KR20180090068A - Boiler - Google Patents

Abstract

The present invention relates to a boiler comprising: a boiler case having a heating water inflow pipe and a heating water outflow pipe; a heating water heater mounted in the boiler case; a heating water flow sensing switch mounted in the heating water inflow pipe; a water tank having a temperature sensor for measuring temperature of heating water; a heating water circulation pipe having a first circulation pump for transferring the heating water stored in the water tank to the heating water heater and returning the heating water of the heating water heater to the water tank and a second circulation pump for circulating the heating water to the interior; and a controller for controlling the heating water heater and the first and second circulation pumps and receiving a heating water flow sensing signal from the heating water flow sensing switch and a temperature signal of the heating water from the temperature sensor. The boiler can reduce unnecessary use time of the heating water heater, and directly heat the heating water with heat generated between a plurality of rectangular graphite heating elements while guiding the heating water from the bottom to the top of the heating water heater.

Description

Boiler {Boiler}

The present invention relates to a boiler, and more particularly, to a boiler for heating heating water directly from a plurality of quadrangular graphite heating elements while guiding the heating water from below to the upper side of the heating water heater while reducing unnecessary use time of the heating water heater .

Generally, a boiler is a device that generates heat energy by using fuel or electricity such as oil or gas as an energy source, and generates heating water or hot water by heating the medium, that is, water, with generated heat energy. Oil boilers, gas boilers, and electric boilers.

In this connection, Patent Document 1 discloses a heat exchanger comprising a casing portion for guiding movement of a heating medium; A heating unit installed inside the casing unit to heat the heating medium conveyed along the casing unit; A heating medium guiding part installed inside the casing part to support the heating part and to interfere with the flow of the heating medium conveyed along the casing part to increase the thermal conductivity between the heating medium and the heating part; And a gap adjusting portion connected to the casing portion to support and adjust the gap between the casing portions; The heating medium guiding portion includes a guiding cap which is installed at equal intervals in the pipe at equal intervals and which supports the heater and interrupts the flow of the heating medium flowing from one end of the pipe to the other end so as to increase the thermal conductivity between the heating medium and the heating portion, A coupling shaft disposed so as to pass through the center of the induction caps and supporting a plurality of induction caps, and a coupling nut fastened to the coupling shaft to fix the induction cap to the coupling shaft; The induction cap includes a bubble prevention surface formed to be convex toward the direction in which the heating medium flows and guiding the heating medium bumped against the inside of the induction cap 31 to flow along the convex surface to prevent bubbles from being generated between the induction caps, A reinforcing rib which is formed to have a ring-shaped rim around the preventing surface and prevents deformation of the bubble prevention surface due to water pressure; a shaft engagement hole formed at the center of the bubble prevention surface and through which the engagement shaft penetrates; Air bubble prevention

And a guide hole formed in the bubble prevention surface and passing through the heating medium bumped against the induction cap so that the passing heating medium flows along the bubble prevention surface.

However, currently, there is a need for a boiler which heats the heating water differently from the patent document 1.

Patent Document 1: Korean Registered Patent No. 10-1394360 (Registered on May 4, 2014)

Accordingly, an object of the present invention is to provide a boiler for heating heating water directly from a plurality of quadrangular graphite heating elements while guiding the heating water from the lower side to the upper side of the heating water heater while reducing unnecessary use time of the heating water heater .

