KR20200062104A - Apparatus for generating hot water - Google Patents

Abstract

Disclosed is a hot water generator comprising: a housing including first and second pipe parts formed in a tubular shape, and a flow path part for communicating one end of the first pipe part and one end of the second pipe part; a first heater coaxially disposed with the first pipe part to allow the outer surface thereof to be adjacent to the inner surface of the first pipe part; and a second heater coaxially disposed with the second pipe part to allow the outer surface thereof to be adjacent to the inner surface of the second pipe part. The housing includes a water inlet formed to communicate with the other end side of the first pipe part, and a water outlet formed to communicate with the other end side of the second pipe part. The first pipe part includes a first spiral flow forming part including a spiral protrusion or groove formed on the inner surface thereof. The second pipe part includes a second spiral flow forming part including a spiral protrusion or groove formed on the inner surface thereof. The first heater primarily heats water flowing while rotating in a spiral shape along a path defined by the inner surface of the first pipe part, the outer surface of the first heater and the first spiral flow forming part by being introduced through the water inlet. The second heater secondarily heats water flowing while rotating in a spiral shape along a path defined by the inner surface of the second pipe part, the outer surface of the second heater and the second spiral flow forming part by being introduced from the first pipe part through the flow path part. According to the present invention, the efficiency of the heater can be enhanced.

Description

Apparatus for generating hot water

The present invention relates to a hot water generating device.

In general, a hot water generating device provided in a bidet or the like comprises a housing, a ceramic heater mounted in the housing, and a fixing member fixing the ceramic heater to the housing.

The housing and the ceramic heater have a cylindrical shape and are usually arranged coaxially. An inlet port communicating with the inside of the ceramic heater is formed in the fixing member, and an outlet port is formed in the housing.

Therefore, the water entering the inlet passes through the inside of the ceramic heater and flows along the outside of the ceramic heater to be discharged through the outlet. When water flows inside the ceramic heater, it is heated in contact with the inner wall of the ceramic heater, and when water flows outside the ceramic heater, it is heated by contact with the outer wall of the ceramic heater, and this heated water is discharged to the outlet.

However, the hot water generating device configured as described above has a problem in that the flow path is simple and water passing through the heater does not sufficiently contact the heating surface of the heater, causing heat waste.

Domestic registered patent publication No. 10-1504642

A hot water generating device capable of increasing the efficiency of a heater for generating hot water is provided.

The apparatus for generating hot water according to an embodiment of the present invention includes a first pipe portion formed in a tubular shape, a second pipe portion formed in a tubular shape, and a flow path portion communicating one end of the first pipe portion with one end of the second pipe portion. Housing; A first heater disposed coaxially with the first tube portion such that an outer surface is adjacent to the inner surface of the first tube portion of the housing; And a second heater disposed coaxially with the second tube part so that an outer surface is adjacent to the inner surface of the second tube part of the housing, and the housing is in communication with the other end side of the first tube part. It includes a water inlet formed to be formed and a water outlet formed to communicate with the other end side of the second pipe portion, the first pipe portion includes a first spiral flow forming portion consisting of a spiral projection or groove formed on the inner surface, The second tube portion includes a second spiral flow forming portion formed of a spiral-shaped protrusion or groove formed on an inner surface, and the first heater is obtained through the inlet and the inner surface of the first pipe portion, the first heater The first surface of the water flowing while rotating in a spiral shape along a path defined by the outer surface of the first spiral flow forming unit and the second heater is obtained from the first tube portion through the flow path portion and It is characterized in that the water flowing while rotating in the spiral formation along the path defined by the inner surface of the second tube portion, the outer surface of the second heater and the second spiral flow forming unit is characterized in that it is secondarily heated.

In addition, the housing, a cap member coupled to one end of the housing to close one end of the first tube portion and the second tube portion; And a heater installation member that fixes the first heater and the second heater and engages the other end of the housing to close the other end of the first tube part and the other end of the second tube part.

In addition, the flow path portion may be formed to have a larger distance between the one end of the first tube portion and the second portion of the second pipe portion. In this case, the flow path portion, the interval communicating with one end of the first tube portion may be formed twice the interval communicating with one end of the second tube portion.

Further, the first spiral flow forming portion and the second spiral flow forming portion may have the same pitch interval. Alternatively, the second spiral flow forming unit may have a pitch interval smaller than the pitch interval of the first spiral flow forming unit.

In addition, the first spiral flow forming portion and the second spiral flow forming portion may have a pitch interval of 9 mm to 11 mm.

In addition, the first spiral flow forming portion and the second spiral flow forming portion may have a spiral shape having an angle of 60 degrees to 70 degrees with respect to a horizontal plane.

In addition, a distance between the outer surface of the first heater and the inner surface of the first tube part may be 1 mm or more, and a distance between the outer surface of the second heater and the inner surface of the second tube part may be 1 mm or more. .

