KR100432624B1 - A hot water supply apparatus for heating and the method thereof - Google Patents

Abstract

The present invention relates to a hot water supply device installed in a heating pipe and a method for manufacturing the same, and more particularly, to allow the water to be circulated in one side of the heat exchange tube and the water to be used as hot water in the other side to circulate the heat exchange. However, even though the hot water is continuously used by making the heat exchange area as large as possible, it is possible to continuously supply hot water heated to a temperature corresponding to 85% of the heating water temperature, and of the hot water being heated and prepared inside the hot water supply device. Hot water supply device for installation of heating pipes with a small amount of bubbles by forming a central divider in the middle of the divider and making the gap from the left closed wall of the divider to the left end of the divider 0.5 to 2 times the height of the divider. And to a method of manufacturing the same.

Description

A hot water supply apparatus for heating and installation method

The present invention relates to a hot water supply apparatus for use in a heating pipe of a boiler and a method of manufacturing the same.

In general, a heating boiler is provided with a hot water supply system for using hot water, but the hot water supply device provided in the boiler has a disadvantage in that the amount of hot water that can be supplied is small. However, the hot water supply device for heating the cold water to the inside of the supply unit by heating the temperature of the cold water close to the temperature of the heating pipe was instantaneously devised.

However, in the hot water supply device as described above, since a method of dispersing and heating cold water coming into the supply device is used, a lot of bubbles are generated and the amount of hot water that is already heated and prepared inside the supply device is small, and the cold water supply device is used. When it is heated through the heat exchange plate 22 inside, it passes instantaneously, so the cold water is 60% of the temperature of the heating water, that is, the temperature of the hot water passing through the heat exchange plate 22 when the temperature of the heating water is 100 ° C. There was a problem that can only be heated to 60 ℃.

The present invention solves this problem is less air bubbles, the amount of hot water being prepared to be heated inside the supply device is a large amount and the temperature corresponding to 85% of the heating water temperature (hot water supplied when the temperature of the heating water is 100 ℃ The temperature of 85 ℃) is to provide a hot water supply device that can continuously supply heated hot water.

In order to achieve this object, in the present invention, the heating water is circulated on one side of the heat exchanger and the water to be used as hot water is circulated on the other side to allow heat exchange. In order to maximize the area where heat exchange takes place within the size of and to reduce the occurrence of bubbles, the distance from the blocked wall of the separator plate to the left end of the separator plate is to be reduced. It is characterized by being 0.5 to 2 times the height.

1 is a perspective view of a state in which a hot water supply device of the present invention having a heating water inlet, a hot water outlet, a heating water outlet, and a cold water inlet formed on a front surface thereof is installed in a heating pipe;

Figure 2 is an internal cross-sectional view of the hot water supply device of the present invention

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a perspective view of a heat exchange box that is a component of the present invention;

Figure 5 is a schematic diagram for explaining the manufacture of the heat exchange box by stacking, forming a heat exchange box and forming an upper separator box

Figure 6 is a schematic diagram for explaining the manufacture of the lower part of the heat exchanger by forming a lower separator

7 is a schematic diagram of a conventional hot water supply apparatus in which a plurality of heat exchange plates are stacked so that incoming cold water is dispersed and instantaneous heat exchange occurs.

8 is a schematic diagram of a heat exchange plate used in a conventional hot water supply device

A: front view

B: B-B cross section

C: back view

<Explanation of symbols for main parts of drawing>

1. Heat Exchanger 2. Insulation

3. Metal plate 4. Heat exchange box

5, 5 '. Lateral plate 6, 6 '. Separator

7. Center separator 8. Blocked wall

9, 9 '. Left end 10.

11, 11 '. Right ends 12a, 12b. Partition wall

13. Heating water inlet 14. Hot water outlet

15a, 15b. Bubble Discharge Device 16. Upper Separator

17. Upper cover plate 18. Heating water outlet

19. Cold water inlet 20. Lower compartment

21a, 21b. Bottom cover plate 22. Heat exchanger plate

23. Packing 24a, 24b. Heating piping

Referring to the hot water supply device of the present invention as follows.