According to an aspect of the present invention, there is provided a boiler case including a boiler case installed on the ground and having a heating water inlet pipe and a heating water outlet pipe, A heating water flow sensing switch installed in the heating water inlet pipe and located in the interior of the boiler case for sensing the amount of heating water flowing into the heating water inlet pipe, A water tank having a temperature sensor for measuring the temperature of the heating water and a heating water inlet pipe projecting from the boiler case and connected to one side of the heating water inlet pipe and the heating water outlet pipe, A first circulation pump for feeding the water to the heating water heater through the heating water inlet pipe and the heating water outlet pipe, And a second circulation pump for circulating the heating water to the room for heating. The heating water circulation pipe is installed inside the boiler case to control the heating water heater and the first and second circulation pumps. And a controller for receiving the heating water flow sensing signal from the sensing switch and the temperature of the heating water from the temperature sensor as a signal, wherein the heating water heater includes a housing and a cover to be coupled to each other, And a plurality of quadrangular graphite heating elements each having an electrode connected to the controller to receive a three-phase electric power supply, wherein the housing and the cover have a rectangular tube shape and a long length in the longitudinal direction, A plurality of quadrangular graphite heating elements are formed on the inner surfaces of the first and second inner spaces so as to be fitted along the longitudinal direction, And the first and second guide grooves having a width larger than that of the quadrangular graphite heating element are arranged to face each other so that the heating water can move into the first and second internal spaces between the plurality of quadrangular graphite heating elements sandwiched between the plurality of first and second quadrangular graphite heating elements. The housing has a heating water inlet and a heating water outlet connected to the heating water inlet pipe and the heating water outlet pipe, respectively, communicating with the first internal space, And the cover is formed with a plurality of first fitting holes through which one of the electrodes is inserted so as to be exposed to the outside, and the controller compares the received heating water temperature with the predetermined temperature stored in the signal so that the temperature of the heating water is low The first circulation pump is operated to transfer the heating water to the heating water heater through the heating water inlet pipe and receive the heating water flow detection signal from the heating water flow detection switch The second circulation pump is operated to control the circulation of the heating water through the heating water circulation pipe regardless of the operation or disengagement of the heating water heater and the heating water is circulated through the first and second guide grooves and the square- And guiding from the lower side to the upper side of the heating water heater along the first and second internal spaces between the graphite heat generating elements.

The present invention has an effect that the heating water heater operates through the controller only when the heating water is sensed by the heating water flow detection switch installed in the boiler case.

That is, if the controller does not receive the heating water flow sensing signal from the heating water flow sensing switch, the heating water heater does not operate.

In other words, the unnecessary use time of the heating water heater is reduced, thereby reducing power consumption.

Since the heating water heater is disposed inside the boiler case so that the heating water inlet for receiving the heating water from the first circulation pump is located at the lower side and the heating water outlet for discharging the heated water is located at the upper side, There is an effect of directly heating the heat generated between the plurality of rectangular graphite heating elements while being guided from the lower side to the upper side of the heating water heater.

The present invention has the effect that the heating water is uniformly heated to the heat generated between the plurality of rectangular graphite heating elements while being guided along the first and second internal spaces between the first and second guide grooves and the respective rectangular graphite heating elements in zigzag form.

That is, the heating water is heated while passing through the first and second internal spaces between the rectangular graphite heating elements one by one.

In other words, the heating water is lengthened inside the heating water heater while heating the heating water is lengthened to obtain the heating water heated to a temperature suitable for heating.

The present invention has the effect of blocking the gap between the first fitting hole and the electrode rod by the first and third sealing rings.

Further, the second sealing ring has an effect of blocking the open gap of the housing and the cover.

That is, the sealing force is increased by the first, second and third sealing rings, and the heating water heater prevents the leakage of the heating water.

The present invention has an effect that electricity can be supplied to a plurality of electrode bars at one time by the first, second, and third electrode plates, respectively.

That is, the heating water can be heated quickly.

The present invention has an effect that the first, second, and third electrode plates are stably fixed to the cover by the nuts.

Further, since the first, second and third electrode plates are sandwiched by the fifth fitting hole, the first, second and third electrode plates are more stably fixed to the cover.

In addition, even when the heating water moves, the nut is prevented from being loosened by the washer, so that the first, second, and third electrode plates are more stably fixed to the cover.

That is, there is an effect that the electricity can be stably supplied to the plurality of electrode rods irrespective of the fluctuation caused by the movement of the heating water.

In other words, there is an effect that heating of the heating water is stably performed.

