KR20120057007A - Heating apparatus for small size hot-water boiler - Google Patents

Abstract

The present invention relates to a hot water heating device of a small hot water boiler, and more particularly, the structure is simple and simple, but it is possible to efficiently produce hot water by heating the water in multiple stages, and heat efficiency by effectively using the heat of the heating heater without waste It relates to a hot water heater of a small hot water boiler to improve the.
The hot water heater of the small hot water boiler of the present invention, the hot water heating device of the small hot water boiler, the upper case formed with an inlet and outlet for the inflow and outflow of water; A first heating plate embedded in a bottom of the upper case and having a first flow path communicating with the inlet and a fourth flow path communicating with the outlet at the top; A second flow path which is formed to be engaged with each other on the lower side of the first heating plate and communicates with the first inflow flow path at a bottom thereof, and one side communicates with the second flow path, and the other flows with the fourth flow path; A second heating plate formed with a third flow path communicating with the furnace; A heating heater interposed between the bottom surface of the first heating plate and the top surface of the second heating plate; And a lower case formed to receive the second heating plate and engaged with the upper case.
According to this, it is provided with a plurality of heat exchange space consisting of the first to fourth flow path while having a limited size to be embedded in a small hot water boiler, it is possible to effectively generate hot water through the sequential heat exchange process. In addition, the heat dissipation fins may be formed on the surfaces of the first to fourth flow paths corresponding to the heating heaters to maximize heat exchange efficiency. In particular, since the heat radiation fin is formed long along the flow direction of the water, resistance does not occur during the flow of the water, so that smooth flow is possible, and effective heating is possible, and the overload of the circulation pump can be prevented.

Description

Hot Water Heater of Small Hot Water Boiler {HEATING APPARATUS FOR SMALL SIZE HOT-WATER BOILER}

The present invention relates to a hot water heating device of a small hot water boiler, and more particularly, the structure is simple and simple, but it is possible to efficiently produce hot water by heating the water in multiple stages, heat efficiency by effectively using the heat of the heating heater without waste It relates to a hot water heater of a small hot water boiler that can improve the.

In general, boilers are mainly oil boilers using oil as an energy source or gas boilers using a gas as an energy source, but these boilers are mainly bulky and heavy, and require a separate fuel tank or fuel supply piping. It is used as a fixed heating device for buildings.

On the other hand, a small electric boiler is a heating device that can provide hot water by heating water with electricity as an energy source, and does not require a separate fuel tank or fuel supply pipe, and has a small volume and weight, and is easy to move and use. There is an advantage that can be widely used for changing seasons or small scale heating, leisure activities, portable, simple use.

1 is a view for explaining the basic concept of a general small electric boiler, as shown in the small electric boiler 1 is a reservoir 11 for the storage of water, the water contained in the reservoir 11 by heating A hot water heater 12 made of hot water, and a circulation pump 13 for circulating the water to a mat 2 or the like where hot water is used are provided.

2A and 2B are views for explaining a hot water heating device of a conventional small electric boiler, the conventional hot water heating device 12 is an inlet for the inflow of water supplied from the reservoir 11 as shown in FIG. And a heating chamber 12a having a discharge port for discharging the heated water, and a heating heater 12b provided on the outer surface thereof to heat the water inside the heating chamber 12a. Since the hot water heater 12 is a method of installing the heating heater 12b outside the heating chamber 12a, one side of the heating heater 12b may transfer the heat dissipated to the heating chamber 12a, but the heating Since the other side of the heater 12b is exposed to the outside, heat is unnecessarily discharged, so the thermal efficiency is low and the waste of energy is severe, resulting in an increase in operating costs. In addition, the internal components of the small electric boiler are deteriorated by the heat emitted from the heating heater 12b to the outside, resulting in a high risk of fire or damage.

