阅读说明：本技术 具有引导部的瞬间式热水器 (Instantaneous water heater with guiding part ) 是由 崔荣桓 于 2018-10-22 设计创作，主要内容包括：本发明涉及一种具有引导部的瞬间式热水器,更详细地,本发明具有如下的效果：使直供水长时间停留在加热部的周边,使得直供水能够轻易地变成用户要求的设定温度的温水。(The present invention relates to an instantaneous water heater with a guide part, and more particularly, to the following effects: the direct water supply stays around the heating part for a long time, so that the direct water supply can be easily changed into warm water with the set temperature required by a user.)

1. An instantaneous water heater with a guide portion, comprising:

a housing having a space formed therein, and an inflow portion and an outflow portion formed at a lower portion of the housing, respectively;

a supply pipe formed in the center of the space portion in a vertically long pipe shape, a lower end of the supply pipe being connected to the outflow portion;

a barrier member including a pair of barrier plates disposed at upper and lower portions of the space portion with a space therebetween and penetrating the supply pipe, a plurality of barrier plates arranged radially along an inner peripheral direction of the casing with the supply pipe positioned between the pair of barrier plates as a center, upper and lower ends of the barrier plates being connected to the pair of barrier plates in a vertical direction, and a guide plate formed between the pair of barrier plates adjacent to each other in a horizontal direction with respect to the barrier plates; and

a heating part located in a space between a pair of the partition plates adjacent to each other and disposed to pass through the guide plate,

the pair of baffle plates includes a lower baffle plate positioned at a lower portion and an upper baffle plate positioned at an upper portion of the lower baffle plate, and when the direct water flows in from the inflow portion positioned between the lower end of the case and the lower baffle plate, the direct water passes through a first space-dividing portion between the lower baffle plate and the guide plate and a second space-dividing portion between the guide plate and the upper baffle plate in order to be changed into warm water, and then is guided to an upper end of the supply pipe positioned between the upper baffle plate and an upper end of the case.

2. The instantaneous water heater with a guide portion according to claim 1,

the guide plate includes:

a center portion that passes through the supply pipe;

a plurality of protruding plates extending in an inner peripheral direction of the housing along an outer edge of the center portion,

the partition plate penetrates the protruding plates, and a recessed guide groove is formed between a pair of the protruding plates adjacent to each other to guide the heating portion.

3. The instantaneous water heater with a guide portion according to claim 1,

further comprising:

an outer sleeve formed of a cylinder so as to be fitted over an outer periphery of the supply pipe between the upper barrier plate and the lower barrier plate,

and the upper end of the outer sleeve is connected with the upper blocking plate, the lower end of the outer sleeve is connected with the lower blocking plate,

the inner side of the partition plate facing the direction of the outer sleeve is connected to the outer sleeve, and the outer side of the partition plate facing the direction of the inner periphery of the housing is connected to the housing,

a plurality of movement guide holes are formed in the upper barrier plate,

the lower barrier plate is inserted with the heating part and is formed with a lower through hole having a larger cross-sectional area than the heating part.

4. The instantaneous water heater with a guide portion according to claim 1,

a plurality of protrusions are protruded along the circumference of the upper end of the supply pipe, the upper ends of the protrusions being combined with the upper end of the housing,

the warm water moving between the upper barrier plate and the upper end of the case is guided to the inside of the supply pipe through the supply part between the protruding parts adjacent to each other.

5. The instantaneous water heater with a guide portion according to claim 1,

the upper and lower parts of the housing are in an open state, and an upper cover and a lower cover are provided to cover the open upper and lower parts of the housing, respectively,

when the partition is inserted into the housing with the upper or lower portion of the housing opened, a slide rail is formed on an inner periphery of the housing opposite to an outer side surface of the partition so that the outer side of the partition is slidably inserted.

6. The instantaneous water heater with a guide portion according to claim 1,

the upper and lower parts of the housing are in an open state, and an upper cover and a lower cover are provided to cover the open upper and lower parts of the housing, respectively,

when the upper and lower barrier plates are inserted into the housing in a state where the upper or lower portion of the housing is opened, an upper engaging portion is formed to protrude along a periphery of an inner periphery of the housing so that the upper barrier plate is engaged with a position facing an upper outer periphery of the upper barrier plate, and a lower engaging portion is formed to protrude along a periphery of an inner periphery of the housing so that the lower barrier plate is engaged with a position facing a lower outer periphery of the lower barrier plate.