In addition, the first tube part and the second tube part may be formed in a tubular shape having a circular cross section of the inner surface, and the first heater and the second heater may be formed in a rod shape having a circular cross section of the outer surface. have.

Due to the increase in contact time with the heater, the efficiency of the heater is increased to obtain hot water at a target temperature.

1 is a perspective view showing a hot water generator according to a first embodiment of the present invention.
2 is an exploded perspective view showing a hot water generator according to a first embodiment of the present invention.
3 is a front view showing one end of the housing provided in the hot water generating device according to the first embodiment of the present invention.
4 is a partially cut-away perspective view showing a body of a housing provided in a hot water generating device according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for a more clear description.

1 is a perspective view showing a hot water generating device according to a first embodiment of the present invention, Figure 2 is an exploded perspective view showing a hot water generating device according to a first embodiment of the present invention, Figure 3 is a first embodiment of the present invention It is a front view showing one end of the housing provided in the hot water generator according to the example.

1 to 3, the hot water generator 100 according to an embodiment of the present invention may be configured as an example, including a housing 120 and a heater 160.

The housing 120 has an inlet 122 and an outlet 124 and has an interior space. On the other hand, the housing 120 is a body 130 having a circular tube-shaped first and second tube parts 132 and 134 in which the heater 160 is inserted and disposed, and a cap member 140 coupled to one end of the body 130 And it is coupled to the other end of the body 130 may be provided with a heater installation member 150, the heater 160 is installed.

On the other hand, in the present embodiment, the first and second tube parts 132 and 134 have a circular tube shape as an example, but the present invention is not limited thereto, and the shapes of the first and second tube parts 132 and 134 may be variously changed. As an example, the first and second tube parts 132 and 134 may have a rectangular tube shape.

In addition, the inlet port 122 is formed at one end of the first tube portion 132, and the outlet port 124 is formed at one end of the second pipe portion 134.

Water is introduced into the first pipe portion 132 through the inlet 122 and passes through the first pipe portion 132 and flows into the second pipe portion 134. Then, it passes through the second pipe portion 134 and flows out of the housing 120 through the outlet 124 of the second pipe portion 134.

In addition, the housing 120 may be provided with a spiral flow forming unit 136 to allow water flowing into the inner space to flow while rotating in a spiral shape along the outer surface of the heater 160.

In addition, the spiral flow forming portion 136 may be formed of projections or grooves formed on the inner surfaces of the first and second pipe portions 132 and 134.

Meanwhile, the pitch P1 of the spiral flow forming portion 136 formed on the inner surface of the first tube portion 132 and the pitch P2 of the spiral flow forming portion 136 formed on the inner surface of the second pipe portion 134 ) May be the same.

One end of the body 130 is provided with a flow path portion 138 for guiding a flow path of water, and the flow path portion 138 has a second distance a between the flow path portions 138 connected to the first pipe portion 132. It may be larger than the interval (b) of the flow path portion 138 connected to the pipe portion 134. As an example, the ratio of the distance (a) of the flow path portion 138 connected to the first pipe portion 132 and the distance b of the flow path portion 138 connected to the second pipe portion 134 may be 2:1. .

Accordingly, by increasing the flow rate of the slowed water while passing through the first pipe portion 132 through the flow path portion 138 so that it flows into the second pipe portion 134 so that water can pass smoothly through the second pipe portion 134. do.

As an example, the spiral flow forming unit 136 may be formed to have an angle of approximately 60 to 70 degrees based on the horizontal plane. Further, the spiral pitch spacing of the spiral flow forming portion 136 may be approximately 9 to 11 mm as an example.

On the other hand, if the spiral pitch interval of the spiral flow forming unit 136 is narrow, pressure loss may occur and a stagnant section of hot water may be generated. As described above, the spiral pitch interval of the spiral flow forming unit 136 is approximately 9 to 11 mm. Therefore, it is possible to reduce the occurrence of a stagnant section of hot water.

The heater 160 is disposed in the inner space of the housing 120. Meanwhile, the heater 160 may include a first heater 162 disposed inside the first tube portion 132 and a second heater 164 disposed inside the second pipe portion 134.

As an example, the first and second heaters 162 and 164 are fixedly installed on the heater installation member 150, and the first and second heaters 162 and 164 may have a circular bar shape in cross section.

Meanwhile, as an example, the minimum distance between the outer surface of the first heater 162 and the inner surface of the first tube portion 132 may be approximately 1 mm or more. In other words, when the minimum distance between the first heater 162 and the first tube portion 132 is approximately 0.5 mm, the pressure loss may be increased by approximately 30%, affecting the flow rate of water and a hot water stagnation section may occur.

However, since the minimum distance in the space between the first heater 162 and the first tube portion 132 is approximately 1 mm or more, it is possible to reduce the occurrence of a stagnant section of hot water due to pressure loss in the first tube portion 132. have.

In addition, the minimum distance between the second heater 164 and the second tube portion 134 may also be approximately 1 mm or more.

