KR101444703B1 - A small electric boiler equipped with a liquid circulation pump to be installed separate additional work - Google Patents

Abstract

The present invention relates to a small electric boiler having a liquid circulation pump in which operating parts are separated and installed, and the water tank and the circular heater are integrated to further secure a space in the water tank, thereby further adding the circular heater. And the number of components such as the heater can be increased or decreased according to the heating environment, so that the installation environment can be improved. When the liquid circulation pump is driven by mounting two liquid circulation pumps in the boiler, if one of the liquid circulation pumps is defective, the other liquid circulation pump is immediately switched to another one, So that continuity of use of the boiler can be ensured.
According to the small electric boiler provided with the liquid circulation pump in which the operation part according to the present invention as described above is separately installed, the accumulation of the gas during the operation does not occur, the operation failure due to the accumulated gas is remarkably reduced, It is possible to efficiently and flexibly cope with the installation environment and to be able to completely waterproof the electric component such as the driving coil of the circulation pump There are advantages to be able to.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a small electric boiler equipped with a liquid circulation pump,

The present invention relates to a small electric boiler (100) having a liquid circulation pump in which operating parts are separated and installed, and more particularly to a small electric boiler (100) having a water tank cover (120) A circular heater 140 installed in the water tank cover 120 in a downward direction and having a concentric axis in a horizontal direction, the circular heater being wound at least twice; And a heater temperature controller 150 connected to the circular heater 140 and the heater heat sensor 141. The heater temperature sensor 150 is connected to the circulating heater 140, A lower level adjustment discharge pipe 160, 160 'formed on the lower surface of the water tank 130 so that the upper surface thereof is positioned at the lowest waterline c, The liquid circulation pumps 200 and 20 (not shown) connected to the lowest level control discharge pipes 160 and 160 ' And a circulation temperature controller 170 for regulating the operation of the liquid circulation pumps 200 and 200 'to adjust the heating temperature. The liquid circulation pumps 200 and 200' At least one of which is provided with a center receiving hole 211 and a center of the receiving hole 211 is provided with a first bearing mounting part 212 supported by two or more supporting rods 213, A first body 210 in which a water outlet 215 is formed at one side and a cylindrical water circulation chamber 214 connecting the water inlet 211 and the water outlet 215 is formed; And a partition wall 221 coupled to the first body 210 so as to be in tight contact with the circulation water chamber 214. One side of the partition wall 221 faces toward the circulation water chamber 214 And the other end of the rotor mounting portion 222 is closed. The other end of the rotor mounting portion 222 is provided with a cylindrical second rotor mounting portion 222, A rotary shaft 231 is installed between the first bearing mounting portion 212 and the second bearing mounting portion 223 and the second bearing 220 is mounted on the rotary shaft 231. [ A permanent magnet 233 disposed on the other side of the rotor main body 233 and having a magnetic pole arranged axially symmetrically about the rotation axis 231 234), and a starting projection 236 formed on one side of the rotor main body 233 and uniformly arranged on the outer circumferential surface of the rotor main body 233 in such a manner that the rotating shaft 231 is axially symmetrical about the central axis in the longitudinal direction A rotor 230 including a starting coupling part 235 installed in the circulating water chamber 214 and an impeller hollow shaft 241 into which the starting coupling part 235 is inserted; A plurality of blades installed along the outer peripheral surface of the impeller hollow shaft 241 And a driven protrusion 243 disposed in the impeller hollow shaft 241 in the longitudinal direction so as to engage with the starting protrusion 236. The impeller 240 includes an impeller 240, A driving coil part 250 installed at two or more along the outer circumferential surface of the rotor installation part 222 of the main body 220 of the main body 220 and a driving coil part 250 connected to one surface of the liquid circulation pump 200, And an inlet drain pipe (260, 260 ') for returning the circulated water from the piping to the water tank (130) and discharging the water in the water tank (130) to the boiler pipe again. To a small electric boiler having a pump.

In recent years, small-sized boilers using electricity have been widely used in terms of environmental friendliness such as ease of use and installation, exhaust gas, and the like in a small-size boiler that is not used in a large-sized facility.

In the case of such a small electric boiler, the water for heating is stored in the tank without being supplied with water from the outside, and circulated and operated. The heat exchanger includes an electric-operated heater and an auxiliary tank for storing heating water. .

However, the conventional small electric boiler has a disadvantage in that it is relatively complicated to manufacture and requires a large manufacturing cost due to the structural features of the heat exchanger and the auxiliary tank for storing the heating water.

In addition, due to the characteristics of the heat exchanger, which is inevitably required to have a closed structure, when gas is accumulated inside due to bubbles generated during heating, there is a problem that not only the circulation of the water supply is poor, but also a lot of operating noise is generated.

Particularly, when the bubbles generated are introduced into the circulation pump, there is a problem that noise and operating efficiency deteriorate when bubbles are struck to the impeller blades incorporated in the circulation pump.