Since the protection plate protects the first, second and third electrode plates, the present invention has the effect of reducing the risk of damage to the first, second and third electrode plates due to an external impact.

In addition, it has an effect of protecting a nut fastened to an electrode rod.

1 to 3 are partial perspective views showing the inside and outside of a boiler according to an embodiment of the present invention,
Figure 4 is a schematic view of a boiler according to an embodiment of the present invention;
5 is an exploded perspective view of a heating water heater according to an embodiment of the present invention,
6 is a cross-sectional view of a heating water heater according to an embodiment of the present invention,
7 to 10 are detailed views of a heating water heater and a heating water flow sensing switch according to an embodiment of the present invention,
FIGS. 11 to 15 are views showing the state of use of the boiler according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a configuration of a specific embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 15, a boiler 100 according to an embodiment of the present invention is installed on the ground of a factory or a workplace, and includes a heating water inlet pipe 11 and a heating water outlet pipe 12, The case 10 is included.

The boiler 100 is installed inside the boiler case 10 and includes a heating water heater 20 having a heating water inlet pipe 11 connected to the lower side and a heating water outlet pipe 12 connected to the upper side do.

The boiler 100 is installed in the heating water inlet pipe 11 and is located inside the boiler case 10 and includes a heating water flow sensing switch 30 for sensing the heating water flowing into the heating water inlet pipe 11 ).

The heating water flow sensing switch 30 includes an installation part 31 installed in the heating water inflow pipe 11 and a housing 30 connected to the installation part 31 and exposed from the heating water inflow pipe 11, 31a.

The heating water flow sensing switch 30 includes a movable member 32 which is rotatably installed in the housing 31a and a mounting portion 32 which is formed on one side of the movable member 32 and is exposed from the mounting portion 31, And a pressing portion 32b and a pressing portion 32c formed on one side of the opposite side of the movable orifice 32, respectively.

The heating water flow sensing switch 30 includes a latching plate 32a 'installed on the mounting portion 32a to receive heating water flowing in the heating water inflow pipe 11.

The heating water flow sensing switch 30 includes a spring 33 installed inside the housing 31a to closely support the lower portion of the pressing portion 32c and a spring 33 provided inside the housing 31a, And a micro switch 34 that is electrically turned on / off through connection with the micro switch 32b.

In addition, the heating water flow sensing switch 30 includes a switching plate 34a which is rotatably installed on the outer surface of the micro switch 34 and is supported on one surface of the pressing portion 32b in close contact with the micro switch 34, And the micro switch 34 is electrically turned ON / OFF by pushing and depressing the switching plate 34a by the pressing portion 32b, The contact portion 34b is included.

Here, the contact portion 34b has elasticity, is compressed when the switching plate 34a is pressed by the pressing portion 32b, and is released when the switching plate 34a is depressed by the pressing portion 32b .

The boiler 100 is connected to one side of a heating water inlet pipe 11 and a heating water outlet pipe 12 protruding from the boiler case 10 and includes a temperature sensor 41 for measuring the temperature of the heating water, And a water tank 40 having a plurality of water pipes.

That is, the water tank 40 is installed on the ground and is located outside the boiler case 10.

The boiler 100 is installed in a heating water inflow pipe 11 protruding outward from the boiler case 10 so that the heating water stored in the water tank 40 is introduced into the heating water inflow pipe 11 and the heating water inflow pipe 11, And a first circulation pump (50) for transferring the water to the water tank (40) while feeding the water to the heating water heater (20) through the water circulation pipe (12).

The boiler 100 includes a heating water circulation pipe 60 connected to one side of the water tank 40 and provided with a second circulation pump 61 for circulating the heating water to the room for heating.

The boiler 100 is installed inside the boiler case 10 to control the heating water heater 20 and the first and second circulation pumps 50 and 61 and is connected to the heating water flow detection switch 30 And a controller 70 that receives the heating water flow sensing signal and the temperature of the heating water from the temperature sensor 41 as a signal.