As described above, water flowing into the housing 120 through the spiral flow forming unit 136 is rotated in a spiral shape along the outer surface of the heater 160 so as to flow. Accordingly, by increasing the contact time between the water and the heater 160, the efficiency of the heater 160 may be increased to obtain hot water at a target temperature.

Hereinafter, a hot water generator according to a second embodiment of the present invention will be described with reference to the drawings.

On the other hand, the same components as those described above are replaced with the above description, and the illustration and detailed description of the drawings will be omitted here.

4 is a partially cut-away perspective view showing a body of a housing provided in a hot water generating device according to a second embodiment of the present invention.

Referring to FIG. 4, the pitch P1 of the spiral flow forming portion 236 formed on the inner surface of the first tube portion 232 is a spiral flow forming portion 236 formed on the inner surface of the second pipe portion 234. It may be larger than the pitch (P2).

Accordingly, the flowing water can be flowed while being smoothly rotated in a spiral shape from the inlet 222 to the outlet 224. In other words, since the pitch of the spiral flow forming portion 236 in the second pipe portion 234 decreases, the flow rate that slows down in the second pipe portion 234 is increased to rotate in a spiral shape in the second pipe portion 234. Water can be flowed smoothly.

As described above, water flowing into the housing 120 (see FIG. 2) through the spiral flow forming unit 236 is rotated in a spiral shape along the outer surface of the heater 160 so as to flow. Accordingly, by increasing the contact time between the water and the heater 160, the efficiency of the heater 160 may be increased to obtain hot water at a target temperature.

Although the embodiments of the present invention have been described in detail above, the scope of rights of the present invention is not limited thereto, and it is possible that various modifications and variations are possible without departing from the technical spirit of the present invention as set forth in the claims. It will be apparent to those of ordinary skill in the field.

100: hot water generator
120: housing
160: heater

Claims (10)

A housing including a first tube portion formed in a tubular shape, a second pipe portion formed in a tubular shape, and a flow path portion communicating one end of the first pipe portion with one end of the second pipe portion;
A first heater disposed coaxially with the first tube portion such that an outer surface is adjacent to the inner surface of the first tube portion of the housing; And
And a second heater disposed coaxially with the second tube part such that an outer surface is adjacent to the inner surface of the second tube part of the housing.
The housing includes an inlet port formed to communicate with the other end side of the first tube portion and an outlet port formed to communicate with the other end side of the second pipe portion,
The first tube portion includes a first spiral flow forming portion formed of a spiral protrusion or groove formed on the inner surface,
The second tube portion includes a second spiral flow forming portion formed of a spiral-shaped protrusion or groove formed on the inner surface,
The first heater is water flowing through the inlet and rotating in a spiral shape along a path defined by the inner surface of the first tube portion, the outer surface of the first heater, and the first spiral flow forming unit. First heating,
The second heater may be obtained from the first tube portion through the flow path portion to form a spiral along the path defined by the inner surface of the second pipe portion, the outer surface of the second heater, and the second spiral flow forming portion. A hot water generating device characterized by secondary heating of water flowing while rotating.
The method according to claim 1, The housing,
A cap member coupled with one end of the housing to close one end of the first tube part and one end of the second tube part; And
And a heater installation member for fixing the first heater and the second heater and engaging the other end of the housing to close the other end of the first tube part and the other end of the second tube part. Generating device.
The method according to claim 1, wherein the flow path portion,
The apparatus for generating hot water, characterized in that a gap communicating with one end of the first tube portion is formed larger than a gap communicating with one end of the second pipe portion.
The method according to claim 3, The flow path portion,
The hot water generating device characterized in that the interval communicating with one end of the first tube portion is formed twice as much as the interval communicating with one end of the second tube portion.
The method according to claim 1, wherein the first spiral flow forming portion and the second spiral flow forming portion,
A hot water generating device characterized in that pitch intervals are equal to each other.
The method according to claim 1, wherein the second spiral flow forming unit,
The first hot water generating apparatus, characterized in that it has a pitch interval smaller than the pitch interval of the spiral forming portion.
The method according to claim 1, wherein the first spiral flow forming portion and the second spiral flow forming portion,
A hot water generating device having a pitch interval of 9 mm to 11 mm.
The method according to claim 1, wherein the first spiral flow forming portion and the second spiral flow forming portion,
A hot water generating device, characterized in that it has a spiral shape having an angle of 60 degrees to 70 degrees with respect to a horizontal plane.
The method according to claim 1,
The distance between the outer surface of the first heater and the inner surface of the first tube portion is 1 mm or more,
The distance between the outer surface of the second heater and the inner surface of the second pipe part is 1 mm or more, characterized in that the hot water generating device.
The method according to claim 1,
The first tube portion and the second tube portion are formed in a tubular shape with a circular cross section of the inner surface,
The first heater and the second heater, the hot water generating apparatus characterized in that the cross section of the outer surface is formed in a circular rod shape.

Images