7. The instantaneous water heater with a guide portion according to claim 1,

the upper and lower parts of the housing are in an open state, and an upper cover and a lower cover are provided to cover the open upper and lower parts of the housing, respectively,

an insertion guide hole is formed in a position of the lower cover facing the heating portion,

the heating part includes:

a plurality of heating pipes provided in a space between a pair of the partition plates, and formed in an inverted U shape;

and a coupling plate configured to cover the insertion guide holes, and end portions of the plurality of heating pipes are inserted into the coupling plate.

Technical Field

The present invention relates to an instantaneous water heater with a guide portion, and more particularly, to an instantaneous water heater with a guide portion, which allows direct water supply to stay around a heating portion for a long time so that the direct water supply can be easily changed into hot water at a set temperature required by a user.

Background

In most of water heaters that supply hot water for showering and washing in homes and offices, a predetermined amount of water is often stored in a storage tank, and gas or electricity is mainly used as a heat source. Such storage-type water heaters are classified into storage-type water heaters that supply hot water and require a predetermined amount of water to be stored in a storage tank at all times and instantaneous-type water heaters in terms of energy efficiency.

Compared with a storage type water heater, the instantaneous water heater is smaller in size and long in durability, warm water can continuously flow, and energy consumption is low. Also, the backup energy used to preheat the water and maintain the desired temperature is less or can be eliminated altogether, using a relatively short supply drain, and thus less heat loss in the drain.

Fig. 1 is a sectional view showing a conventional instantaneous water heater. Referring to fig. 1, the conventional instantaneous electric water heater includes a housing 10, a reservoir 20 disposed inside the housing 10, and an electric heating part 30 disposed inside the reservoir 20. An inflow pipe 21 for allowing cold water to flow in and an outflow pipe 23 for allowing warm water to flow out are connected to both sides of the lower portion of the reservoir tank 20. The cold water flowing into the reservoir 20 through the inflow pipe 21 is heated by the electric heating unit 30 to be changed into warm water, and the warm water flows to the upper side of the reservoir 20 by the thermal convection phenomenon as described above and flows into the outflow pipe 23.

In the conventional electric water heater, since the electric heating part 30 is formed in a horizontal direction, the hot water heated by the electric heating part 30 cannot be in contact with the electric heating part 30 for a long time, and thus the temperature of the hot water is lower than a set temperature required by a user.

Disclosure of Invention

Problems to be solved by the invention

In order to solve the above-described problems of the prior art, an object of the present invention is to provide an instantaneous water heater having a guide portion, which allows direct-fed water to stay in the vicinity of a heating portion for a long time so that the direct-fed water can be easily changed into warm water at a set temperature required by a user.

Means for solving the problems

In order to achieve the above object, the present invention provides an instantaneous water heater having a guide portion, comprising: a housing having a space formed therein, and an inflow portion and an outflow portion formed at a lower portion of the housing, respectively; a supply pipe formed in the center of the space portion in a vertically long pipe shape, the lower end of the supply pipe being connected to the outflow portion; a barrier member including a pair of barrier plates disposed at upper and lower portions of the space portion with a space therebetween and penetrating the supply pipe, a partition plate having upper and lower ends connected to the pair of barrier plates in a vertical direction, and a guide plate formed between the pair of barrier plates adjacent to each other in a horizontal direction; and a heating part which is located in a space between the pair of adjacent partition plates and is disposed to pass through the guide plate, wherein the pair of barrier plates includes a lower barrier plate located at a lower portion and an upper barrier plate located at an upper portion of the lower barrier plate, and when the direct water flows in from the inflow part located between the lower end of the housing and the lower barrier plate, the direct water passes through a first space partition between the lower barrier plate and the guide plate and a second space partition between the guide plate and the upper barrier plate in order to be changed into warm water, and then is guided to an upper end of the supply pipe located between the upper barrier plate and an upper end of the housing.

