KR20180014366A - A rapid heating steam boiler - Google Patents

Abstract

The present invention relates to an instantaneous heating steam boiler (1000) which is able to improve an efficiency to generate steam and use heat. According to the present invention, the instantaneous heating steam boiler comprises: a heater line (500) which comprises: a first coil unit (530) piled up and wound to continuously come in contact with a first straight line unit (510) at least twice in an elliptical shape; and a second straight line unit (520) connected to the first coil unit to be parallel to the first straight line unit, wherein the first coil unit (530) is placed in between the first straight line unit (510) and the second straight line unit (520), and each end unit of the first straight line unit and the second straight line unit is placed in the same direction; a flow path pipe (600) which comprises: a second coil unit (630) piled up and wound to continuously come in contact with a third straight line unit (610) at least twice in an elliptical shape; and a fourth straight line unit (620) connected to the second coil unit to be parallel to the third straight line unit (610), wherein the second coil unit (630) is inserted into between the first straight line unit (510) and the second straight line unit (520) of the heater line to wrap around the first coil unit (530); and a main frame (700) in which the first coil unit (530) of the heater line and the second coil unit (630) of the flow path pipe are buried and which is formed by molding to expose each end unit of the first straight line unit and the second straight line unit of the heater line and each end unit of the third straight line unit and the fourth straight line unit of the flow path pipe to the outside.

Description

[0001] A rapid heating steam boiler [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an instantaneous heating type steam boiler used in an apparatus using steam, such as a steam type iron, a steam cleaner, and the like. More particularly, the present invention relates to an instantaneous heating type steam boiler for improving efficiency of steam generation, heat conduction, assembly, .

Korean Patent Registration No. 10-825824 and Korean Patent No. 10-825825 disclose a "instantaneous heating steam boiler".

For example, the instantaneous heating type steam boiler 100 includes a main body 150 in which the heater line 110, the flow pipe 130, the heater line 110, and the flow pipe 130 are embedded as shown in FIG.

The heater line 110 includes a first rectilinear section 111 and a second rectilinear section 113 that are parallel to each other and an arc-shaped return section 110 that connects one end of the first rectilinear section 111 and the second rectilinear section 113, (115) and forms a U-shape.

The flow pipe 130 is formed in a U-shape like the heater line 110. One end of the flow pipe 130 is configured to function as a water inlet 131 and the other end functions as a steam outlet 133.

The flow pipe 130 and the heater line 110 are superposed and disposed in opposite directions in a state of being in contact with each other.

17, the return portion 150 of the flow pipe 330, one end of which is the water inlet 331 and the other end serves as the steam outlet 333, is formed in a coil shape , And the coil-shaped portion encloses a part of the body of the U-shaped heater line 110.

In the conventional instantaneous heating type steam boiler constructed as described above, the flow pipe and the heater line are formed in a U-shape and embedded in the main body while being in contact with each other, and the length of the flow pipe can be reduced, There is a limit to improve the heat conduction efficiency to the flow pipe and the thermal efficiency of the heater line, and there is a problem that the flow pipe and the heater line are buried There is a limit in reducing the volume of the main body to be compact.

Korean Patent Registration No. 10-825824. Korean Patent Registration No. 10-825825.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an instantaneous heating type steam boiler in which the structure of a heater line and a flow pipe is improved to improve steam generation efficiency and heat utilization efficiency.

It is another object of the present invention to provide an instantaneous heating type steam boiler in which the structure of the heater line and the flow path tube is improved so that the volume of the main body in which the heater line and the flow path tube are built can be compact.

It is another object of the present invention to provide an instantaneous heating type steam boiler which can simplify the connection between the heater line and the flow path tube and maximize the contact area between the heater line and the flow path tube for heat conduction.

According to an embodiment of the present invention, there is provided an instantaneous heating type steam boiler,

The first coil portion being continuous with the first rectilinear portion and being wound in an elliptical shape at least twice and being laminated such that the winding portions are in contact with each other, And a second linear portion, wherein the first coil portion is positioned between the first rectilinear portion and the second rectilinear portion, and each end of the first rectilinear portion and the second rectilinear portion is positioned in the same direction;

And a second coil portion which is continuous to the third rectilinear portion and which is wound in an elliptical shape at least twice and laminated so that the winding portions are in contact with each other, and is configured to be parallel to the third rectilinear portion continuously from the second coil portion And the fourth coil portion includes a fourth straight portion, and the second coil portion is sandwiched between the first straight portion and the second straight portion of the heater line so as to surround the first coil portion.