Insulating material (2) is wrapped around the outside of the heat exchange tube (1) and the metal plate (3) is wrapped around the outside of the heat insulating material (2), the heat exchange tube (1) is made of metal, such as copper or stainless steel and a plurality of heat exchange box (4 ) And a plurality of left and right side forming plates 5, 5 'are assembled by stacking as shown in FIGS. 5 and 6, and the heat exchange box 4 has a box-shaped separating plate 6 having one side open. (6 ') in the form of a central separation plate (7) in the center and when assembling the heat exchange box (4) to the left and right to change the direction and to install the side forming plates (5) (5') on the left and right In order to reduce the occurrence, when the center separator 7 is formed in the center of the separator 6, 6 ', the center separator (from the blocked wall 8 on the left or right side of the separator 6, 6') The distance between the left end 9 or the right end 11 of 7) is 0.5 to 2 times the height of the separator 6, 6 '. The reason for the increase of 0.5 to 2 times is that the distance between the closed wall 8 of the separator plates 6 and 6 'from the left end 9 or the right end 11 of the central separator 7 is equal to the separation plate ( 6) When the height is almost equal to or slightly larger than (6 '), preferably 1 to 1.25 times, the water flows smoothly and no bubbles are generated. For example, the distance between the closed wall 8 of the separator plates 6 and 6 'from the left end 9 or the right end 11 of the center separator 7 is equal to the separator plate 6 and 6'. If it is less than half (0.5 times) less than the height of the water, the water flow is blocked and bubbles are generated at the same time. On the contrary, from the left or right blocked wall (8) of the separator plate (6) (6 '), the central separator plate (7) When the gap between the left end 9 or the right end 11 of the separation plate 6, 6 'is greater than twice the height of the water flow is a lot of sudden sudden decreases and bubbles also occur. When stacking the heat exchange box (4), in the separation plate (6) (6 ') of the heat exchange box (4) so that the water flows slowly and the thermal contact area is enlarged so that the heat exchange between the hot heating water and the hot water to be heated is sufficient. The left end 9 'or the right end 11' of the central separator 7 formed to protrude to the left or the right side alternates between the left and right side forming plates 5 and 5 '. The side of the heat exchange box 4 is alternately stacked left and right, and the side forming plates 5 and 5 ′ are formed on the left and right sides of the stacked heat exchange box 4, respectively. The upper cover plate with a bubble discharge device (15a, 15b) is formed in the upper portion formed with an upper separation box (16) formed with a separation wall (12a), a heating water inlet (13) and a hot water outlet (14) ( 17) and the lower cover plate (21a) (21b) is formed after forming a lower separation box (20) formed with a partition wall (12b), a heating water outlet (18) and a cold water inlet (19) at the bottom. Form.

In addition, the heating water inlet 13 and the hot water outlet 14 may be formed on the front surface of the hot water supply device as shown in FIG. 1, but may also be formed on the side, the back or the top of the hot water supply device, and the heating water outlet 18. And cold water inlet 19 may be formed on the side or rear of the hot water supply.

On the other hand, the heat exchange tube 1 of the present invention is formed by welding the heat exchange box 4 and the side plate (5) (5 ') and the components constituting them.

When the hot water supply device of the present invention is installed, the heating water inlet 13 and the heating water outlet 18 of the hot water supply device are respectively connected to the heating pipes 24a and 24b, but the heating water is formed in the upper portion of the heat exchange tube 1. The heating water introduced through the inlet 13 is discharged through the heating water outlet 18 formed in the lower portion of the heat exchange tube 1, and then reheated in the boiler, and the cold water is cold water inlet 19 formed in the lower portion of the heat exchange tube 1. ) Is heated in the process of going up to the top to be discharged to the hot water outlet 14 of the top.

Referring to the operation of the present invention.

The heating water entering the heating water inlet (13) is circulated through the heat exchanger (1) and then discharged through the heating water outlet (18). The distance between the blocked end 8 of the heat exchange box 4 and the left end 9 or the right end 11 of the center separator 7 is 0.5 to 2 times the height of the separator 6, 6 '. It is possible to reduce the occurrence of bubbles and to flow by rotating the separating plates 6 and 6 ′ in which the plurality of heating water entering the heating water inlet 13 is rotated left and right, and thus cannot move quickly toward the heating water outlet 18. The heat exchange time is increased, and the heat exchange box 4 is in the form of a box, so that the heat exchange area is wide, so that the heat exchange is sufficient to heat the cold water for hot water supply to a higher temperature.