Further, the present invention provides an instantaneous water heater having a guide portion, wherein the guide plate includes: a center portion through which the supply pipe passes; and a plurality of protruding plates extending in an inner peripheral direction of the housing along an outer edge of the central portion, wherein the partition plate penetrates the protruding plates, and a recessed guide groove is formed between a pair of the protruding plates adjacent to each other to guide the heating portion.

Further, the present invention provides an instantaneous water heater having a guide portion, further comprising: and an outer tube formed in a cylindrical shape so as to be fitted around an outer periphery of the supply tube between the upper barrier plate and the lower barrier plate, wherein an upper end of the outer tube is connected to the upper barrier plate, a lower end of the outer tube is connected to the lower barrier plate, an inner side of the partition plate facing in a direction of the outer tube is connected to the outer tube, an outer side of the partition plate facing in an inner peripheral direction of the housing is connected to the housing, the upper barrier plate is formed with a plurality of movement guide holes, and the lower barrier plate is inserted with the heating part and is formed with a lower through hole having a larger cross-sectional area than the heating part.

The present invention also provides a instantaneous water heater having a guide portion, wherein a plurality of protrusions are formed to protrude along a periphery of an upper end of the supply pipe, the upper end of the protrusion is coupled to an upper end of the case, and warm water moving between the upper baffle plate and the upper end of the case is guided to an inside of the supply pipe through the supply portion between the adjacent protrusions.

The present invention also provides an instantaneous water heater having a guide portion, wherein the upper and lower portions of the housing are opened, and an upper cover and a lower cover are provided to cover the opened upper and lower portions of the housing, respectively, and a slide rail is formed on an inner periphery of the housing opposite to an outer side surface of the partition so that the partition is slidably inserted when the partition is inserted into the housing in a state where the upper or lower portion of the housing is opened.

The present invention also provides an instantaneous water heater having a guide portion, wherein the upper and lower portions of the case are opened, and an upper cover and a lower cover are provided to cover the opened upper and lower portions of the case, respectively, and when the upper and lower barrier plates are inserted into the case in an opened state of the upper or lower portion of the case, an upper engaging portion is formed to protrude along a circumference of an inner circumference of the case so that the upper barrier plate is engaged with a position facing an upper outer circumference of the upper barrier plate, and a lower engaging portion is formed to protrude along a circumference of an inner circumference of the case so that the lower barrier plate is engaged with a position facing a lower outer circumference of the lower barrier plate.

Further, the present invention provides a instantaneous water heater having a guide portion, wherein an upper portion and a lower portion of the housing are in an open state, and an upper cover and a lower cover are provided to cover the open upper portion and the open lower portion of the housing, respectively, and an insertion guide hole is formed in a position of the lower cover facing the heating portion, and the heating portion includes: a plurality of heating pipes which are arranged in a space between the pair of partition plates and are formed in an inverted U shape; and a coupling plate configured to cover the insertion guide holes, and end portions of the plurality of heating pipes are inserted into the coupling plate.

Effects of the invention

The invention has the following effects: the guide plate is arranged between the pair of baffle plates, and the pair of baffle plates is divided into the first space division part and the second space division part, so that the low-temperature water stays in the first space division part to become the medium-temperature water, and then stays in the second space division part to become the high-temperature water, thereby heating the warm water to the temperature desired by the user.

Drawings

Fig. 1 is a sectional view showing a conventional instantaneous water heater.

Fig. 2 is a view illustrating a instantaneous water heater having a guide part according to a preferred embodiment of the present invention.

Fig. 3 is a view showing an exploded state of a case of the instantaneous water heater having a guide part according to the preferred embodiment of the present invention.

Fig. 4 is a view illustrating a supply pipe and a blocking member of the instantaneous water heater having a guide according to the preferred embodiment of the present invention.

Fig. 5 is a view showing an exploded state of the instantaneous water heater having a guide part according to the preferred embodiment of the present invention.

Fig. 6 is a view showing the interior into which the instantaneous water heater with a guide according to the preferred embodiment of the present invention is incorporated.