On the contrary, the conventional hot water heater 12 shown in FIG. 2B has a structure in which the heating heater 12b is built into the heating chamber 12a, but the entire heat can be used for heating the water. As (12b) is immersed in water and corrosion is easily generated, an oxidation tube must be inserted in the outside of the heater rod to prevent corrosion, and a temperature sensor for detecting heating temperature should also be applied with a corrosion resistant structure or material. Is complicated, and installation and assembly are difficult.

In addition, the anti-oxidation tube has to use a relatively expensive stainless steel material (for example, SUS316 having heat resistance and corrosion resistance as stainless steel), resulting in an increase in the overall manufacturing cost of the small hot water boiler due to an increase in material cost and manufacturing cost.

In addition, since the heating heater is a type in which an anti-oxidation tube is built in the outside of the heater rod, the outer diameter is increased to cause an increase in the overall thickness of the heating chamber, and since the heater rod is a circular structure, only the peripheral portion thereof is locally heated to stabilize the water evenly. It has a limit that cannot be heated.

The present invention has been proposed in view of the above, and the structure is simple and simple, but the water can be produced in multiple stages by heating the water in multiple stages effectively, and the small size to improve the thermal efficiency by effectively using the heat of the heating heater without waste The purpose is to provide a hot water heater of the hot water boiler.

Another object of the present invention is to provide a hot water heating apparatus of a small hot water boiler to prevent corrosion of the heating heater to improve durability and reduce production costs.

In order to achieve the above object, the hot water heating device of the small hot water boiler according to the present invention, the hot water heating device of the small hot water boiler, the upper case formed with the inlet and outlet for the inflow and outflow of water; A first heating plate embedded in a bottom of the upper case and having a first flow path communicating with the inlet and a fourth flow path communicating with the outlet at the top; A second flow path which is formed to be engaged with each other on the lower side of the first heating plate and communicates with the first inflow flow path at a bottom thereof, and one side communicates with the second flow path, and the other flows with the fourth flow path; A second heating plate formed with a third flow path communicating with the furnace; A heating heater interposed between the bottom surface of the first heating plate and the top surface of the second heating plate; And a lower case formed to receive the second heating plate and engaged with the upper case.

And, the first watertight holding member is interposed so that the inner surface of the upper case and the upper surface of the first heating plate is watertightly connected; And a second watertight holding member interposed such that an inner surface of the lower case and a bottom surface of the first heating plate are connected to each other in a watertight manner.

The first heating plate may include: a first partition wall protruding to partition the first flow path and the fourth flow path, a first watertight member insertion groove formed and recessed and formed to insert and fix the first watertight holding member; and the heating A plurality of heat sink fins protruding on the surface of the first flow path and the fourth flow path corresponding to the position corresponding to the heater may be provided.

The second heating plate may include a second partition wall projecting to partition the second flow path and the third flow path, a second watertight member insertion groove formed and recessed and formed to insert and fix the second watertight holding member, and the heating. A plurality of heat radiation fins protruding on the surface of the second flow path and the third flow path corresponding to the position corresponding to the heater may be provided.

In this case, the heat radiating fin may be formed to protrude along the flow direction so as not to interfere with the flow of water.

The inlet and the outlet are spaced apart from each other in the front-rear direction on one side of the upper case, and the first heating plate is disposed on the first flow path and the fourth flow path corresponding to opposite sides of the inlet and the outlet. First and fourth flow holes communicating with the third flow path penetrate and are formed, and the first partition wall protrudes along a longitudinal direction so as to divide into two portions between the first and fourth flow holes, and the first and fourth flow holes. The first watertight member insertion recess is formed in the periphery of the flow path and the upper end of the first partition wall, and the second heating plate has the second and third flow holes communicating with the first and fourth flow holes, respectively. And a second partition wall protruding from the second and third flow holes toward the other side and having an opening portion at the other end thereof to connect the second and third flow paths with each other, and surrounding the second and third flow paths. And on top of the second bulkhead The member has a second water-tight insertion groove may be concave, formed.