In order to solve such a problem, Korean Patent Laid-Open Publication No. 10-2013-0040565, entitled " Small Electric Boiler Having a Circular Heater Installed and Openable Water Tank " of the Prior Art 1 filed by the present applicant, A circular heater which is installed on the water tub cover in a downward direction and which has a circular heating part in which the circular heating part is wound twice or more in a horizontal direction; A heater temperature sensor disposed on the upper side of the heating unit, a heater temperature controller connected to the circular heater 140 and the heater heat sensor for adjusting the temperature of the circular heater, A low water level adjustment discharge pipe installed to be positioned at the water level, and a water level adjustment pipe installed directly below the water level, A circulation pump for circulating and supplying hot water to the circulation pipe, a water inlet pipe for returning the water circulated from the boiler pipe to the water tank, and a circulation temperature control device for controlling the heating temperature by controlling the operation of the circulation pump, .

However, in the case of a small-sized electric boiler in which the conventional circulation pump is used, it is necessary to mechanically connect the impeller with the motor for providing power for driving the impeller of the circulation pump, The constituent elements are forced to pass through the boundary of the circulating water passage portion so that the structure of the boundary portion of the circulation chamber through which the drive shaft of the motor passes is complicated or the waterproofing capability is deteriorated over time, Since the circulation pump has a smaller heat quantity than that of a general boiler, the operation time of the circulation pump is increased as compared with that of the general boiler, so that maintenance and repair are required from time to time. There is a problem that the convenience is not sufficient.

Patent Document 1: Korean Patent Publication No. 10-2013-0040565

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a circulation type air conditioner in which the circulation heater and the water heater It is possible to reduce the generation of air bubbles by further securing the contact area and drastically reduce the operating noise caused by the air bubbles, and it is possible to install and adjust the number of components such as the circular heater according to the heating environment, And when one of the liquid circulation pumps driven by mounting the two liquid circulation pumps in the boiler is defective, the other one of the liquid circulation pumps is immediately switched to another one, And the structure of the liquid circulation pump can be structured such that the space in which the circulation water passes It is possible to provide a waterproof structure that can be completely waterproofed with respect to the electric component such as a driving coil and can be generated in the rotor by electromagnetic induction or friction during operation Since the heat can be cooled very effectively through the circulating water, it is advantageous for continuous operation, and it is possible to remarkably reduce the maintenance and maintenance by improving the operating ability and the life of the device, thereby improving the efficiency and convenience of the small electric boiler And a liquid circulation pump in which an operation part capable of being separated is installed.

In order to solve the above-mentioned problems, a small electric boiler 100 having a liquid circulation pump in which an operating part according to the present invention is separately installed includes a water tank cover 120 having an air drop pipe 121 formed on an upper side thereof, A circular heater 140 installed in the water tank cover 120 in a downward direction and wound around the water tank cover 120 twice or more and having a concentric axis in the horizontal direction, And a heater temperature controller 150 connected to the circular heater 140 and the heater heat sensor 141. The heater temperature sensor 150 is disposed on the upper side of the circular heating part, A lower level adjustment discharge pipe 160, 160 'formed on the lower surface of the water tank 130 and installed at the lower surface of the water tank 130 so that the upper surface thereof is positioned at the lowest waterline c, , A liquid connected to the lowest level adjustment discharge pipe (160, 160 '), respectively And a circulation temperature controller 170 for controlling the heating temperature by controlling the operation of the circulation pumps 200 and 200` and the liquid circulation pumps 200 and 200`, At least one of the pumps 200 and 200 is provided with a water inlet 211 at the center and a first bearing mounting portion 212 supported by two or more supports 213 at the center of the water inlet 211 A water outlet 215 is formed at one side and a first circulation water chamber 214 having a cylindrical water circulation chamber 214 for connecting the water inlet hole 211 and the water outlet hole 215 is formed, And a partition wall 221 coupled to the circulation water chamber 214 and coupled to the first body 210. The partition wall 221 has one side connected to the circulation water chamber 214, Shaped rotor mounting portion 222 which is open toward the rotor mounting portion 214 and which is closed at the other side, A rotary shaft 231 is installed between the first bearing mounting portion 212 and the second bearing mounting portion 223, and a second bearing mounting portion 223 is formed between the first bearing mounting portion 212 and the second bearing mounting portion 223 A rotor main body 233 provided on the other side of the rotor main body 233 and having a magnetic pole arranged axially symmetrically about the rotation axis 231 about the rotation axis 231, A plurality of permanent magnets 234 mounted on one side of the rotor main body 233 and having at least two or more rotation axes 231 axially symmetrically arranged on the outer circumferential surface of the rotor main body 233, A rotor 230 including a star coupler 235 on which the star coupler 235 is installed and an impeller hollow shaft 241 into which the star coupler 235 is inserted, And is disposed along the outer peripheral surface of the impeller hollow shaft 241 so as to circulate the circulating water within the impeller hollow shaft 241 An impeller 240 including a plurality of blades 242 and a driven protrusion 243 arranged in the longitudinal direction inside the impeller hollow shaft 241 so as to engage with the starting protrusion 236; Two or more driving coil units 250 installed along the outer circumferential surface of the rotor mounting part 222 of the second body 220 and a plurality of second driving coil units 250 connected to one surface of the liquid circulating pump 200 200 ' And an inlet drain pipe 260 and 260` for returning the water circulated from the boiler pipe to the water tank 130 and discharging the water in the water tank 130 to the boiler pipe again .