Here, the controller 70 receives the heating water flow sensing signal from the heating water flow sensing switch 30 only when the micro switch 34 is turned on.

The controller 70 compares the received heating water temperature with a predetermined temperature stored in advance to operate the first circulation pump 50 only when the temperature of the heating water is low, The heating water heater 20 is operated only when it is conveyed to the heating water heater 20 through the pipe 11 and receives the heating water flow sensing signal from the heating water flow sensing switch 30, The second circulation pump 61 is operated to control the circulation of the heating water through the heating water circulation pipe 60 irrespective of the operation or disengagement of the heating water circulation pipe 20.

Here, the controller 70 stores a preset temperature for comparison with the heating water temperature of 70 ° C.

That is, the controller 70 operates the first circulation pump 50 only when the heating water temperature is lower than 70 ° C.

The heating water heater 20 is installed at predetermined intervals in the housing 21 and the cover 22 to be coupled to each other and the housing 21 and the cover 22 to be coupled to each other, And a plurality of quadrangular graphite heating elements 23 each having an electrode rod 23a connected to the controller 70 so as to receive the quartz graphite heating elements.

The housing 21 and the cover 22 are formed in a rectangular tube shape and each have a long length in the longitudinal direction and one long side facing each other is opened to form the first and second internal spaces 21a and 22a, A plurality of first and second fitting ends 21b and 22b are formed on both inner surfaces of the first and second inner spaces 21a and 22a so that a plurality of rectangular graphite heating elements 23 are inserted along the longitudinal direction, A plurality of quadrangular graphite heating elements 23 are inserted into the first and second internal spaces 21a and 22a between the first and second quadrangular graphite heating elements 23a and 23b, The first and second guide grooves 21c and 22c having a larger width than the first guide grooves 23 are formed in a zigzag shape along the longitudinal direction on the inner surfaces of the first and second inner spaces 21a and 22a facing each other.

The first and second guide grooves 21c and 22c are formed in pairs between the first and second fitting ends 21b and 22b in the width direction.

That is, the housing 21 and the cover 22 are connected to the first and second guide grooves 21c and 22c and the first and second internal spaces 21a and 22a between the rectangular graphite heating elements 23 And is formed so as to be guided from the lower side of the heating water heater 20 upward.

The housing 21 has a heating water inlet 21d and a heating water outlet 21e connected to the heating water inlet pipe 11 and the heating water outlet pipe 12 while communicating with the first internal space 21a, .

In addition, the cover 22 is formed in a row with a plurality of first fitting holes 22d through which one of the electrode rods 23a is fitted so as to be exposed to the outside.

In the heating water heater 20, a sealing groove 22d 'is formed in the vicinity of the first fitting hole 22d adjacent to the inner surface of the second inner space 22a, and the sealing groove 22d' A first sealing ring 24 is included.

Here, the first sealing ring 24 is formed to be in close contact with the quadrangular graphite heating element 23 and be compressed in the sealing groove 22d '.

In the heating water heater 20, a sealing projection 21f in the form of a strip is formed on the periphery of one side of the opening of the housing 21, and the sealing projection 21f is formed on the periphery of one side of the cover 22, And a second sealing ring 25 in the form of a band sandwiched between the sealing projection 21f and the sealing hole 22e is included in the sealing hole 22e.

Here, the second sealing ring 25 is formed to be in close contact with the sealing projection 21f and to be pressed in the sealing hole 22e.

The heating water heater 20 is provided with second, third and fourth fitting holes 26a, 27a, 27'a (27a, 27a) in which one of the electrode rods 23a exposed in each first fitting hole 22d is fitted, And the first, second and third electrode plates 26, 27 and 27 'connected to the controller 70 so as to receive the three-phase electric power supply.

That is, the electrode rod 23a is fitted into the second, third and fourth fitting holes 26a, 27a and 27'a of the first, second and third electrode plates 26, 27 and 27 ' And is connected to the controller 70 to receive the three-phase electrical supply.