Fig. 7 is a view schematically showing the operation of the instantaneous water heater having a guide part according to the preferred embodiment of the present invention.

Description of reference numerals:

1000: instantaneous water heater with guiding part

100: the housing 110: main body

112: space portion 114: sliding rail

116: upper clip portion 118: lower clamping part

120: lower cover 122: through hole

124: insertion guide hole 130: upper cover

132: protruding guide hole 140: inflow part

142: inflow pipe 150: outflow part

152: outflow pipe 200: supply pipe

210: projection 212: supply part

300: the blocking member 310: lower baffle plate

312: the coupling hole 320: upper baffle plate

322: moving the guide hole 330: outer sleeve

340: spacer 350: guide plate

352: the center portion 352 a: center hole

354: projection plate 356: guiding groove

400: the heating section 410: heating tube

420: and (7) combining the boards.

Detailed Description

Hereinafter, a instantaneous water heater having a guide part according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

Fig. 2 is a view illustrating a instantaneous water heater having a guide portion according to a preferred embodiment of the present invention, and fig. 3 is a view illustrating an exploded state of a case of the instantaneous water heater having a guide portion according to a preferred embodiment of the present invention.

Referring to fig. 2 and 3, the instantaneous water heater 1000 with a guide according to the preferred embodiment of the present invention includes: a housing 100, a supply pipe 200 (shown in fig. 4), a blocking member 300 (shown in fig. 4), and a heating part 400 (shown in fig. 5).

The case 100 is provided therein with a space 112 for receiving water, and the case 100 may be made of a material that easily insulates heat from the outside. Such a case 100 includes: a body 110 having a hollow part 112 formed therein and having a cylindrical shape, wherein upper and lower parts of the body 110 are opened; an upper cover 130 having a circular shape and covering an open upper portion of the body 110 in a watertight manner; and a lower cover 120 having a circular shape and covering the open lower portion of the body 110 in a watertight manner. When the straight supply water flowing into the inside of the body 110 is changed into warm water, the upper cover 130 may be formed in an arc shape bent in an upper direction in order to easily receive an expansion pressure generated by steam generated from the warm water. Further, a protrusion guide hole 132 is formed through the upper cover 130 at a position facing a protrusion 210 (shown in fig. 4) to be described later so as to be inserted into an upper end of the protrusion 210. A through hole 122 is formed in the center of the lower cover 120 so that a supply pipe 200, which will be described later, can be inserted. An insertion guide hole 124 is formed in the lower cover 120 at a position facing a coupling hole 312 (shown in fig. 4) described later.

An inflow portion 140 is formed at a lower portion of the outer periphery of the body 110, and an outflow portion 150 is formed at the through hole 122 of the lower cover 120. The inflow unit 140 allows external water (i.e., direct water) to flow into the space 112 of the main body 110, and the outflow unit 150 allows warm water supplied through a supply pipe 200, which will be described later, to flow out of the housing 100. The lower cover 120 may be provided with a discharge unit (not shown) for rapidly discharging the water contained in the space 112 to the outside for the reason of cleaning, management, and the like.

Fig. 4 is a view illustrating a supply pipe and a blocking member of the instantaneous water heater with a guide according to the preferred embodiment of the present invention, and fig. 5 is a view illustrating an exploded state of the instantaneous water heater with a guide according to the preferred embodiment of the present invention.

Referring to fig. 4 and 5, according to the instantaneous water heater 1000 having a guide part according to the preferred embodiment of the present invention, the supply pipe 200 and the heating part 400 are combined with the blocking member 300, and the supply pipe 200 and the heating part 400 are inserted into the body 110 of the case 100.

The supply pipe 200 is formed in a vertically long pipe shape at the center of the space part 112, the lower end of the supply pipe 200 is connected to the outflow part 150, and the upper end of the supply pipe 200 is connected to the upper cap 130. A plurality of projections 210 are formed to project in the direction of the upper cover 130 along the upper end periphery of the supply pipe 200, and a supply portion 212 is provided as a gap between a pair of projections 210 adjacent to each other. The upper end of the protrusion 210 is inserted into the protrusion guide hole 132 of the upper cover 130. The warm water that has moved between the upper barrier plate 320 and the upper cover 130, which will be described later, is guided to the inside of the supply pipe 200 through the supply portion 212 between the adjacent protruding portions 210.