The water tank cover 120 is provided with two or more heater mounting portions 125 each of which is provided with the circular heater 140. The heater mounting portion 125 is formed with a heater mounting depression 128 A heater mounting hole 126 in which the circular heater 140 is installed and a sensor mounting hole 129 in which the heater mounting sensor 129 is installed when the heater is installed, 127 are further provided.

The apparatus further includes a leakage detection circuit breaker 180 for detecting a leakage current of the liquid circulation pumps 200 and 200 'and for interrupting power supply to the liquid circulation pumps 200 and 200' .

A case 110 in which the water tank 130 is installed at an inner upper portion and the liquid circulation pumps 200 and 200` are installed at an inner lower portion of the case 110; a hinge 113 at one side of the case 110; A water level observation window 112 formed in the front door 111 and capable of observing the water level of the water tank 130 and a water level measurement window 112 installed in the air outlet pipe 111, 121), and an air vent pipe cap (122) detachably coupled to the upper side of the air vent pipe (121) and having a through hole (123) formed in a side surface thereof,

The heater temperature controller 150 further includes a temperature controller 151 and a heater power switch 152. The circulating temperature controller 170 is connected to the power switch 171 and the outgoing switch 172, A setting switch 173 and a display 174,

The liquid circulation pump 200 and 200 'includes a pipe 232 installed between the rotary shaft 231 and the rotor body 233 and a pipe 232 installed between both ends of the rotary shaft 231, And a rotary shaft elastic bearing 237 further provided between the second bearing mounting portion 223 and the second bearing mounting portion 223.

The water tank cover 120 is provided with two or more heater mounting portions 125 each of which is provided with the circular heater 140. The heater mounting portion 125 is formed with a heater mounting depression 128 A heater mounting hole 126 in which the circular heater 140 is installed and a sensor mounting hole 129 in which the heater mounting sensor 129 is installed when the heater is installed, 127, respectively,

The water circulation pump is connected to one surface of the liquid circulation pumps 200 and 200` to return the circulated water from the boiler piping to the water tank 130 and discharges the water in the water tank 130 to the boiler pipe A leakage detection circuit breaker 180 for detecting the leakage current of the liquid circulation pumps 200 and 200` and cutting off the power supply to the liquid circulation pumps 200 and 200` when a leakage current is generated, Further comprising:

A case 110 in which the water tank 130 is installed at the upper part of the inside and the liquid circulation pump 200 and 200` is installed at the lower inner side of the case 110 and a hinge 113 is provided at one side of the case 110 A water level observation window 112 formed on the front door 111 and capable of observing the water level of the water tank 130; And an air vent pipe cap 122 detachably coupled to an upper side of the air vent pipe 123 and having a through hole 123 formed in a side surface thereof,

The heater temperature controller 150 further includes a temperature controller 151 and a heater power switch 152. The circulating temperature controller 170 is connected to the power switch 171 and the outgoing switch 172, A setting switch 173 and a display 174,

The liquid circulation pump 200 and 200 'includes a pipe 232 installed between the rotary shaft 231 and the rotor body 233 and a pipe 232 installed between both ends of the rotary shaft 231, And a rotary shaft elastic bearing 237 further provided between the second bearing mounting portion 223 and the second bearing mounting portion 223.

As described above, according to the present invention, it is possible to integrate the water tank and the circular heater to further secure the space in the water tank, thereby further adding the circular heater, further securing an area in which the circular heater and the water supply contact each other, The number of components such as the circular heater can be increased or decreased according to the heating environment, so that it is possible to cope with the installation environment efficiently and flexibly , When one of the two liquid circulation pumps driven by two liquid circulation pumps is installed in the boiler, if one of the liquid circulation pumps is defective, the other one of the liquid circulation pumps is immediately switched to use, so that continuity of the use of the boiler can be ensured, The structure of the liquid circulation pump is such that a separate driving element is present at the boundary of the space through which the circulating water passes It is possible to completely waterproof the electric components such as the drive coils and the heat generated in the rotor by electromagnetic induction or friction during operation can be very effectively applied through the circulating water It is advantageous in continuous operation, and it is possible to improve the operating ability and extend the service life of the apparatus, thereby remarkably reducing the maintenance and maintenance, thereby increasing the efficiency and convenience of the small electric boiler.