According to another embodiment of the present invention, at least the first coil part of the heater line and the second coil part of the flow path tube are built in the main body and sealed.

According to another embodiment of the present invention, the main body is formed by molding.

According to another embodiment of the present invention, the end portions of the first rectilinear section and the second rectilinear section of the heater line and the ends of the third rectilinear section and the fourth rectilinear section of the flow pipe are exposed to the outside of the main body . ≪ / RTI >

According to another embodiment of the present invention, each end of the third rectilinear section and the fourth rectilinear section of the flow pipe is configured to be positioned in the same direction.

According to another embodiment of the present invention, the end portions of the third rectilinear section and the fourth rectilinear section of the flow pipe are arranged to be opposite to each other.

According to another embodiment of the present invention, the linear portion of any one of the third linear portion and the fourth linear portion of the flow pipe is formed with a bent portion at an intermediate portion of the straight portion, And is positioned between the first rectilinear section and the second rectilinear section of the line.

According to another embodiment of the present invention, the lamination thickness of the second coil portion of the flow pipe is set to be smaller by 0.2 to 10 mm than the width between the first straight portion and the second straight portion of the heater line.

The instantaneous-heating steam boiler according to the present invention constitutes a first coil part which is continuous to the first rectilinear part and which is wound at least twice in an elliptical shape so that the winding parts are in contact with each other, Wherein the first coil portion is located between the first rectilinear portion and the second rectilinear portion, and each end of the first rectilinear portion and the second rectilinear portion is the same as the first rectilinear portion A heater line configured to be positioned in a direction of the heater;

And a second coil portion which is continuous to the third rectilinear portion and which is wound in an elliptical shape at least twice and laminated so that the winding portions are in contact with each other, and is configured to be parallel to the third rectilinear portion continuously from the second coil portion And a second coil portion having a fourth straight portion, the second coil portion being sandwiched between a first straight portion and a second straight portion of the heater line and surrounding the first coil portion;

The first coil part of the heater line and the second coil part of the flow path tube are buried in the inside and the ends of the first rectilinear part and the second rectilinear part of the heater line, And the main body is formed by molding so that each end of the four rectilinear portions is exposed to the outside, thereby maximizing the efficiency of heat conduction to the flow pipe through the heater line.

The laminated thickness of the second coil portion of the flow pipe is set to be slightly smaller than the width between the first straight portion and the second straight portion of the heater line, The second coil portion of the flow pipe is configured so as to enclose the entire first coil portion of the flow pipe so that the heater line and the flow pipe are embedded The volume of the main body can be made compact and the effect of facilitating the connection of the heater line and the flow path tube when molding the main body can be obtained.

1 is a perspective view of a heater line of the present invention,
Fig. 2 is a plan view of Fig. 1,
Figure 3 is a side view of Figure 1
4 is a perspective view showing an example of a flow pipe of the present invention,
Fig. 5 is a plan view of Fig. 4,
Figure 6 is a side view of Figure 4,
7 is a perspective view showing an example of the instantaneous heating type steam boiler of the present invention,
Fig. 8 is a plan view of Fig. 7,
Figure 9 is a side view of Figure 7,
10 is a perspective view showing another example of the flow pipe of the present invention,
Fig. 11 is a plan view of Fig. 10,
Fig. 12 is a side view of Fig. 4,
13 is a perspective view showing another example of the instantaneous heating type steam boiler of the present invention,
Fig. 14 is a plan view of Fig. 13,
Fig. 15 is a side view of Fig. 13,
16 is a perspective view showing an example of a conventional instantaneous heating type steam boiler,
17 is a perspective view showing another example of a conventional instantaneous heating type steam boiler.

Hereinafter, the instantaneous-heating steam boiler of the present invention will be described in detail with reference to Figs. 1 to 15. Fig.

First, the technical construction and operation of the instantaneous heating type steam boiler according to the first embodiment will be described in detail with reference to Figs. 1 to 9. Fig.

(Embodiment 1)

The heater line 500 of the present invention includes a first rectilinear section 510 and a second rectilinear section 520 arranged substantially in parallel as shown in FIGS. 1 and 3, a first rectilinear section 510 and a second rectilinear section 520, And a first coil part 530 which is continuous with the first rectilinear part 520 and is formed in an elliptical shape by being wound twice between the first rectilinear part 510 and the second rectilinear part 520.

The first coil part 530 wound twice is configured to overlap with the upper and lower lines in contact with each other. The heater line 500 is made of a linear material having a diameter of approximately 7? Using a metal material such as aluminum having a high thermal conductivity. Each end of the first rectilinear section 510 and the second rectilinear section 520 has a power input terminal (511, 521). A heating line (not shown) connected to the power input terminals 511 and 521 may be installed in the heater line 500.

