KR100578820B1 - Boiler using impeller moving type pump - Google Patents

Abstract

The present invention relates to a boiler equipped with an impeller movable pump, wherein a burner is installed at one side of a combustion chamber formed in the boiler, and a hot water coil is installed at the periphery of the tube connected to the combustion chamber, and heating water is discharged at one side of the boiler. In a boiler in which a heating water outlet and a heating water return port through which the heating water discharged from the heating water outlet exits are returned through an internal pipe, a suction inlet is connected to the heating water outlet, and a first outlet is provided at the inlet of the heating pipe. The impeller movable pump is connected to, and one end is connected to the second outlet of the impeller movable pump, the other end is configured to include a heating water circulation pipe connected to the second heating return port is formed on one side of the boiler heating pipe during heating The heating water is circulated to the side for heating, and when the hot water is used, the heating water is self-directed through the heating water circulation pipe. By circulating to improve the heat exchange efficiency of the hot water coil supplied to the hot water valve to facilitate the use of hot water.

Boiler, Heating, Hot Water Supply, Impeller Mobile Pump

Description

Boiler with impeller movable pump {BOILER USING IMPELLER MOVING TYPE PUMP}

1 is a block diagram of a boiler according to the prior art.

2 is a block diagram of a boiler according to the present invention.

Figure 3 is a perspective view showing the configuration of the impeller movable pump provided in the present invention.

4 is a cross-sectional view of FIG.

5a and 5b is a cross-sectional view of the operating state of the impeller movable pump according to the present invention.

<Description of Symbols for Main Parts of Drawings>

One ; Boiler 1a; Heating water outlet

1b; Heating return port 1c; Direct line

1d; 2nd heating return port 2; burner

3; Combustion chamber 4; Relation

5; Hot water coil 8; Heating water circulation pipe

9; Heating piping P; Impeller movable pump

10,20; Pump casing 30; Blocking plate

40; Motor 50; Impeller

The present invention relates to a boiler, and more particularly, to form a heating water flow path through which cold water flows into the hot water coil to force circulation of the heating water during heat exchange with the heating water inside the heat exchanger, thereby improving heat exchange performance with the hot water coil. The present invention relates to a boiler equipped with an impeller movable pump.

1 is a configuration diagram of a boiler according to the prior art, and in the hot water mode in which heating water is not circulated through the internal pipe 9 in the related art, the heating water is circulated only by the temperature difference in the boiler 1. That is, the fueled burner (2) is ignited to heat the heating water around the combustion chamber (3) and the associated pipe (4), and the heating water is naturally convection by the temperature difference in the boiler (1) to the hot water coil (5). The heat exchange took place in a manner that transfers heat.

Therefore, when heating and hot water supply are performed at the same time, the heating water inside the boiler 1 flows out through the heating water outlet 1a mounted on the lower side of the boiler 1 by the operation of the circulation pump 6 and the internal piping Since the water is circulated while being returned to the heating water return port 1b through (9), the hot water coil 5 exchanges heat while being in contact with the forcedly circulated heating water, but when only hot water is supplied, the circulation pump 6 is operated. Since the heating water is circulated only by the natural convection caused by the temperature difference in the boiler 1, the heat exchange performance with the hot water coil 5 is deteriorated.

More specifically, when cold water is supplied to the hot water coil 5 through the cold water supply pipe 1c, and the burner 2 is ignited, the heat of combustion is initially around the combustion chamber 3 or the associated pipe 4 when the burner 2 is ignited. Because of the concentration of the heating water, the heat transfer to the hot water coil (5) is not made properly, the initial time of the hot water is discharged through the hot water valve (7) is long.

In addition, even if the heating water is naturally convection due to the temperature difference after heating for a predetermined time, there is a limit to the uniformity of the heating water temperature inside the boiler 1 due to the natural convection. Therefore, there is a problem in that the hot water is stagnant and heat is not heat-exchanged with the hot water coil 5. Therefore, in order to increase the heat exchange rate of the hot water coil 5, it is necessary to enlarge the heat transfer area by increasing the size or length of the hot water coil 5, which increases the size of the boiler, resulting in constraints on the installation space. It causes the problem of cost increase.

