KR100289871B1 - Separation device - Google Patents

Abstract

The present invention relates to a radiator for separating and removing the air contained in the heating water or hot water supply by installing in a boiler or hot water pipe.

The present invention is sufficient to separate the air while being transported to rotate in a vertical direction and spiral by a radiator means having a transport flow path for vertically rising the heating water or hot water flowed into the inlet and a transport flow path that rotates in a spiral direction. , The separated air rises to be automatically discharged by the air discharge control unit for opening and closing the air discharge hole.

In addition, when there is no inflow of heating water or hot water to the inlet, or the inflow is insufficient, the water level inside the body is lowered to detect and control the operation of the pump, thereby circulating and supplying only the heating water or hot water with sufficient air separation. Therefore, it is characterized by providing a radiator for maximizing the service life of the machine and the safety of use by preventing the noise caused by the noise and damage of the pump, overheating due to noise or boiling during heat exchange.

Description

Separation device

The present invention relates to a radiator for separating and removing the air contained in the heating water or hot water supply by installing in a boiler or a hot water pipe, and more specifically, the transfer passage for separating the air of the heating water or hot water It automatically separates and automatically discharges the air and controls the pump operation such as boiler or hot water pipe according to the presence or absence of heating water or hot water supply that separates the air, thereby providing excellent service life and safety of the machine. It relates to a water separator.

In general, a water separator is installed between a boiler or a hot water pipe between a heating or hot water return port and a pump to separate and remove the air contained in the heating water or hot water fed by a pump.

When the heating water or hot water is transferred to the air containing state, the noise of the pump and the service life of the pump are shortened, and the heat generated by the air contained in the heating water or the hot water during heat exchange causes noise and boiling. Cause.

Conventional water separator for separating and removing the air contained in the heating water or hot water to solve the above problems is one side of the body 60 to form the inner space 61 as shown in FIG. An inlet 62 is formed in the upper part and a supply port 63 is connected to the pump (not shown) of the boiler or hot water pipe to a lower portion thereof, and an air outlet 64 is formed at the upper end of the body 60. ),

On the inner space 61 of the body 60 is formed of a structure in which the rod 65 is protruded in the longitudinal direction of the center and assembled with a radiator separation tube 68 having a plurality of through holes 69 to the outside.

This water separator separates the heating water or hot water containing air in the process of circulating in the boiler or hot water pipe into the inlet (62) to hit the side of the inner space portion 61 of the body 60 while heating water or Remove the air contained in the hot water,

The heating water or hot water continuously separates the air while passing through the through hole 69 of the water separation tube 68 or hitting the rod 65 in the center thereof, and the separated air rises to raise the air outlet 64. To be discharged.

In this way, the heating water or hot water in the air separated state is supplied through the supply port 63 by the operation of a pump (not shown).

However, in the water separator, both the inlet port 62 into which the heating water or the hot water is introduced and the supply port 63 which are supplied are adjacent to the side wall of the body 60 and are simply connected to the inner space 61. The conveyance flow path from 62 to the supply port 63 is formed short. That is, since the heating water or the hot water flowing into the inlet 62 quickly flows out through the supply port 63, the large bubbles contained in the heating water or the hot water can be separated to some extent, but in the case of the small bubbles, they are sufficiently separated. As described above, the noise generated by the pump and the service life of the pump may be shortened as well as the problem of overheating due to noise generated during the heat exchange and boiling.

In addition, since the above water separation apparatus forms a short flow path between the inlet 62 and the supply port 63, when there is no inflow of heating water or hot water through the inlet 62, or the inflow is insufficient. There is no separate means for detecting or controlling this, causing a problem that a large amount of air is supplied through the supply port (63).

The present invention has been made to solve the problems of the prior art as described above, to sufficiently separate the air contained in the heating water or hot water supply, such as boilers or hot water pipes, the separated air is automatically discharged to effectively remove the water separation The purpose is to achieve.

In addition, the present invention is to control the operation of the pump, such as a boiler or hot water pipes when there is no inflow of the heating water or hot water supply or the inflow is insufficient, the object is to block the supply of heating water or hot water supply including air.