In addition, since the heating water entering the heating water inlet 13 does not move quickly and gradually flows, the bubble generation rate is lowered.

Reference numeral 10 is a right popped portion of the separator plate 23 is a packing used in the prior art to prevent leakage.

According to the present invention, even if the hot water is continuously used by making the heat exchange area as large as possible, the hot water heated up to a temperature corresponding to about 85% of the heating pipe temperature can be continuously supplied, and the hot water being heated inside the hot water supply device is being prepared. When forming a central divider in the middle of the divider, the spacing from the blocked wall of the divider to the left end of the divider should be 0.5 to 2 times the height of the divider, so that hot water supply for heating piping installation with less foaming occurs. A device can be provided.

Claims (2)

In the apparatus for supplying hot water by connecting to the heating pipe, the heat insulating material (2) is wrapped around the outside of the heat exchange tube (1) and the metal plate (3) is wrapped around the outside of the heat insulating material (2), the heat exchange tube (1) Metal, such as stainless steel, and a plurality of heat exchange boxes (4) and a plurality of left and right side forming plates (5) (5 ') are assembled by stacking, and the heat exchange box (4) is a box with one side open The center separator 7 is formed at the center of the separator 6, 6 ′ in the form of a separator. The left or right blind wall 8 of the separator 6, 6 ′ is formed from the left side of the center separator 7. The distance between the end 9 or the right end 11 is 0.5 to 2 times the height of the separation plates 6 and 6 '. When stacking the heat exchange boxes 4, the separation plate 6 of the heat exchange box 4 is provided. 6 '), the left end 9' or the right end 11 'of the center separator 7 formed to protrude left or right alternates the left and right side forming plates 5 and 5'. Thermal bridges The sides of the box 4 are alternately stacked left and right, and the side forming plates 5 and 5 'are formed on the left and right sides of the stacked heat exchange box 4, but the upper side of the heat exchange box 1 The upper cover plate 17 to which the bubble discharge device 15a, 15b is attached after forming the upper separation box 16 in which the partition wall 12a, the heating water inlet 13, and the hot water outlet 14 are formed. The lower separator 20 and the lower cover plate 21a, 21b having a partition wall 12b, a heating water outlet 18, and a cold water inlet 19 are formed at a lower portion thereof, Hot water supply device for heating piping installation, characterized in that the components formed by welding. In the manufacturing method of a device for supplying hot water by connecting to a heating pipe, the heat exchange tube (1) is made of metal such as copper or stainless steel a plurality of heat exchange box (4) and a plurality of left and right side forming plates (5) ( 5 ') having an assembly assembled by laminating and enclosing the heat insulator 2 on the outside thereof and enclosing the outside of the heat insulator 2 with the metal plate 3 again. When the center separator 7 is formed in the center of the separator 6 and 6 'in the box shape and the center separator 7 is formed in the center of the separator 6 and 6', bubbles are not generated. The distance between the left or right blind wall 8 of the separator 6, 6 'and the left end 9 or the right end 11 of the center separator 7 is equal to the separator 6, 6'. It is formed to be 0.5 to 2 times the height, and when stacking the heat exchange box (4), the water flows slowly and the thermal contact area is enlarged to exchange heat between hot heating water and hot water to be heated. The left end 9 'or right end 11' of the central separation plate 7 formed to protrude left or right from the separation plates 6 and 6 'of the heat exchange box 4 is left, The side forming plates 5 and 5 'of the right side are alternately stacked to be alternated left and right to be adjacent to each other alternately, and the side forming plates 5 and 5' are stacked as described above. It is formed on the left and right of the heat exchange box (4), but the upper separation box (16) is formed on the upper part of the heat exchange tube (1) having a separation wall (12a), a heating water inlet (13) and a hot water outlet (14). Then, the upper cover plate 17 having the bubble discharge devices 15a and 15b is formed, and the lower separation box 12 having the separation wall 12b, the heating water outlet 18, and the cold water inlet 19 is formed therein (20). ) And a lower cover plate (21a) (21b), but the manufacturing method of the hot water supply device for heating piping installation, characterized in that the components forming the heat exchange tube (1) formed by welding.