The object of the present invention devised in view of such a problem is to improve the heat absorption efficiency of the hot water coil by circulating the heating water by itself when using hot water to smoothly supply hot water.

Another object of the present invention is to improve the consumer's reliability by preventing the temperature difference between the hot water supplied by the hot water is uniformly heated due to the smooth circulation of the heating water.

The present invention for achieving the above object is provided with a burner is installed on one side of the combustion chamber formed in the boiler, a hot water coil is installed around the connection that is connected to the combustion chamber, and the heating water outlet for discharging the heating water on one side of the boiler; In the boiler in which a heating water return port is formed, the heating water flowing out of the heating water outlet is returned through an internal pipe, an inlet is connected to the heating water outlet, and an impeller connected to the inlet of the heating pipe. One end is connected to the movable pump and the second outlet of the impeller movable pump, and the other end is configured to include a heating water circulation pipe connected to the second heating return port formed on one side of the boiler.

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

Accompanying drawings Figure 2 is a block diagram of a boiler according to the present invention, Figure 3 is a perspective view showing the configuration of the impeller movable pump provided in the present invention, Figure 4 is a cross-sectional view of FIG.

As shown in FIG. 2, in the boiler according to the present invention, a burner 2 is installed at one side of the combustion chamber 3 formed at the lower part of the boiler 1, and is vertically connected to the upper side of the combustion chamber 3. ), A hot water coil (5) is wound around the tube (4), a heating water outlet (1a) for discharging the heating water is formed at the lower side of the boiler (1), and the inner pipe ( 9, a heating and receiving return port (1b) is returned, and a direct water line (1c) is connected to the lower end of the hot water coil (5), and a hot water valve (7) is connected to the upper end.

An impeller movable pump P is installed at the inlet side of the heating pipe 9 connected to the heating water outlet 1a, and the second heating water return port 1d formed at the upper end side of the boiler 1 is installed at the pump P. Heating water circulation pipe (8) connected to the is installed.

As shown in FIGS. 3 and 4, the impeller movable pump P has a suction port 12 connected to an egg waterproof outlet 1a at the center thereof, and a first side connected to the heating pipe 9 at one side thereof. A first pump casing 10 having an outlet 14 formed therein, and a second pump casing 20 having a second outlet 22 connected to the heating water circulation pipe 8 separated by a barrier plate 30 at an interface thereof. It is. The motor 40 is mounted on the other side of the second pump casing 20, and the impeller 50 is screwed to the rotation shaft 42 of the motor 40.

A threaded portion 42a is formed on the outer circumferential surface of the rotary shaft 42, and a threaded portion 52a engaged with the threaded portion 42a of the rotary shaft on the inner circumferential surface of the shaft hole 52 of the impeller 50 into which the rotary shaft 42 is fitted. Is formed, and the region L in which the screw groove 42a of the rotary shaft 42 is formed is preferably twice the impeller thickness D, but may be more than that. Therefore, the rotary shaft 42 installed through the blocking plate 30 has a screw groove 42a formed on the outer circumferential surface of the rotary shaft 42 by an area corresponding to the thickness D of the impeller.

A through hole 32 is formed in the center of the blocking plate 30, and the blocking plate 30 installed between the first pump casing 10 and the second pump casing 20 has an O-ring for preventing water leakage. (60) is interposed.

The boiler equipped with the impeller movable pump according to the present invention configured as described above can selectively circulate the heating water through the heating pipe 9 and the heating water circulation pipe 8 by the impeller movable pump P.

That is, during normal heating, the heating water flowing out through the heating water outlet 1a by the driving of the pump P flows into the inlet 12 of the pump P and is discharged to the first outlet 14 to discharge the heating pipe ( 9) circulates and heats the water and returns to the boiler 1 through the heating water return port 1b, and when the hot water is supplied, the heating water flowing out through the heating water outlet 1a is inlet 12 of the pump P. ) Is heated to circulate the heating water through the second outlet 22 to the heating water circulation pipe (8) and the heating water is returned through the second heating water return port (1d) is heated by circulating the heating water inside the boiler (1) The hot water coil 5 is smoothly heated by water so that the cold water supplied through the direct water line 1c is heat-exchanged while passing through the hot water coil 5 and discharged to the hot water valve 7.