FIG. 1 is a perspective view showing the appearance of a compact electric boiler having a liquid circulation pump in which operating parts are separately installed according to a preferred embodiment of the present invention. FIG.
2 is a block diagram showing the internal structure of a small electric boiler having a liquid circulation pump in which operating parts are separately installed according to a preferred embodiment of the present invention.
FIG. 3 is a block diagram showing an operating relationship of a small electric boiler having a liquid circulation pump in which an operating unit is separately installed according to a preferred embodiment of the present invention.
FIG. 4 is an exploded perspective view showing major components of a small electric boiler having a liquid circulation pump in which operating parts are separately installed according to a preferred embodiment of the present invention. FIG.
FIG. 5 is a sectional view showing the structure of a liquid circulation pump in a structure of a small electric boiler having a liquid circulation pump in which operating parts are separately installed according to a preferred embodiment of the present invention. FIG.
FIG. 6 is an exploded perspective view showing main components of a liquid circulation pump in a structure of a small electric boiler having a liquid circulation pump in which operating parts are separately installed according to a preferred embodiment of the present invention. FIG.
FIG. 7 is a schematic view showing an operation process of a rotor and an impeller engagement portion in a starting operation of a liquid circulation pump in a structure of a small electric boiler having a liquid circulation pump in which operating parts are separately installed according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a compact electric boiler having a liquid circulation pump in which operating parts are separately installed according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

2, the present invention is roughly divided into a water tank cover 120, a water tank 130, a circular heater 140, a heater temperature controller 150, a liquid circulation pump 200, 200 ' (170).

First, the water tank cover 120 will be described. As shown in FIG. 2 or 4, the water tank cover 120 can be configured to discharge bubbles or water vapor generated in the water tank 130 on the upper side thereof, and to supply water to the air discharge pipe 121 Is formed.

As shown in FIG. 2 or FIG. 4, on the upper side of the air vent pipe 121, there is formed a vent hole 123 for discharging gas, So that the tube cap 122 is detachably coupled.

4, a plurality of through holes 124 for fastening means may be formed along the outer circumference of the water tub cover 120 so as to be detachably coupled to the water tub 130 .

4, four or more heater mounting portions 125 are installed on the water tank cover 120. The heater mounting portion 125 is provided with a heater A heater installation hole 126 formed by the heater 128 and formed in the installation hole to install the circular heater 140 and a sensor installation depression 129 to form a heater heat detection sensor 141 And a sensor mounting hole 127 in which the sensor mounting hole 127 is provided.

Therefore, if more than one set of the circular heater 140 and the heater heat sensing sensor 141 is required, the heater installation depression 128 formed in the heater installation part 125 The heater mounting hole 126 and the sensor mounting hole 127 are formed by merely drilling the sensor mounting recesses 129 to easily connect the circular heater 140 and the heater heat detecting sensor 141, As shown in Fig.

Next, the water tank 130 will be described.

The water tank 130 is a small structure that can be used for a long time without being connected to the water supply. The water storage tank 130 has a function as a water storage space and a heat exchange space for storing and heating water in the water tank 130, The water tub cover 120 is detachably coupled to the upper side as shown in Fig. 2 or Fig.

In this case, a flange 133 is formed along the upper outer periphery of the water tank 130 so as to detachably connect the water tank cover 120, as shown in FIG. 4, and the flange has a plurality of fastening means It is preferable that the through hole 134 is formed.

4, it is preferable that the mounting fastener 132 is formed on the rear side of the water tank 130 so that the water tank 130 can be easily installed in a case 110 to be described later .

Next, the circular heater 140 will be described. 2 or 4, when the water tub cover 120 and the water tank 130 are coupled to each other, the circular heater 140 is installed in the water tank cover 120 in a downward direction, And a circular heating part wound in two or more turns is formed with the concentric shaft in the horizontal direction.

Accordingly, it is possible to heat the water supply without increasing the temperature difference between the circular heater 140 and the water supply, as well as the area where the circular heater 140 is in contact with the water supply, So that the generation of steam bubbles and the noise that may occur when the water is boiled can be suppressed.

On the other hand, even if a bubble such as water vapor is generated during heating, the bubble is not attached to the circular heater 140 for a long time due to the shape provided with the concentric axis in the horizontal direction, The bubbles can be smoothly discharged upward and the heat generated in the circular heater 140 is efficiently transmitted to the water supply without being disturbed by the bubbles, so efficient heating of the water supply is possible .

As a result, the temperature difference between the circular heater 140 and the feedwater can be maintained in a relatively small range by immediate heat transfer, and the generation of bubbles due to heating boiling due to a high temperature difference can be greatly reduced.

2 or 4, a heater heat sensing sensor 141 may be installed on the circular heater 140 of the circular heater 140 in contact with the circular heater 140. As shown in FIG.

In this case, it is preferable that the heat sensing position of the heater heat sensing sensor 141 is positioned between the operation stop / water supply replenishing water level (b) and the normal operation water level (a) as shown in FIG.

With this structure, when the water level of the water supply is between the normal operation level (a) and the operation stop / water supply supplement level (b), the heater heat detection sensor 141 transmits heat to the surrounding water supply, The temperature of the circular heater 140 having a temperature similar to that of the circular heater 140 is sensed. When the water level drops below the operation stop / water supply replenishment level b, the temperature of the circular heater 140 It becomes possible to control the operation of the heater 140 or to stop the operation of the heater 140.