The heating water heater 20 is provided with a male screw portion 23a 'on one side of each of the electrode rods 23a exposed in the second, third and fourth fitting holes 26a, 27a and 27'a And a nut 28 fastened to the male threaded portion 23a '.

The first and second and third electrode plates 26, 27 and 27 'are fitted to one side of the open side of the cover 22 and the first fitting hole 22d And a fifth fitting hole 22f is formed.

The heating water heater 20 includes a washer 29 positioned between the first, second and third electrode plates 26, 27, 27 'and the first fitting hole 22d and fitted in the electrode rod 23a, ).

The heating water heater 20 includes a third sealing ring 29a positioned between the washer 29 and the first fitting hole 22d and fitted in the electrode rod 23a.

Here, the third sealing ring 29a is formed so as to come into close contact with the washer 29 and be compressed in the fifth fitting hole 22f.

The heating water heater 20 includes a protection plate 20a which is coupled to the cover 22 to protect the first, second and third electrode plates 26, 27 and 27 '.

The boiler 100 is installed in the boiler case 10 to be exposed to the outside and includes a heating water heater 20, a heating water flow sensing switch 30, a temperature sensor 41, a first circulation pump 50, The second circulation pump (61). And a boiler power regulator 71 that is operable to operate the controller 70 while supplying three-phase electric power to the controller 70 while showing the operating state.

The boiler 100 is installed in the boiler case 10 so as to be exposed to the outside and receives electricity from the boiler power regulator 71 and controls the indoor temperature by the heating water circulation of the heating water circulation pipe 60, And a room-conditioner power regulator 72 which can be operated through the room 70 and displays the temperature of the room.

The boiler 100 is installed in the boiler case 10 to be exposed to the outside and includes a heating water heater 20, a heating water flow sensing switch 30, a temperature sensor 41, a first circulation pump 50, The second circulation pump (61). The controller 70 includes an earth leakage breaker 73 for shutting off supply of electricity to the boiler power regulator 71 when a leakage current is generated in the room-condition power supply regulator 72.

The boiler 100 is installed in the boiler case 10 so as to be exposed to the outside and receives electricity from the boiler power regulator 71. The maximum power of the heating water heater 20 required for heating the heating water is set in advance A stored power controller 74 is included.

Here, the power controller 74 controls the controller 70 such that the power used by the heating water heater 20 used for heating the heating water exceeds a predetermined maximum power, And controls the operation of the heating water heater 20 to be stopped temporarily until it is not exceeded.

That is, the power used by the heating water heater 20 required for heating can be greatly increased in accordance with the component of the heating water and the temperature condition, so that the electric power controller 74 can control the heating water heater 20 through the controller 70, .

The operation and effect of the present invention constructed as described above will be described below.

1 to 15, the boiler 100 according to the embodiment of the present invention operates the second circulation pump 61 through the controller 70 to circulate the indoor air through the heating water circulation pipe 60 Circulates the heating water stored in the water tank (40).

Here, the controller 70 receives the temperature of the heating water from the temperature sensor 41 as a signal, and compares the received heating water temperature with the preset temperature.

If the heating water temperature is lower than the preset 70 ° C temperature, the first circulation pump 50 is operated through the controller 70 to circulate the heating water through the heating water inlet pipe 11, (20).

At this time, if the heating water temperature is higher than the preset 70 ° C temperature, the first circulation pump 50 is not operated through the controller 70.

When the heating water passes through the heating water flow sensing switch 30 installed in the heating water inlet pipe 11, the heating water flow sensing switch 30 senses the heating water flow and sends a heating water flow sensing signal to the controller 70 .

More specifically, as the movable plate 32 is rotated in one direction as the retaining plate 32a 'is caught by the heating water, the pressing portion 32b, which is in close contact with the switching plate 34a, 34).

In other words, as the pushing portion 32b is released from being pressed against the switching plate 34a, the contact portion 34b is also released from compression.