As described above, when the impeller movable pump P changes the direction of the heating water circulated, for example, when the motor 40 is driven and the rotary shaft 42 rotates clockwise, as shown in FIG. 5A, Impeller 50 is rotated in the clockwise direction in the drawing is moved to the end side of the rotary shaft 42 riding the screw groove (42a) of the rotary shaft. At this time, when the impeller 50 rotates clockwise about 1 to 2 turns, since the impeller 50 reaches the end of the rotation shaft 42, the impeller 50 rotates at the same time as the driving of the motor 40. In the drawing of 42, it is moved to the left end side. In this way, when it reaches the end side of the rotary shaft 42 is rotated in the state moved to the internal space of the first pump casing 10, which is the left space of the blocking plate 30 in the drawing in the heating water outlet 1a The discharged heating water flows through the suction port 12 and is discharged through the first discharge port 14 formed at one side of the first pump casing 10 by the centrifugal force of the impeller 50, thereby circulating to the heating pipe 9.

In addition, as shown in FIG. 5B, when the motor 40 rotates counterclockwise, the impeller 50 positioned on the left end side of the rotary shaft 42 rotates counterclockwise while being spirally rotated in the counterclockwise direction. It is moved to the right side in the drawing by the 42a to the inner space of the second pump casing 20 which is the right space of the blocking plate 30. As the impeller 50 is moved to the right end of the spiral groove 42a of the rotary shaft in the drawing as described above, since the impeller 50 is continuously rotated counterclockwise, the heating water flowing through the inlet 12 is zero. 2 is discharged through the second outlet 22 formed on one side of the pump casing 20 is circulated through the heating water circulation pipe 8 is returned to the second heating return port (1d).

Therefore, the impeller 50 screwed to the rotary shaft 42 rides through the spiral groove 42a according to the rotational direction of the motor 50, so that the inside of the first pump casing 10 or the second pump casing 20 is fixed. The impeller 50 is moved to the space and is moved to one side end on the spiral groove 42a of the rotary shaft 42 and then continuously rotated so that the flow direction of the water flowing through the suction port 12 is first discharge port 14. Alternatively, by changing to the second outlet 22, the circulation path of the heating water is switched to the heating pipe 9 or the heating water circulation pipe 8.

As described above, the boiler equipped with an impeller movable pump according to the present invention is to circulate the heating water to the heating pipe side when heating, and to perform heating, when the hot water is used to circulate the heating water through the heating water circulation pipe itself By improving the heat exchange efficiency of the hot water coil supplied to the hot water valve, it is possible to smoothly use hot water.

As described above, the present invention implements a heat exchange action of the hot water coil in addition to the heating action by performing a pumping operation of the heating water in one direction of the pump, thereby providing a uniform supply of hot water, thereby improving consumer reliability. will be.

Claims (2)

A burner is installed at one side of the combustion chamber, a hot water coil is installed at the periphery connected to the combustion chamber, and a heating water outlet and a heating water return port are formed at one side, and an inlet is connected to the heating water outlet and an inlet of the heating pipe is provided. In the boiler which is provided with a pump connected to the first outlet, and the heating water circulation pipe is connected to the second outlet of the pump, one end is connected to the second heating return port, The pump is A pump casing formed at an upper end thereof with a suction port communicating with the heating water outlet, and having a first space portion and a second space portion formed at a side thereof with a first discharge port and a second discharge port, respectively; A blocking plate installed inside the pump casing to separate the first space portion and the second space portion and have a hole formed in the center thereof; A rotary shaft extending from the motor provided on the opposite side of the suction port from the motor in the pump casing to the suction port and passing through the central through hole of the blocking plate and having a threaded portion at an outer periphery of the end; and engaging with the screw of the rotary shaft. A screw portion is formed on the inner circumferential surface of the shaft hole and is installed to be movable to the first space portion or the second space portion of the pump casing in accordance with the rotational direction of the motor on the screw portion formed on the rotary shaft to supply water to the first or second outlet. Impeller for discharging; Boiler with an impeller movable pump, characterized in that configured including. delete

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