The blocking member 300 includes a blocking plate, a partition 340, and a guide plate 350. The barrier plates are formed in a pair and are disposed at the upper and lower portions of the space portion 112 of the main body 110 with a space therebetween, and the barrier plates are composed of an upper barrier plate 320 inserted into the upper portion of the space portion 112 of the main body 110 and a lower barrier plate 310 inserted into the lower portion of the space portion 112 of the main body 110. When upper and lower barrier plates 320 and 310 are inserted into space 112 of main body 110, the outer peripheries of upper and lower barrier plates 320 and 310 are closely attached to the inner periphery of main body 110. The supply pipe 200 integrally penetrates the centers of the upper barrier plate 320 and the lower barrier plate 310. At this time, an outer sleeve 330 formed of a cylinder may be further included so as to be fitted over the outer circumference of the supply tube 200 between the upper barrier plate 320 and the lower barrier plate 310. The upper end of the outer sleeve 330 is connected to the upper baffle plate 320, and the lower end of the outer sleeve 330 is connected to the lower baffle plate 310.

For example, the spacers 340 are formed in a plate shape having a square shape, and a plurality of the spacers 340 are arranged radially along the inner peripheral direction of the body 110 around the outer tube 330 positioned between the upper barrier plate 320 and the lower barrier plate 310. The upper and lower ends of the partition 340 are connected to the upper and lower barrier plates 320 and 310 in the vertical direction, the inner side of the partition 340 facing the outer sleeve 330 is connected to the outer sleeve 330, and the outer side of the partition 340 facing the inner circumferential direction of the body 110 is connected to the inner circumference of the body 110.

The guide plate 350 is formed between a pair of the partition plates 340 adjacent to each other in a direction horizontal to the upper barrier plate 320 or the lower barrier plate 310. Such a guide plate 350 includes: a center portion 352 formed with a center hole 352a so that the supply tube 200 passes through the center; and a plurality of protruding plates 354 extending in the inner peripheral direction of the housing 100 along the outer edge of the central portion 352. The partition plate 340 penetrates the projection plates 354, and a recessed guide groove 356 is formed between a pair of adjacent projection plates 354 to guide the heating unit 400, which will be described later. Therefore, the guide plate 350 blocks a part of the warm water rising from the lower barrier plate 310 to the upper barrier plate 320 and contacts the heating unit 400 for a long time. This is illustrated again in fig. 7.

The heating part 400 heats the straight water flowing into the body 110 to warm water, and the heating part 400 includes: a plurality of heating pipes 410, which are provided in a space between the pair of partition plates 340, formed in an inverted U shape; and a coupling plate 420 covering the insertion guide hole 124, wherein end portions of the plurality of heating pipes 410 are inserted into the coupling plate 420. The plurality of heating pipes 410 may heat one or more according to a set temperature of the warm water. When the coupling plate 420 is sandwiched between the insertion guide holes 124, the heating pipe 410 is sequentially inserted through the insertion guide holes 124 and the coupling holes 312 and then disposed between the lower barrier plate 310 and the upper barrier plate 320, so that the side portion of the heating pipe 410 is positioned to face the guide groove 356 of the guide plate 350.

Fig. 6 is a view showing the interior into which the instantaneous water heater with a guide according to the preferred embodiment of the present invention is incorporated.