The upper case and the lower case may include a plurality of first fastening parts formed at a circumferential edge portion of the case body to be coupled to each other with the first heating plate, the heating heater, and the second heating plate interposed therebetween. The first heating plate and the second heating plate may be provided with a plurality of second fastening parts for coupling to each other in the state of the peripheral edge of the body via the heating heater.

On the other hand, and a temperature sensor for sensing the temperature of the first and second heating plate; And a safety switch operable to cut off the supply of power applied to the heating heater when the heating temperatures of the first and second heating plates reach a predetermined temperature.

The heating heater is formed in a rectangular plate shape to have a large heating area, and a heating plate insertion groove is recessed and formed on an upper surface of the second heating plate to insert the heating heater, and corresponds to left and right sides of the heating plate insertion groove. An installation groove into which the temperature sensor and the safety switch are inserted may be recessed and formed on opposite surfaces of the first and second heating plates.

The hot water heating apparatus of the small hot water boiler according to the present invention has a limited size so as to be incorporated into the small hot water boiler, and has a plurality of heat exchange spaces consisting of the first to fourth flow paths. It can produce hot water.

In addition, the heating heater is configured to have a planar structure with a large heating area, and heat dissipation fins are formed on the surfaces of the first to fourth flow paths corresponding to the heating heater, thereby maximizing heat exchange efficiency. In particular, since the heat radiation fin is formed long along the flow direction of the water, resistance does not occur during the flow of the water, so that smooth flow is possible, and effective heating is possible, and the overload of the circulation pump can be prevented.

In addition, the hot water heating device of the small hot water boiler according to the present invention is a heating heater that performs a heating action is not disposed on the outer surface of the heating chamber as conventionally, and is disposed between the first heating plate and the second heating plate. All the heat emitted from the heat can be used for heat exchange without waste has the advantage of high energy efficiency. In addition, the heating heater and the temperature sensor is not a structure that is immersed in the water does not need to be composed of a corrosion-resistant material or structure, thereby reducing the manufacturing cost and improve the durability.

1 is a view for explaining the basic concept of a general small electric boiler,
2a and 2b is a view for explaining a hot water heating device of a conventional small electric boiler,
Figure 3 is a perspective view showing the external structure of the warm water heating apparatus of the small hot water boiler according to an embodiment of the present invention,
Figure 4 is an exploded perspective view showing a hot water heating device of a small hot water boiler according to an embodiment of the present invention,
5a and 5b are views for explaining a first heating plate of the warm water heating apparatus of the small hot water boiler according to an embodiment of the present invention;
6a and 6b are views for explaining a second heating plate of the warm water heating apparatus of the small hot water boiler according to an embodiment of the present invention;
7 and 8 are views for explaining the operation of the hot water heating device of the small hot water boiler according to an embodiment of the present invention.

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

Figure 3 is a perspective view showing the external structure of the hot water heating apparatus of a small hot water boiler according to an embodiment of the present invention, Figure 4 is an exploded perspective view showing a hot water heating apparatus of a small hot water boiler according to an embodiment of the present invention.

3 and 4, the hot water heating apparatus of the small hot water boiler according to an embodiment of the present invention, the upper case 2, the first heating plate 3, the second heating plate 4, the heating heater 5 ), And the lower case (6) in order to be configured so as to utilize the heat emitted from the heating heater without waste and to improve the durability.

The upper case 2 is configured to form an outer case together with the lower case 6, which will be described later, and the insertion groove portion 22 is accommodated so that the first heating plate 3 is received at the bottom of the case body 21 formed in a rectangular frame shape. It is formed, the inlet 23 and the outlet 24 for the inlet and outlet of the water is formed on the upper surface. At this time, the inlet port 23 and the outlet port 24 is formed in a shape that is spaced apart in the front and rear direction at one side edge portion of the case body 21 and protruded for easy connection of the connection hose (not shown).