At this time, the spring 33 is compressed by the pressing portion 32c which rotates together with the movable orifice 32.

The contact portion 34b that has pressed the switching plate 34a in close contact with the switching plate 34a rotates so that the switching plate 34a is moved away from the micro switch 34 by the decompressed contact portion 34b, (34).

That is, the micro switch 34 is turned on by the contact portion 34b from which the pressing portion 32b is released, and transmits the heating water flow detection signal to the controller 70. [

Then, the controller 70 controls the heating water heater 20 to operate.

That is, the controller 70 controls the heating water heater 20 to operate only when it receives the heating water flow sensing signal from the heating water flow sensing switch 30.

The heating water that has passed through the heating water flow sensing switch 30 flows into the heating water inlet 21d of the heating water heater 20 through the first circulation pump 50 and flows into the heating water inlet 21d of the heating water heater 20, And is discharged from the heating water outlet 21e connected to the water tank 40. [

That is, the heating water stored in the water tank 40 is transferred to the water tank 40 while being transferred to the heating water heater 20 through the heating water inlet pipe 11 and the heating water discharge pipe 12.

Here, the heating water heating process of the heating water heater 20 is as follows.

The heating water flows into the first and second internal spaces 21a and 22a of the heating water heater 20 through the heating water inlet 21d.

The heating water is guided in a zigzag manner along the first and second internal spaces 21a and 22a between the first and second guide grooves 21c and 22c and the rectangular graphite heating elements 23.

The square graphite heating elements 23 are connected to the first, second and third electrode plates 26, 27 and 27 'connected to the controller 70 under the control of the controller 70, Are electrically connected to the controller 70 through the respective electrode rods 23a fitted in the four fitting holes 26a, 27a and 27'a.

That is, each rectangular graphite heating element 23 sandwiched between the first and second fitting ends 21b and 22b along the longitudinal direction of the housing 21 and the cover 22 receives three-phase electricity through the controller 70 do.

Thus, heat is generated between the respective quadrangular graphite heating elements 23 due to the current movement, thereby heating the heating water.

Since the heating water heater 20 is installed inside the boiler casing 10 such that the heating water inlet 21d is positioned below and the heating water outlet 21e is located above the heating water heater 20, Is gradually heated from the lower side of the rectangular graphite heating element (20) to the heat generated by each rectangular graphite heating element (23).

The first sealing ring 24 is pressed in the sealing groove 22d 'by the rectangular graphite heating element 23 which is in close contact with the first sealing ring 24 so that the first fitting hole 22d in which the electrode rod 23a and the electrode rod 23a are fitted, .

That is, the first sealing ring 24 prevents the heating water from moving to the outside of the heating water heater 20 through the first fitting hole 22d.

The second sealing ring 25 is brought into close contact with the sealing projection 21f by the mutual engagement of the housing 21 and the cover 22 and is compressed in the sealing hole 22e.

That is, the second sealing ring 25 seals one of the open sides of the housing 21 and the cover 22, thereby preventing the heating water from moving to the outside of the heating water heater 20. [

Since the first, second and third electrode plates 26, 27 and 27 'are fixed to the cover 22 by the nut 28, the heating water heater 20 The first, second, and third electrode plates 26, 27, and 27 'are prevented from being shaken.

Also, the first, second and third electrode plates 26, 27, 27 'are fitted into the fifth fitting hole 22f to prevent further shaking.

Even if the heating water heater 20 vibrates due to the movement of the heating water, the nut 28 is not loosened by the washer 29.

The third sealing ring 29a is brought into close contact with the washer 29 by the tightening of the nut 28 and is compressed in the fifth fitting hole 22f.

That is, the third sealing ring 29a together with the first sealing ring 24 further prevents the heating water from moving to the outside of the heating water heater 20 through the first fitting hole 22d.