The length A of the first rectilinear section 510 and the second rectilinear section 520 is 70 mm and the length of the first coil section 530 located between the first rectilinear section 510 and the second rectilinear section 520, And the width C of the first coil part 530 may be equal to the width between the first rectilinear part 510 and the second rectilinear part 520 to be 20 mm. In this embodiment, since the number of turns of the first coil portion 530 is two, the total thickness of the first coil portion 530 is approximately 14 mm.

The lengths of the first rectilinear section 510 and the second rectilinear section 520, the length, width, and number of turns of the first coil section 530 are not limited to those exemplified in the present embodiment, .

4 and 6, the third straight line 610 and the fourth straight line 620, the third straight line 610 and the fourth straight line 610, And a second coil part 530 which is continuous to the rectilinear part 620 and is formed in an elliptical shape by being wound four times between the third rectilinear part 610 and the fourth rectilinear part 620.

The fourth coiled second coil part 630 is configured to overlap the upper and lower lines in a state of being in contact with each other. The flow pipe 600 is formed of a pipe having an outer diameter of approximately 4φ so as to allow water to pass therethrough. It is manufactured using a metal material such as copper having a high thermal conductivity.

The length A of the third rectilinear section 610 and the fourth rectilinear section 620 is 85 mm and the length of the second coil section 630 located between the third rectilinear section 610 and the fourth rectilinear section 620, And the thickness D of the second coil part 630 is approximately 16 mm because the tube body of 4? Is wound four times and overlapped .

The lengths of the third rectilinear section 610 and the fourth rectilinear section 620, the length of the second coil section 630, and the number of turns are not limited to the numerical values exemplified in the present embodiment, Can be set.

7 to 9, the second coil portion 630 of the flow pipe 600 configured as described above is sandwiched between the first straight portion 510 and the second straight portion 520 of the heater line 500 The first coil part 530 of the heater line and the second coil part 530 of the heater coil are coupled in such a manner as to surround the width C (20 mm) of the first coil part 530 by the wound thickness D (16 mm) of the second coil part 630 And the second coil portion 630 of the flow pipe is sealed in the body 700 by using a molding method or the like, whereby the instantaneous heating type steam boiler 1000 is manufactured. The main body 700 may be made of a metal material having high heat resistance or containing aluminum.

A power input terminal 511 and 521 respectively formed in the first rectilinear section 510 and the second rectilinear section 520 of the heater line and a third rectilinear section 610 and a fourth rectilinear section 620 Each end 611, 621 is configured to be exposed to the outside of the body.

The end portions 611 and 621 of the third rectilinear section 610 and the fourth rectilinear section 620 of the flow pipe are located in the same direction and the first rectilinear section 510 and the second rectilinear section 520 of the heater line And is positioned opposite to the power input terminals 511 and 521.

The thickness D (16 mm) of the second coil portion 630 of the flow pipe 600 is set to be greater than the thickness D (16 mm) of the heat pipe 500 by joining the heater line 500 and the flow pipe 600, The width C (20 mm) between the first rectilinear section 510 and the second rectilinear section 520 of the heater line 500, that is, the first coil section 300 of the heater line 500 can be covered and covered.

Since the width C between the first rectilinear section 510 and the second rectilinear section 520 of the heater line 500 illustrated in the present invention is 20 mm, the second coil section 630 is wound five times to increase the thickness D to 20 mm However, the number of turns of the second coil part 630 is four in order to allow a slight margin when the heater line 500 and the flow pipe 600 are coupled.

When water is injected through the end portion 611 of the third rectilinear section 610 in the combined structure of the heater line 500 and the flow path pipe 600 and then flows through the first coil section 530 of the heater line 500 The second coil portion 630 of the flow pipe 600 is instantaneously heated according to the heat conduction so that the water in the tube body is discharged as steam (steam) through the end portion 621 of the fourth rectilinear portion 620.

Next, with reference to FIGS. 10 to 15, the description and the operation of the second embodiment of the instantaneous heating type steam boiler will be described.

(Second Embodiment)

Since the heater line 500 is the same as that of the first embodiment, repetitive description will be omitted,

The flow pipe 1600, which is different from the first embodiment, will be described with reference to Figs. 10 to 12. Fig.

The flow pipe 1600 of the present invention is continuous to the third rectilinear section 1610 and the fourth rectilinear section 1620 and extends between the third rectilinear section 1610 and the fourth rectilinear section 1620 a plurality of times 4 And a second coil portion 1630 that is elliptically formed by being wound.