In addition, the upper case 2 has a plurality of first fastening portions 25 having fastening holes to which the fixing screw 27 is fastened to be coupled to the lower case 6 which will be described later on the edge portion of the circumference of the case body 21. ) Is protruding.

5a and 5b are views for explaining a first heating plate of the hot water heating apparatus of the small hot water boiler according to an embodiment of the present invention, Figures 6a and 6b are hot water of the small hot water boiler according to an embodiment of the present invention 5A and 6A are perspective views showing the upper surface side, and FIGS. 5B and 6B are perspective views showing the upper surface side.

4 to 5B, the first heating plate 3 is built into the bottom of the upper case 2 and communicates with the first flow path 31 and the outlet 24 communicating with the inlet 23 at the top thereof. The fourth flow path 32 is a concave and formed configuration, excellent heat resistance and thermal conductivity is formed in a substantially rectangular plate shape by a material such as metal or reinforced plastic and heated by the heat applied from the heating heater (5) It serves to heat the water flowing through the first and fourth flow paths (31, 32).

The first heating plate 3 includes a first partition 33 protruding to partition the first flow path 31 and the fourth flow path 32, and a first watertight holding member 7, which will be described later, is inserted and fixed. A plurality of protrusions protruding from the surface of the first flow path 31 and the fourth flow path 32 corresponding to positions corresponding to the first watertight member insertion groove 34 and the heating heater 5, The heat radiation fin 35 is comprised. In addition, the first heating plate 3 is a second to be described later on the first flow path 31 and the fourth flow path 32 corresponding to the direction opposite to the formation position of the inlet port 23 and the outlet port 24 First and fourth flow holes 36 and 37 communicating with the second and third flow paths 41 and 42 of the heating plate 4 are formed therethrough.

In addition, the first partition 33 is configured to protrude along the longitudinal direction so as to divide the first and fourth flow holes (36, 37) into two, the first watertight member insertion groove 34 is the first and The outer groove 341 is formed along the circumference of the fourth flow path (31, 32) and the partition grooves 342 are formed in the upper end of the first partition (33).

4, 6A and 6B, the second heating plate 4 is formed to correspond to each other on the lower side of the first heating plate 3 and is formed in communication with the first flow path 31 at the bottom thereof. The second flow passage 41 and the third flow passage 42 in which one side communicates with the second flow passage 41 and the other side communicates with the fourth flow passage 32 are recessed and formed. Excellent in the form of a rectangular plate made of a material such as metal or reinforced plastic and heated by the heat applied from the heating heater (5) while flowing the water flowing through the second and third flow path (41, 42) It performs the function.

In addition, the second heating plate 4 may include a second partition 43 protruding to partition the second flow path 41 and the third flow path 42, and a second watertight holding member 8 to be described below. A plurality of heat dissipation fins protruding from the surface of the second flow path 41 and the third flow path 42 corresponding to the position of the recess, the second watertight member insertion groove 44, and the heating heater 5. 45 is comprised. In addition, the second heating plate 4 has the second and third flow holes 46 and 47 penetrated and formed in one side portion thereof so as to communicate with the first and fourth flow holes 36 and 37.

The second partition wall 43 protrudes from the side of the second and third flow holes 46 and 47 toward the other side, and an opening 48 for connecting the second and third flow paths 41 and 42 to the other end thereof. And a second watertight member insertion groove 44 is formed at an upper end of the outer groove 441 and the second partition 43 which are recessed along the circumferences of the second and third flow paths 41 and 42. It is comprised by the partition groove 442 formed in the recess.

Then, the first heating plate 3 and the second heating plate 4 has a fastening hole for fastening the fixing screw in the peripheral portion of the circumference of the body so as to be firmly fixed to each other in the state via the heating heater 5 therein. A plurality of second fastening portions 39 and 49 protrude.