Next, the heater temperature controller 150 will be described. 2 or 3, the heater temperature controller 150 is connected to the circular heater 140 and the heater heat sensor 141 to control the temperature of the circular heater 140 .

The heater temperature controller 150 may further include a temperature controller 151 and a heater power switch 152 for setting a heating temperature.

In this case, it is preferable that the heater temperature regulator 150 is constituted by an electronic circuit so that the heater temperature regulator 150 is smoothly operated without fear of malfunction even when antifreeze or the like is mixed in the water for running the winter season.

On the other hand, as shown in FIG. 2 or FIG. 4, the upper side of the water tank 130 is positioned on the lowest water line c so that the water in the water tank 130 can not be drained And the lowest water level control discharge pipes 160 and 160` are provided in the lower water level control line so that water is always present from the lowest water level line c to the bottom surface of the water tank 130, It is possible for an initial evolution to occur without a separate evolutionary device from the fire that may be caused by defects in the construction device in the miniature electric boiler 100 with the pump.

As shown in FIG. 2, the lower end surfaces of the lowest level adjustment discharge pipes 160 and 160 'are preferably coupled to the upper end surfaces of the liquid circulation pumps 200 and 200', respectively, which will be described later.

Next, the liquid circulation pumps 200 and 200 'will be described. As shown in FIG. 2 or FIG. 5, the liquid circulation pumps 200 and 200 'are formed by an underwater key system having a very low residual ratio than a bearing type circulation pump in which bearings are formed even if the bearings are not formed, And is connected to one end of each of the low water level control discharge pipes 160 and 160 'to circulate hot water to the boiler pipe, and is installed in the structure directly below the water tank 130, And includes a first main body 210, a second main body 220, a rotor 230, an impeller 240, and a driving coil part 250 as shown in FIG. 6 .

Meanwhile, the liquid circulation pumps 200 and 200 'have the same shape and function, and will not be described separately.

First, the first main body 210 will be described. 5 or 6, the first main body 210 is formed with a receiving hole 211 at the center thereof, and the center of the receiving hole 211 is supported by two or more supporting rods 213 A first bearing mounting portion 212 is provided at the one side of the main body 201 and a water outlet hole 215 is formed at one side of the first bearing mounting portion 212. The cylindrical water circulating water chamber 215 connecting the water inlet hole 211 and the water outlet hole 215 214 are preferably formed.

Next, the second main body 220 will be described. 5 or 6, the second main body 220 is coupled to the first main body 210 and is formed with a partition wall 221 which is tightly coupled to the circulation water chamber 214 desirable.

On the other hand, as shown in FIG. 5 or 6, the partition 221 has a cylinder-shaped rotor mounting part 222 which is opened toward the circulation water chamber 214 at one side and closed at the other side And a second bearing mounting portion 223 is formed in the other side of the rotor mounting portion 222.

Next, the rotor 230 will be described. 5 or 6, the rotor 230 is installed and driven by a rotary shaft 231 provided between the first bearing mounting portion 212 and the second bearing mounting portion 223 It is possible.

In this case, between the both ends of the rotary shaft 231 and the first bearing mounting portion 212 and the second bearing mounting portion 223, an elastic material (for example, And a rotary shaft elastic bearing 237 made of, for example, a silicone material.

Meanwhile, the rotor 230 may form an operating part that mechanically operates together with the impeller 240.

In this case, the rotor 230 can be implemented in two embodiments, and it can be divided into an impeller integrated rotor and an impeller separated rotor.

First, the impeller integrated rotor includes a rotor main body 233 which is rotatably installed to pass through the rotation shaft 231, and a rotor 233 installed on the other side of the rotor main body 233, A plurality of permanent magnets 234 disposed on one side of the rotor main body 233 and arranged along the outer circumferential surface of the circulating water chamber 214 so as to circulate the circulating water in the circulating water chamber 214; It is preferable to include the blade 242.

The fact that the magnetic poles of the permanent magnets 234 are arranged axially symmetrically with respect to the rotation axis 231 means that the permanent magnets 234 are arranged in a single permanent magnet as shown in FIG. It means that the S pole of the permanent magnet 234 is arranged to be positioned on the lower side if the N pole is located on the upper side.

The configuration in which the magnetic poles of the permanent magnets 234 are axially symmetrically arranged about the rotation axis 231 can be implemented in various embodiments according to the number of the permanent magnets 234 or the number of poles thereof Do. The description of the structure in which the permanent magnet 234 is installed and arranged in order to constitute a motor that operates in rotation is a well-known technology in the technical field of the present invention, and a detailed description thereof will be omitted.

5 or FIG. 6, the impeller separating type rotor is constructed by separating the rotor into a rotor 230 and an impeller 240. The impeller separating type rotor has a structure in which the rotating shaft 231 is rotatably installed And a permanent magnet 234 disposed on the other side of the rotor body 233 and having magnetic poles arranged axially symmetrically about the rotation axis 231. [

In this case, on one side of the rotor main body 233 (represented by a leftward direction in FIG. 5 or 6), two or more equal parts are axially symmetrically arranged on the outer circumferential surface of the rotary shaft 231 in the longitudinal direction And a starting coupling part 235 on which the starting projection 236 is arranged.