The protective plate 20a is coupled to the cover 22 so that the first, second and third electrode plates 26, 27 and 27 'are not exposed to the outside, Thereby protecting the plates 26, 27 and 27 '.

Thus, the heated water is discharged from the water tank 40 to the heating water circulation pipe 60 and circulated for heating the room.

Meanwhile, the controller 70 controls the first circulation pump 50 so that the first circulation pump 50 is not operated if the temperature of the heating water received as a signal from the temperature sensor 41 is higher than a preset 70 ° C temperature.

Then, the heating water can not pass through the heating water flow sensing switch 30 installed in the heating water inlet pipe 11.

That is, the heating water flow sensing switch 30 can not sense the heating water, so that the heating water flow sensing signal is not transmitted to the controller 70.

More specifically, the compression of the spring 33 by the pressing portion 32c is released without the engagement plate 32a 'being caught by the heating water not flowing.

That is, the elasticity of the spring 33 causes the movable member 32 to rotate in the original state, and the pressing portion 32b again presses the switching plate 34a.

The switching plate 34a is also rotated so as to approach the micro switch 34 by the pressing of the pressing portion 32b and at the same time the contact portion 34b which has pressed and supported the switching plate 34a is also pressed 32b and is not exposed to the outside of the micro switch 34. [

That is, the microswitch 34 is turned off by the contact portion 34b pressed by the pressing portion 32b, so that the controller 70 can not transmit the heating water flow sensing signal.

Then, the controller 70 controls the heating water heater 20 so as not to operate.

That is, the heating water is circulated only in the heating water circulation pipe 60 after the heating by the heating water heater 20 is completed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Various changes and modifications may be made by those skilled in the art.

10: Boiler case 11: Heating water inlet pipe
12: Heating water discharge pipe 20: Heating water heater
20a: protection plate 21: housing
21a: first inner space 21b: first fitting end
21c: first guide groove 21d: heating water inlet
21e: Heating water outlet 21f: Closing projection
22: cover 22a: second inner space
22b: second fitting end 22c: second guide groove
22d: first fitting hole 22d ': sealing groove
22e: Closed hole 22f: Fifth fit hole
23: Rectangular graphite heating element 23a: Electrode
23a ': male thread portion 24: first sealing ring
25: second sealing ring 26: first electrode plate
26a: second fitting hole 27: second electrode plate
27a: third fitting hole 27 ': third electrode plate
27'a: fourth fitting hole 28: nut
29: washer 29a: third sealing ring
30: Heating water flow detection switch 40: Water tank
41: temperature sensor 50: first circulation pump
60: second circulation pump 61: heating water circulation pipe
70: Controller 100: Boiler

Claims (9)