On the other hand, the heating heater 5 is a configuration interposed between the bottom surface of the first heating plate 3 and the top surface of the second heating plate 4, if the structure is interposed between the first and second heating plates (3, 4) Although it can be installed in various forms, in the present embodiment is installed in the form of being inserted into the heating plate insertion groove 4a formed in the upper surface of the second heating plate (4). The heating heater 5 is provided with a heat generating portion 51 formed in a rectangular plate shape to have a large heat generating area, and a terminal portion 52 for supplying power to the heat generating portion 51.

The lower case 6 is formed to accommodate the second heating plate 4 so as to be engaged with the upper case 2 so that the second heating plate 4 is accommodated in the upper portion of the case body 61 formed in a rectangular frame shape. The insertion groove 62 is formed, and the first fastening portion 65 protrudes correspondingly to be connected to the first fastening portion 25 on the upper case 2 side at the edge portion of the circumference of the case body 61.

In addition, the upper case 2, the first heating plate 3, the second heating plate 4, and the lower case 6 may be selected and formed without limitation as long as the material has heat resistance and corrosion resistance. The heating plate 3 and the second heating plate 4 are preferably formed of a metal material such as aluminum having excellent thermal conductivity, and the upper case 2 and the lower case 6 are parts forming an outer case, so that the first to second It is preferable to form a synthetic resin material having heat insulation so as to prevent heat loss of the water flowing along the four flow paths (31, 41, 42, 32).

In addition, the warm water heating device of the small hot water boiler according to the present embodiment is the first watertight holding member 7 which is interposed so that the inner surface of the upper case 2 and the upper surface of the first heating plate 3 is watertightly connected, The second watertight holding member 8 is provided so that the inner surface of the case 6 and the bottom face of the 2nd heating plate 4 may be connected watertightly.

The first and second watertight holding members 7 and 8 are formed in a shape corresponding to the aforementioned first and second watertight member insertion grooves 34 and 44 by a material such as silicon and Teflon having heat resistance and watertightness. The parts inserted into the outer grooves 341 and 441 are kept airtight so that water does not leak out, and the parts inserted into the partition grooves 342 and 442 are the first and fourth flow paths 31 and 32 and the second and The airtightness is maintained so that water is not mixed with each other between the third flow paths 41 and 42.

On the other hand, the hot water heater of the small hot water boiler according to the present embodiment is the heat dissipation fins (35, 45) formed on the surface of the first to fourth flow paths (31, 41, 42, 32) while the heat exchange efficiency is improved It is characterized in that it is formed so as not to disturb the flow.

That is, the heat dissipation fins 35 and 45 are formed in a range corresponding to the shape of the heating heater so that the heat of the heating heater 5 can be effectively used as shown in FIGS. 5A and 6B, so as not to interfere with the flow of water. It protrudes long along the flow direction.

The hot water heating apparatus of the small hot water boiler according to the present embodiment has a temperature sensor 9a for detecting the temperature of the first and second heating plates 3 and 4, and the first and second heating plates as shown in FIG. When the heating temperature of 3,4 reaches a preset temperature, a safety switch 9b is provided to block the supply of power applied to the heating heater 5 to prevent overheating.

The temperature sensor 9a is configured to sense the heating temperatures of the first and second heating plates 3 and 4 and apply them to a control unit (not shown). The control unit according to the temperature detection signal applied from the temperature sensor 9a. Compared to the temperature set by the user, a control operation such as intermittent the power supplied to the heating heater 5 or being displayed on the display unit 14 provided in the small hot water boiler is performed.

In addition, the temperature sensor 9a and the safety switch 9b are installed grooves formed on opposite surfaces of the first and second heating plates 3 and 4 corresponding to the left and right sides of the heating plate insertion groove 4a so as not to come into contact with water. It is inserted and installed in 4b). Accordingly, even if the temperature sensor 9a and the safety switch 9b are formed of a corrosion resistant structure or a corrosion resistant material is not applied, the stability and durability of the operation can be secured and manufacturing costs can be reduced.