5 or 6, the impeller 240 includes an impeller hollow shaft 241 into which the star coupling part 235 is inserted, and a plurality of impeller hollow shafts 241, And a driven protrusion 243 which is arranged in the longitudinal direction inside the impeller hollow shaft 241 and is formed so as to engage with the starting projection 236.

The starting and driving process of the detachable rotor of the impeller separated by the rotor 230 and the impeller 240 will be described in detail as follows.

In this case, it should be noted that the direction of rotation is described with reference to the clockwise direction in Fig. 7 showing the starting drive process.

First, in the initial stop state, since the impeller 240 maintains a certain degree of rotation due to the circulating water flowing to the rotor 230 in which the driving is stopped, the driven protrusion 243 is provided on the starting projection 236 And stops at the position where the rotation of the impeller 240 stops at the position as shown in FIG. 7 (a).

Then, when starting is started, the rotor 230 starts rotating. In this case, since the impeller 240, which causes a heavy load on the drive due to the circulating water, has not yet contacted the driven projection 243 as shown in FIG. 7 (b) It will remain in one state. Therefore, the rotor 230 starts to rotate smoothly in the initial startup phase (rotation angle of about 0 ° to 90 °) in which no load is applied to the start of the rotor 230 without receiving any external load.

7 (c), when the rotor 230 continues to rotate so that the starting projection 236 contacts the driven projection 243, the normal driving force is now passed through the initial starting phase 7 (d), the rotation of the rotator 230 and the impeller 233 are maintained by the rotation of the rotator 230, (240) rotate together.

Accordingly, it is possible to start the starting step (initial starting step) in which a large starting load is generated in the electric motor and a lot of initial electric power is required through the above process very efficiently.

A pipe 232 may be installed between the rotating shaft 231 and the rotor main body 233 as shown in FIG. 5 or 6 so that a gap between the rotating shaft 231 and the rotor main body 233 It is desirable to prevent abrasion that may occur in the rotation of the rotor and to enable smooth rotation.

In this case, the pipe 232 is preferably made of a brass material in consideration of wear prevention, friction reduction and corrosion resistance.

5, the pipe 232 is provided so as to have a predetermined gap g from the rotation shaft 231, and circulation water can flow through the gap g, It is possible to efficiently cool the heat generated by the friction generated between the pipe 232 and the rotating shaft 231, thereby being advantageous for continuous operation, and also for improving operating efficiency and prolonging the service life of the apparatus Do.

As described above, since the rotor 230 is installed in the rotor mounting part 222 communicated with the circulation water chamber 214 through which the circulating water passes, it can be generated in the rotor by electromagnetic induction or friction during operation. Since the heat can be cooled very efficiently through the circulating water, it is possible to improve operating efficiency and extend the service life of the apparatus as well as to continuous operation.

Next, the driving coil section 250 will be described. 5 or 6, the driving coil part 250 is provided for allowing the rotor 230 to rotate by applying a magnetic force periodically varying to the permanent magnet 234, It is preferable that two or more of the first and second main bodies 220 are installed along the outer circumferential surface of the rotor mounting portion 222 of the second main body 220.

In this case, the number and position of the driving coil part 250 may vary depending on the manner of driving the electric motor (for example, two-phase or three-phase in the case of AC, various driving methods of the brushless motor in the case of DC, It is possible to carry out the modification.

As described above, since the driving coil part 250, which is an electrical component, is located in a space completely separated from the circulating water chamber 114 through which the circulating water passes, there is no fear of leakage or short-circuit due to leakage of water It is possible.

In addition, across the boundary of the circulation space including the circulation water chamber 214 through which the circulating water passes, no mechanical components for driving are passed through (passing from the driving coil part 250 to the Only the magnetic force lines passing through the wall of the rotor installation part 222 and being transmitted to the rotor 230) can be very efficiently waterproofed.

2, the water circulated from the boiler piping is returned to the water tank 130, and the water in the water tank 130 is returned to the boiler pipe 130 as shown in FIG. It is preferable that the discharge pipes 260 and 260 'for discharge are further connected to each other.

 This is because, unlike the circulating pump of the general bearing type, the directionality is not determined due to the characteristics of the liquid circulation pump 200, 200 'formed by a structure in which no bearing is provided, It is possible for the user to manipulate the heading direction.

For example, as shown in FIG. 2, when one of the liquid circulation pumps 200 and 200 'is driven, one of the liquid circulation pumps 200 and 200' The drain pipe 260 serves as a drain, and the other one of the drain pipes 260 'connected to the other liquid circulation pump 200', which is not driven, can serve as an inlet.

On the other hand, when the other liquid circulating pump 200 'is driven, the other one of the inlet water pipes 260' connected to the other liquid circulating pump 200 ' One of the inlet water pipes 260 connected to the liquid circulation pump 200 does not function.