The fourth coiled second coil part 1630 is configured to be overlapped with the upper and lower lines in contact with each other. The flow pipe 1600 is made of a pipe having an outer diameter of about 4φ so that water can pass through it, and is manufactured using a metal such as copper.

Each end of the third rectilinear section 1610 and the fourth rectilinear section 1620 of the flow pipe is located opposite to each other, a bent section 1615 is formed at an intermediate portion of the third rectilinear section 1610, The second straight line portion of the flow pipe 1600 is positioned between the first straight line portion 510 and the second straight line portion 520 of the heater line 500 as shown in FIGS. And is positioned between the first rectilinear section 510 and the second rectilinear section 520 of the heater line when fitted.

The second coil part 1630 of the flow pipe 1600 constructed as described above is sandwiched between the first straight part 510 and the second straight part 520 of the heater line 500 and is inserted into the second coil part 1630, The first coil part 530 of the heater line and the second coil part 1630 of the flow tube are connected in such a manner as to surround the width C (20 mm) of the first coil part 530 by the wound thickness of the first coil part 530 Is sealed in the main body 700 by a method such as molding to produce the instantaneous heating type steam boiler 2000.

Power input terminals 511 and 521 respectively formed in the first rectilinear section 510 and the second rectilinear section 520 of the heater line and the power supply terminals 511 and 521 of the third rectilinear section 1610 and the fourth rectilinear section 1620 The ends 1611 and 1621 are configured to be exposed to the outside of the main body.

The coiled thickness of the second coil part 1630, that is, the entire laminated thickness part of the second coil part 1630, is formed by joining the heater line 500 and the flow pipe 1600, The width C (20 mm) between the first rectilinear section 510 and the second rectilinear section 520 of the line 500 can be covered and covered.

When water is injected through the end portion 1611 of the third rectilinear section 1610 of the flow pipe in the coupling structure, the flow path of the flow pipe 1600 in accordance with the heat conduction through the first coil section 530 of the heater line 500 The second coil portion 1630 is momentarily heated and the water in the tube is discharged as steam (steam) through the end portion 1621 of the fourth rectilinear section 1620.

The present invention is not limited to the above description and drawings, and various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention. Should be included in the scope of the claims set forth in the claims of the present invention.

100,300,1000,2000: Instant Steam Boiler
500: heater line
510: first straight line portion
520: second rectilinear section
530: first coil part
511,521: Power input terminal
600, 1600: Euro tube
610 and 1610:
620, 1620:
630, 1630:
611, 1611: end of the third rectilinear section
621, 1621: the end of the fourth rectilinear section
700:
1615:

Claims (8)

The first coil portion being continuous with the first rectilinear portion and being wound in an elliptical shape at least twice and being laminated such that the winding portions are in contact with each other, And a second linear portion, wherein the first coil portion is positioned between the first rectilinear portion and the second rectilinear portion, and each end of the first rectilinear portion and the second rectilinear portion is positioned in the same direction;
And a second coil portion which is continuous to the third rectilinear portion and which is wound in an elliptical shape at least twice and laminated so that the winding portions are in contact with each other, and is configured to be parallel to the third rectilinear portion continuously from the second coil portion Wherein the second coil portion has a fourth straight portion, and the second coil portion is sandwiched between the first straight portion and the second straight portion of the heater line so as to surround the first coil portion. Boiler.
The method according to claim 1,
Wherein at least the first coil part of the heater line and the second coil part of the flow path tube are built in the main body and sealed.
The method according to claim 1,
Wherein the main body is formed by molding.
The method according to claim 1,
Wherein each end of the first linear portion and the second linear portion of the heater line and each end of the third straight portion and the fourth straight portion of the flow pipe are exposed to the outside of the main body. .
The method according to claim 1,
And each end of the third rectilinear section and the fourth rectilinear section of the flow pipe is located in the same direction.
The method according to claim 1,
Wherein a thickness of the second coil part of the flow pipe is smaller than a width between the first straight part and the second straight part of the heater line by 0.2 to 10 mm.
The method according to claim 1,
And the ends of the third rectilinear section and the fourth rectilinear section of the flow pipe are positioned opposite to each other.
8. The method of claim 7,
Wherein the straight line portion of any one of the third straight line portion and the fourth straight line portion of the flow path tube has a bent portion formed in the middle of the straight line portion and the straight line portion formed continuously to the bent portion includes a first straight line portion and a second straight line portion Wherein the steam boiler is located between the steam boiler and the steam boiler.

Images