In addition, the temperature sensor may be a negative temperature coefficient (NTC) thermistor element having a characteristic of negative resistance temperature coefficient of decreasing resistance when temperature increases, or a PTC (characteristic of constant resistance temperature coefficient of resistance resistance increasing of temperature). Positive temperature coefficient) may be selected from thermistor elements, and the safety switch 9b may be configured as a conventional bimetal switch so that the supply of power is cut off while the contact state is released.

Hereinafter, the operation of the warm water heating device of the small hot water boiler according to an embodiment of the present invention.

7 and 8 are views for explaining the operation of the hot water heater of the small hot water boiler according to an embodiment of the present invention, Figure 7 shows the flow path of the water to explain the flow of water in the hot water heater 8 is a perspective view showing an installed state of a hot water heating device of a small hot water boiler according to an embodiment of the present invention.

When the hot water heater configured as described above is supplied to the small hot water boiler as shown in FIG. 8 and the power is supplied according to the user's operation, the heating heater 5 is operated to operate the first heating plate 3 and the second heating plate. Heat is applied to (4) to heat, and the circulation pump 13 is operated to perform circulation of water.

In more detail, this process, as shown in Figures 4 and 7 through the hose 15 connected to the inlet 23 of the upper case 2 by the suction force of the circulation pump 13 (11) ) Water flows into the first flow path 31 and moves along the flow path, and is first warmed by heat exchange with the surface heated by the heating heater 5 and the heat dissipation fin 35, and then It flows into the second flow path 41 through the flow hole 36 and the second flow hole 46.

Water flowed into the second flow path 41 is moved along the surface and the heat radiation fin 45 and is secondly warmed through heat exchange and through an opening 48 formed at the other end of the second partition 43. Inflow to the third flow path (42). Water flowed into the third flow path 42 is moved along the surface and the heat dissipation fin 45 to be warmed in a third manner through heat exchange, and then through the third flow hole 47 and the fourth flow hole 37. Inflow to the fourth flow path (32).

The water flowing into the fourth flow path 32 moves along the surface and the heat dissipation fin 35 to be fourthly warmed through heat exchange and discharged to the outlet 24, and then connected to the outlet 24. It moves to the side to be heated such as a heating mat (not shown) through (16) to perform a heating action.

As described above, the hot water heater according to the present embodiment is relatively small in size, but a heating space for heating water is composed of the first to fourth flow paths 31, 41, 42, and 32 to flow from the reservoir 11. Since the heat exchange area of the purified water is wide and is sequentially heated in multiple stages, it is possible to stably and effectively produce hot water. In particular, the first to fourth flow paths (31, 41, 42, 32) is configured with heat radiation fins (35, 45) on the surface corresponding to the placement of the heating heater (5) to increase the heat exchange area to maximize the heat exchange efficiency can do. In addition, since the heat dissipation fins 35 and 45 protrude long along the flow direction of the water, resistance is not generated during the flow of the water, so that a stable fluid flow can be ensured. Overload can be prevented.

Since the heating heater 5 that performs the heating action is not attached to the outer surface of the heating chamber as in the related art, the heating heater 5 is interposed between the first heating plate 3 and the second heating plate 4 and is discharged in the vertical direction. Since all the heat can be used for heat exchange and the heating heater 5 can be effectively exothermic even if the heating heater 5 is not formed of a corrosion resistant material or structure, it has an advantage of being configured by adopting an excellent heating property and an inexpensive heating element.

What has been described above is just one embodiment for implementing a hot water heating device of a small hot water boiler according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims Those skilled in the art to which the present invention pertains without departing from the gist of the present invention will have the technical idea of the present invention to the extent that various changes can be made.