In addition, the liquid circulation pump 200, 200 'is composed of one liquid circulation pump 200 normally driven and another liquid circulation pump 200' driven in an emergency, (Not shown) such as a hospital or a nursing home by switching to another liquid circulation pump 200 'immediately when a defect occurs in the liquid circulation pump 200, and is particularly suitable for a facility that drives a continuous circulation pump It is possible to secure the continuity of use very much.

One of the liquid circulation pumps 200 and 200 'is connected to the liquid circulation pump 200 or 200' of the underwater key system in a facility where the circulation pump (not shown) is frequently turned on or off according to the use condition, And the other is a bearing type circulation pump, it is possible to manufacture and install a small electric boiler 100 having a liquid circulation pump in which the operating parts are separately installed.

Next, the circulating temperature regulating device 170 will be described. The circulation temperature regulator 170 is connected to the heater temperature regulator 150 to regulate the operation of the liquid circulation pumps 200 and 200` to regulate the heating temperature by regulating the amount of the heated water circulated .

The circulation temperature regulator 170 may further include a power switch 171, an outgoing switch 172 and a temperature setting switch 173 and a display 174 for displaying a set temperature or an operating state desirable.

1 or 2, the circulating temperature regulating device 170 may be installed separately from the front door 111 of the case 110, which will be described later.

2 or FIG. 3, a leakage detection circuit breaker (not shown) for detecting the leakage of the liquid circulation pumps 200 and 200 'and cutting off the power supply to the liquid circulation pumps 200 and 200' (180).

In this case, it is preferable that the leakage detecting circuit breaker 180 is connected to the power supplied to the heater temperature regulator 150 as shown in FIG.

As shown in FIG. 2 or 3, a water level sensor 190 may be installed on one side of the water tank 130 to sense the water level of the water in the water tank 130.

Next, the case 110 will be described. 1 or 2, the case 110 is preferably installed in the upper part of the inner side of the water tank 130, and the liquid circulation pumps 200 and 200 'are installed in the lower part of the inner side.

1 and 2, a front door 111 may be provided on one side of the case 110 to be openable and closable through a hinge 113. As shown in FIG.

As shown in FIG. 1 or FIG. 2, the front door 111 may further include a water level observation window 112 for observing the water level of the water tank 130.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Small electric boiler equipped with a liquid circulation pump in which operating parts are separately installed
110: Case
111: front door 112: water level observation window
113: Hinge
120: water tank cover 121: air outlet pipe
122: air vent tube stopper 123: through hole
124: through hole for fastening means 125: heater mounting portion
126: Heater mounting hole 127: Sensor mounting hole
128: heater installation depression part 129: sensor installation depression part
130: Water tank 131: Water tank heat sensor
132: fastening part for mounting 133: flange
134: Through hole for fastening means
140: Circular heater 141: Heater heat sensor
150: heater temperature controller 151: temperature controller
152: Heater power switch
160, 160`: Minimum water level control outlet pipe
170: circulation temperature regulator 171: power switch
172: outgoing switch 173: temperature setting switch
174: Display
180: Leakage detection circuit breaker
190: Water level sensor
200, 200`: liquid circulation pump
210:
211: Receiving hole 212: First bearing mounting part
213: Supporting base 214: Circulating water chamber
215: Outpost
220:
221: partition wall 222: rotor mounting portion
223: second bearing mounting portion 224: circuit mounting portion
230: rotor
231: rotation axis 232: pipe
233: rotor body 234: permanent magnet
235: Starting coupling portion 236: Starting projection
237: rotating shaft elastic bearing
240: Impeller
241: impeller hollow shaft 242: blade
243:
250: Driving coil part
260, 260`: inlet pipe

Claims (5)