Referring to fig. 5 and 6, in the assembly structure of the instantaneous water heater 1000 having the guide part according to the preferred embodiment of the present invention, first, after the supply pipe 200 is inserted through the blocking member 300, the blocking member 300 is inserted into the space 112 through the upper part of the opened body 110. At this time, the upper blocking plate 320 is engaged with the upper outer circumferential edge of the upper blocking plate 320 to form the upper engaging portion 116 protruding along the circumference of the inner circumference of the body 110, and the lower blocking plate 310 is engaged with the lower outer circumferential edge of the lower blocking plate 310 to form the lower engaging portion 118 protruding along the circumference of the inner circumference of the body 110. The upper catching portions 116 are formed in plurality at intervals along the inner circumference of the body 110, and the upper catching portions 116 may be formed in a caulking manner. The lower catching portion 118 is protrusively formed in a ring shape along an inner circumference of the body 110. When the blocking member 300 is inserted into the body 110, the slide rails 114 are formed on the inner periphery of the body 110 facing the outer surface of the partition 340 so that the outer side of the partition 340 is slidably inserted. As described above, according to the present invention, since the upper engaging portion 116, the lower engaging portion 118, and the slide rail 114 are formed in the main body 110, the blocking member 300 inserted into the main body 110 is firmly engaged with and guided to the main body 110. And, if the blocking member 300 is inserted into the body 110, the upper and lower portions of the body 110 are combined with the upper and lower covers 130 and 120. Thereafter, the heating pipe 410 is disposed between the lower barrier plate 310 and the upper barrier plate 320 through the insertion guide hole 124 and the coupling hole 312, and the coupling plate 420 is coupled to cover the insertion guide hole 124 of the lower cover 120.

Fig. 7 is a view schematically showing the operation of the instantaneous water heater having a guide part according to the preferred embodiment of the present invention.

Referring to fig. 2 to 7, in the instantaneous water heater 1000 having a guide part according to the preferred embodiment of the present invention, an inflow pipe 142 is installed at an inflow part 140, and an outflow pipe 152 is installed at an outflow part 150. The inflow pipe 142 receives supply of direct water from the outside, and the outflow pipe 152 discharges the warm water supplied from the supply pipe 200 to a bathroom or the like. Also, in order to control the amount of the direct water that flows in, a flow rate adjusting valve (not shown) and a flow rate sensor (not shown) are provided at the inflow pipe 142, so that not only the supply amount of the direct water that flows into the inside of the main body 110 can be adjusted, but also whether the heating part 400 is operated or not can be controlled by detecting the flow of the direct water. Also, a temperature sensor (not shown) for measuring the temperature of the discharged warm water is provided at the outflow pipe 152, so that whether the heating part 400 is operated or not can be controlled. Since the flow rate regulating valve, the flow rate sensor, and the temperature sensor are conventional structures, detailed descriptions thereof will be omitted.

When the direct water flows in from the inflow pipe 142, the direct water moves to the space between the lower barrier plate 310 and the lower cover 120, that is, the preparation space divider a 1. At this time, the direct water is heated to low-temperature water by the heating section 400 located at the preparation space dividing section a 1. Thereafter, the low-temperature water moves to the space between the guide plate 350 and the lower barrier plate 310, i.e., the first space-dividing part a2, through the coupling hole 312. At this time, the low temperature water is heated by the heating part 400 located at the first space-dividing part a2 to medium temperature water having a higher temperature than the low temperature water. Then, the medium temperature water moves to the space between the guide plate 350 and the upper barrier plate 320, i.e., the second space 112, through the guide groove 356 of the guide plate 350. At this time, the straight feed water is heated by the heating section 400 located at the second space-dividing section a3 into high-temperature water having a higher temperature than the medium-temperature water. Thereafter, the high temperature water moves to the space between the upper barrier 320 and the upper cover 130, i.e., the supply guide partition a4, through the movement guide hole 322, then moves to the inside of the supply pipe 200 through the supply part 212 of the supply pipe 200, and then, the high temperature water flows out through the outflow part 150.

Thus, the present invention has the following effects: since the guide plate 350 is provided between the lower barrier plate 310 and the upper barrier plate 320, the lower barrier plate 310 and the upper barrier plate 320 are partitioned into the first space partition a2 and the second space partition A3, and thus the low temperature water stays in the first space partition a2 to become the medium temperature water, and then stays in the second space partition A3 to become the high temperature water, so that the warm water can be heated to the temperature desired by the user.

Although the present invention has been described in detail by the above-mentioned embodiments, the present invention is not limited thereto, and it will be apparent to those skilled in the art that various changes and modifications may be made within the technical spirit of the present invention, and if such changes and modifications fall within the scope of the appended claims, the technical spirit thereof should be construed to also belong to the present invention.