounting block fixed to an outer upper surface of the second through hole;
A first molding block provided between the first and second mounting blocks, the first forming block through which the first moving hole communicates up and down with the first through hole; And
It is provided between the second block and the third block block, and comprises a second molding block through which the second moving hole communicates with the second through hole up and down,
The plate is mounted on the first mounting block, the second mounting block, and the third mounting block,
An upper end portion of the molding part is installed in the first moving hole of the first forming block and the second moving hole of the second forming block to be fitted into the first fixing hole and the second fixing hole of the plate. Device.
delete The method of claim 1, wherein the molded part,
The lower part is fixed to each of the first moving hole and each of the second moving hole of the mounting portion, the interior is through the internal communication so as to communicate with the first through hole or the second through hole of the body frame, from the middle portion to the upper end at regular intervals A plurality of pressurized rods;
An elevating frame positioned on the lower side of the pressure bar and lifted by the elevating unit;
A lifting rod fixed to the lifting frame at a lower end thereof and moved along the inner through hole of each pressurized rod and the first through hole and the second through hole; And
It is provided on the upper end of the elevating rod installed in the pressure rod, is provided to protrude to the upper side of the pressure rod, and has a larger diameter than the elevating rod, including a pressurized piece tapered inwardly toward the lower side connected to the elevating rod and ,
When the lifting frame is moved downward by the lifting unit in the state where each end of the heat exchange tube to be fixed to the first process hole and the second fixing hole of the plate is located, the lifting rod and the pressing piece are moved downward to the As the pressing piece bends the branched upper end of the pressurizing rod to the outside, the bent upper end extends the end of the heat exchanger tube to the outside to fix the first fixing hole or the second fixing hole of the plate. And plate holder.
The method of claim 3,
In order to enlarge both ends of the heat exchanger tube, the upper end portions of the pressure rods provided in the first moving hole and the second moving hole, respectively, have different branched positions.
The second end of the heat exchanger tube is first expanded by the pressure rod provided in the first moving hole and fixed by the second pressure rod provided in the second movement hole.
Alternatively, on the contrary, the end of the heat exchanger tube which is first expanded and fixed by the pressure rod provided in the second fixing hole is secondly expanded and fixed by the pressure rod provided in the first moving hole.
The second expansion is a heat exchanger tube and plate fixing device, characterized in that when the primary expansion, the portion of the less extended heat exchanger tube is expanded to be fixed to the plate as it extends the entire end of the heat exchanger tube.
The pressure rod of claim 3,
Heat exchanger tube and plate fixing device characterized in that the end of the heat exchanger tube to be formed in multiple stages formed along the outer peripheral surface of the upper end is fitted.
By fixing a plurality of heat exchange tubes for boilers in which the middle part is bent and both ends face in the same direction in parallel,
A plurality of first fixing holes are formed to insert one end of the plurality of heat exchange tubes to be fixed in a row, and a plate having a plurality of second fixing holes formed to insert the other ends of the heat exchange tubes in a row to the mounting portion. The plurality of pressing rods provided in the first molding block of the mounting portion are inserted into the plurality of first fixing holes, and the plurality of pressing rods provided in the second molding block are inserted into the plurality of second fixing holes. Plate mounting step to make;
A heat exchange tube mounting step of inserting both ends of the heat exchange tube into corresponding first fixed holes and second fixed holes of the plate and inserting the ends of the heat exchange tubes into branched upper ends of the respective pressure rods;
As the branched upper end of each pressurized rod is bent outward by an elevating rod that is moved up and down by an elevating unit, each end of the mounted heat exchanger tube is extended and fixed to the inner surfaces of the first fixing hole and the second fixing hole of the plate. Heat exchange tube first fixing step;
After separating the plate in which the heat exchanger tube is fixed from the mounting portion, one end of the heat exchanger tube fixed to the second fixed hole is mounted on each pressure rod provided in the first molding block, As the pressure rods are bent outwardly, any one end of the heat exchanger tube fixed to the second fixing hole is secondly expanded and fixed, and a portion of one end portion of the heat exchanger tube which is less extended in the first fixing step is expanded. A second heat exchange tube fixing step of expanding and fixing the entire end portion; And
After the second fixing step, after removing the plate from the mounting portion, the other end of the heat exchanger tube fixed to the first fixed hole is mounted on each pressure rod provided in the second molding block, and then the lifting By bending each of the pressure bar to the outside by means of the secondary expansion of the end of the heat exchanger tube fixed to the first fixed hole by fixing the second part of the other end of the heat exchanger tube less extended in the first fixing step A third heat exchange tube fixing step of expanding and fixing the entire end by expanding;
The upper end portions of the pressure rods provided in the first molding block and the second molding block, respectively, are branched at different positions so as to respectively enlarge both ends of the heat exchange tube. A method for fixing a heat exchanger tube and a plate, characterized in that the other pressure rod expands the less expanded portion of the end. delete

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