A water tank cover 120 formed with an air drop pipe 121 on the upper side thereof;
A water tank 130 in which the water tank cover 120 is detachably coupled;
A circular heater 140 installed on the water tub cover 120 in a downward direction and having a concentric axis in the horizontal direction, the round heater being wound twice or more;
A heater heat detection sensor 141 disposed on the upper side of the circular heating unit;
A heater temperature controller 150 connected to the circular heater 140 and the heater thermal sensor 141;
A lower level adjustment discharge pipe 160, 160 'formed on the lower surface of the water tank 130 and installed at two positions such that the upper surface thereof is located at the lowest water line c;
A liquid circulation pump 200, 200 'installed directly below the water tank 130 and connected to the lowest water level control discharge pipe 160, 160', respectively;
A circulation temperature regulator 170 for regulating the operation of the liquid circulation pumps 200 and 200 'to adjust a heating temperature;
, Wherein:
At least one of the liquid circulation pumps 200 and 200 '
And a first bearing mounting portion 212 supported by two or more supporting rods 213 is provided at the center of the receiving hole 211 and a water discharging hole 215 A first body 210 having a cylindrical water circulation chamber 214 for connecting the water inlet 211 and the water outlet 215 to each other;
A partition wall 221 coupled to the circulation water chamber 214 and coupled to the first body 210 is formed and one side of the partition wall 221 is opened toward the circulation water chamber 214 And a second body 220 having a second bearing mounting portion 223 formed at the other side of the rotor mounting portion 222;
A rotor main body 233 provided with a rotating shaft 231 between the first bearing mounting portion 212 and the second bearing mounting portion 223 and rotatably installed on the rotating shaft 231, A permanent magnet 234 disposed on the other side of the rotor main body 233 and arranged with magnetic poles to be axially symmetrical about the rotation axis 231 as a central axis; And a starting coupling part (235) provided on the outer circumferential surface of the rotor (230), wherein a starting projection (236) is formed by two or more equally arranged axially symmetrically with respect to the rotational axis (231) ;
A plurality of blades 241 disposed along the outer circumferential surface of the impeller hollow shaft 241 for circulating and circulating the circulating water in the circulating water chamber 214 and an impeller hollow shaft 241 into which the starting coupling part 235 is inserted, And a driven protrusion (243) arranged in the longitudinal direction inside the impeller hollow shaft (241) so that the starting protrusion (236) can be engaged with the impeller (240).
At least two driving coil parts 250 installed along the outer circumferential surface of the rotor mounting part 222 of the second body 220;
The water circulation pump is connected to one surface of the liquid circulation pumps 200 and 200` to return the circulated water from the boiler piping to the water tank 130 and discharges the water in the water tank 130 to the boiler pipe 260, 260 ');
The electric boiler (100) according to claim 1 or 2, further comprising a liquid circulation pump (100).
The method according to claim 1,
The water tank cover 120 is provided with two or more heater mounting portions 125 each of which is provided with the circular heater 140. The heater mounting portion 125 is formed with a heater mounting concave portion 128, A sensor installation hole 127 formed by the heater installation hole 126 and the sensor installation depression 129 to be installed at the time of installation and the heater heat detection sensor 141 is installed, And a liquid circulation pump for separating and installing the operating parts.
The method according to claim 1,
A leakage detection circuit breaker 180 for detecting the leakage current of the liquid circulation pumps 200 and 200` and stopping the supply of power to the liquid circulation pumps 200 and 200` when a leakage current is generated; And a water level sensor (190) for sensing the water level. The small electric boiler (100) according to claim 1, wherein the water circulation pump
The method according to claim 1,
A case 110 in which the water tank 130 is installed in an upper part of the inside and the liquid circulation pumps 200 and 200 'are installed in an inner lower part;
A front door 111 installed on one side of the case 110 so as to be opened and closed via a hinge 113;
A water level observation window 112 formed on the front door 111 and capable of observing the water level of the water tank 130;
And an air vent pipe cap 122 detachably coupled to the air vent pipe 121 and having a through hole 123 formed in a side surface thereof,
The heater temperature controller 150 further includes a temperature controller 151 and a heater power switch 152. The circulating temperature controller 170 is connected to the power switch 171 and the outgoing switch 172, A setting switch 173 and a display 174,
The liquid circulation pump 200, 200 'includes a pipe 232 installed between the rotation shaft 231 and the rotor body 233;
And a rotary shaft elastic bearing 237 further provided between both ends of the rotary shaft 231 and between the first bearing mounting portion 212 and the second bearing mounting portion 223. [ A small electric boiler (100) having a liquid circulation pump (100) in which an operating part is installed separately.
The method according to claim 1,
The water tank cover 120 is provided with two or more heater mounting portions 125 each of which is provided with the circular heater 140. The heater mounting portion 125 is formed with a heater mounting concave portion 128, A sensor installation hole 127 formed by the heater installation hole 126 and the sensor installation depression 129 to be installed at the time of installation and the heater heat detection sensor 141 is installed, Respectively,
The water circulation pump is connected to one surface of the liquid circulation pumps 200 and 200` to return the circulated water from the boiler piping to the water tank 130 and discharges the water in the water tank 130 to the boiler pipe A leakage detection circuit breaker 180 for detecting the leakage current of the liquid circulation pumps 200 and 200` and cutting off the power supply to the liquid circulation pumps 200 and 200` when a leakage current is generated, Further comprising:
A case 110 in which the water tank 130 is installed at the upper part of the inside and the liquid circulation pump 200 and 200` is installed at the lower inner side of the case 110 and a hinge 113 is provided at one side of the case 110 A water level observation window 112 formed on the front door 111 and capable of observing the water level of the water tank 130; And an air vent pipe cap 122 detachably coupled to an upper side of the air vent pipe 123 and having a through hole 123 formed in a side surface thereof,
The heater temperature controller 150 further includes a temperature controller 151 and a heater power switch 152. The circulating temperature controller 170 is connected to the power switch 171 and the outgoing switch 172, A setting switch 173 and a display 174,
The liquid circulation pump 200 and 200 'includes a pipe 232 installed between the rotary shaft 231 and the rotor body 233 and a pipe 232 installed between both ends of the rotary shaft 231, Further comprising a rotating shaft elastic bearing (237) provided between the first bearing mounting portion (212) and the second bearing mounting portion (223). The small electric boiler 100).

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