In the boiler,
A boiler case 10 installed on the ground and having a heating water inlet pipe 11 and a heating water outlet pipe 12,
A heating water heater 20 installed inside the boiler case 10 and having a heating water inlet pipe 11 connected to the lower side and a heating water outlet pipe 12 connected to the upper side,
A heating water flow sensing switch 30 installed in the heating water inlet pipe 11 and located inside the boiler case 10 to sense heating water flowing into the heating water inlet pipe 11,
A water tank 40 having a heating water inlet pipe 11 and a heating water outlet pipe 12 projecting outward from the boiler case 10 and connected to one side and having a temperature sensor 41 for measuring the temperature of the heating water, ,
The heating water stored in the water tank 40 is supplied to the heating water inlet pipe 11 and the heating water outlet pipe 12 through the heating water inlet pipe 11 protruding outward from the boiler case 10, A first circulation pump (50) for transferring the water to the water tank (40) while transferring the water to the heater (20)
A heating water circulation pipe 60 connected to one side of the water tank 40 and provided with a second circulation pump 61 for circulating the heating water to the room for heating,
The heating water heater 20 and the first and second circulation pumps 50 and 61 are installed inside the boiler case 10 to control the heating water flow sensing signal and the temperature And a controller (70) for receiving the temperature of the heating water from the sensor (41) as a signal,
The heating water heater 20 includes a housing 21 and a cover 22 which are coupled to each other,
A plurality of rectangular graphite heating elements 23 provided at predetermined intervals in the housing 21 and the cover 22 to be coupled to each other and each having an electrode rod 23a connected to the controller 70 to receive three- Lt; / RTI >
The housing 21 and the cover 22 are formed in a rectangular tube shape and have a long length in the longitudinal direction and one of them is opened to form the first and second internal spaces 21a and 22a and a plurality of rectangular graphite heating elements 23, A plurality of first and second fitting ends 21b and 22b are formed on both inner surfaces of the first and second inner spaces 21a and 22a so as to be inserted along the longitudinal direction, The rectangular graphite heating elements 23 are formed so that the heating water can move into the first and second internal spaces 21a and 22a between the rectangular graphite heating elements 23 sandwiched between the ends 21b and 22b. The first and second guide grooves 21c and 22c are formed in the zigzag shape along the longitudinal direction on the inner surface of the first and second inner spaces 21a and 22a,
The housing 21 has a heating water inlet 21d and a heating water outlet 21e connected to the heating water inlet pipe 11 and the heating water outlet pipe 12 through the first internal space 21a And,
The cover 22 is formed with a plurality of first fitting holes 22d to which one of the electrode bars 23a is fitted so as to be exposed to the outside,
The controller 70 compares the received heating water temperature with a predetermined temperature stored in the signal and operates the first circulation pump 50 only when the temperature of the heating water is low to supply the heating water to the heating water inlet pipe The heating water heater 20 is operated only when the heating water heater 20 receives the heating water flow sensing signal from the heating water flow sensing switch 30 and the heating water heater 20 The second circulation pump 61 is operated to control the circulation of the heating water through the heating water circulation pipe 60,
The heating water is supplied from the lower side to the upper side of the heating water heater 20 along the first and second internal spaces 21a and 22a between the first and second guide grooves 21c and 22c and the rectangular graphite heating elements 23 To the boiler. The method according to claim 1,
The heating water heater 20 has a sealing groove 22d 'formed in the periphery of the first fitting hole 22d adjacent to the inner surface of the second inner space 22a,
And a first sealing ring (24) fitted in the sealing groove (22d '). The method according to claim 1,
The heating water heater 20 is provided with a sealing projection 21f on the periphery of one side of the housing 21 which is opened and a sealing hole 21f in which the sealing projection 21f is fitted, (22e)
And a second sealing ring (25) sandwiched between the sealing projection (21f) and the sealing hole (22e). The method according to claim 1,
The heating water heater 20 has second, third and fourth fitting holes 26a, 27a and 27'a in which one of the electrode rods 23a exposed in each of the first fitting holes 22d is fitted, And a first, second and third electrode plates (26) (27) (27 ') connected to the controller (70) so as to receive a three-phase electric supply. 5. The method of claim 4,
The heating water heater 20 has a male threaded portion 23a 'formed on one side of each of the electrode rods 23a exposed in the second, third and fourth fitting holes 26a, 27a and 27'a,
And a nut (28) fastened to the male threaded portion (23a '). 5. The method of claim 4,
The heating water heater 20 has first, second and third electrode plates 26, 27 and 27 'fitted on one side opposite to the open side of the cover 22 and has a first fitting hole 22d To form a fifth fitting hole (22f).
The method according to claim 6,
The heating water heater 20 includes a washer 29 positioned between the first, second and third electrode plates 26, 27 and 27 'and the first fitting hole 22d and fitted in the electrode rod 23a Characterized in that it comprises a boiler. 8. The method of claim 7,
Wherein the heating water heater (20) includes a third sealing ring (29a) positioned between the washer (29) and the first fitting hole (22d) and fitted in the electrode rod (23a). 5. The method of claim 4,
Wherein the heating water heater 20 includes a protection plate 20a coupled to the cover 22 to protect the first, second and third electrode plates 26, 27 and 27 '.

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