2: upper case 23: inlet
24: outlet 3: first heating plate
31: First flow passage 32: Fourth flow passage
4: second heating plate 41: second flow path
42: 3rd flow path 5: heating heater
6: lower case 7: first watertight holding member
8: second watertight holding member 9a: temperature sensor
9b: Safety switch

Claims (7)

In the hot water heating device of a small hot water boiler,
An upper case having inlets and outlets for inflow and outflow of water;
A first heating plate embedded in a bottom of the upper case and having a first flow path communicating with the inlet and a fourth flow path communicating with the outlet at the top;
A second flow path which is formed to be engaged with each other on the lower side of the first heating plate and communicates with the first inflow flow path at a bottom thereof, and one side communicates with the second flow path, and the other flows with the fourth flow path; A second heating plate formed with a third flow path communicating with the furnace;
A heating heater interposed between the bottom surface of the first heating plate and the top surface of the second heating plate; And
The hot water heating device of a small hot water boiler, characterized in that it comprises a lower case is formed to accommodate the second heating plate is engaged with the upper case.
The method of claim 1,
A first watertight holding member interposed such that an inner surface of the upper case and an upper surface of the first heating plate are hermetically connected; And
A second watertight holding member interposed such that an inner surface of the lower case and a bottom surface of the first heating plate are connected to each other in a watertight manner,
The first heating plate may include: a first partition wall protruding to partition the first flow path and the fourth flow path, a first watertight member insertion groove formed and recessed and formed to insert and fix the first watertight holding member; and the heating A plurality of heat dissipation fins protruding on a surface of the first flow path and the fourth flow path corresponding to a position corresponding to the heater,
The second heating plate may include a second partition wall projecting to partition the second flow path and the third flow path, a second watertight member insertion groove formed and recessed and formed to insert and fix the second watertight holding member, and the heating. And a plurality of heat dissipation fins protruding from a surface of the second flow path and the third flow path corresponding to a position corresponding to the heater.
The method of claim 2,
The heat dissipation fin is a hot water heating device of a small hot water boiler, characterized in that protruding long along the flow direction so as not to interfere with the flow of water.
The method of claim 3,
The inlet and outlet are spaced apart in the front and rear direction on one side of the upper case,
The first heating plate has first and fourth flow holes communicating with second and third flow passages through and formed on the first flow passage and the fourth flow passage corresponding to opposite sides of the inlet and the outlet. The first partition wall protrudes along the longitudinal direction so as to divide the first and fourth flow holes in two, and the first watertight member insertion groove is recessed around the first and fourth flow paths and on the upper end of the first partition wall. Formed,
The second heating plate has second and third flow holes communicating with the first and fourth flow holes, formed therein, protruding from the second and third flow holes toward the other side, and having second and third flows at the other end thereof. The second partition wall having an opening for connecting the furnace to each other is formed, the compact, characterized in that the second watertight member insertion groove formed in the periphery of the second and third flow path and the top of the second partition wall Hot water heater of hot water boiler.
The method of claim 3,
The upper case and the lower case are formed on the peripheral edge portion of the case body a plurality of first fastening portions for coupling to each other in the state via the first heating plate, the heating heater, and the second heating plate is formed,
The first heating plate and the second heating plate is a hot water heater of the small hot water boiler, characterized in that a plurality of second fastening portion for coupling to each other in the state of the heating heater via the peripheral edge portion of the body is formed.
The method according to any one of claims 1 to 5,
A temperature sensor detecting a temperature of the first and second heating plates;
And a safety switch operable to cut off the supply of power applied to the heating heater when the heating temperature of the first and second heating plates reaches a preset temperature.
The method of claim 6,
The heating heater is formed in a rectangular plate shape to have a large heating area,
The heating plate insertion groove is recessed and formed in the upper surface of the second heating plate for the insertion of the heating heater, and the temperature sensor and the safety on the opposite surfaces of the first and second heating plates corresponding to the left and right sides of the heating plate insertion groove. Hot water heating device of a small hot water boiler, characterized in that the recess is formed, the installation groove is inserted into the switch.

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