In addition, the present invention is to minimize the air containing the heating water or hot water is sucked by the pump to reduce the occurrence of the failure of the overall machine is to provide a long life as well as excellent safety in use.

In order to achieve the above object, in the present invention, the feed water flowing into the inlet and the hot water are vertically moved by the radiating means having a transfer flow path that vertically rises and descends in a spiral direction while being transported to rotate in the vertical direction and the spiral direction. Enough air,

The separated air rises to be automatically discharged by the air discharge control unit for opening and closing the air discharge hole.

In addition, it is possible to control the operation of the pump on and off by detecting when the water level in the body is low because there is no inflow of the heating water or hot water to the inlet or the inflow is insufficient.

1 is a cross-sectional view showing a conventional water separator;

2 is a cross-sectional configuration of the present invention,

3 is an exploded perspective view of the main part of the present invention;

4 and 5 is an operating state of the present invention.

<Description of the code | symbol about the principal part of drawing>

10; Body 12; Inlet 14; Supply port

15; Upper cap 20; Air nozzle 22; Air vent

30; Water separation means 31; Tube body 32,36; Conveying line

33; Distribution home 36; Rotary guide vane 38; Plate

40; Air discharge control unit 41; Buoy 45; Valve

55; Water level sensing rod

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

That is, according to the present invention, as shown in FIGS. 2 to 3, the inlet 12 and the supply port 14 are formed at the lower end and one side lower portion of the body 10, and the air discharge hole 22 is formed thereon. The upper cap 15 having an air nozzle 20 to be fixed and installed, while the heating water or hot water supplied through the inlet 12 of the lower portion of the body 10 is vertically raised and lowered again. The air separated by the water separation means 30 is automatically discharged while opening and closing the air discharge hole 22 of the air nozzle 20 according to the water separation means 30 and the water level in the body 10 separating the air. It is made to include an air discharge control unit 40.

The radiator separation means 30 is a vertical conveying passage 32 communicating with the inlet 12 of the body 10, a pipe part 31 and the pipe part 31 to form an outlet groove 33 on the upper side thereof ( A plate 38 having a plurality of through-holes 39 at the upper end of the 31 and a rotation to form a helical feed flow path 36 to match the inner diameter of the body 10 on the outer periphery of the tubular part 31. The guide vanes 35 are integrally formed.

The air discharge control unit 40 forms a buoy 41 on one side, the assembly hole 44 in the center, the control side 42 and the assembly hole of the control side 42 protruding the hinge projection 43 on the other side Assembled to (44) is the opening and closing valve 45 and the hinge protrusion 43 of the control valve 42 for opening and closing the air discharge hole 22 of the air nozzle 20 is supported coupled to move up and down, rotatable The supporting side 50 which formed the hinge hole 52 is comprised.

At this time, the upper cap 15 detects the level of heating water or hot water in the body 10, and when the water level is lower than a predetermined value, the operation of the pump (not shown) connected through the supply port 14 is controlled on and off. The water level detecting rod 55 is provided.

Reference numeral 5 is a fixing bolt, 7 is an airtight ring, 11 is a support step for assembling the tubular part 31, and 26 is a fixing ring for fixing the air nozzle 20 to the upper cap 15.

Next, look at the operation and operation relationship of the present invention configured as described above.

First, the inlet 12 formed at the lower end of the body 10 is connected to supply the heating water or hot water circulated in the boiler or hot water pipes, etc., and the supply port 14 formed at one lower portion of the water supply or hot water Install to connect to a circulating pump (not shown).

When the heating water or the hot water containing the air is introduced through the inlet 12 of the body 10 in the installed state as described above, the heating water or the hot water is the transfer pipe 32 of the water separation means 30 connected to the inlet 12. Rise in the vertical direction.

In this way, the heating water or the hot water flowing vertically along the conveying pipe 32 is guided into the body 10 through the outflow groove 33 while hitting the upper portion 38 of the upper portion, which is, in turn, of the rider separation means 30. It descends in a spiral direction along the conveyance pipe 36 formed spirally by the rotary guide vane 35.

At this time, the heating water or the hot water is hitting the diaphragm 38 to perform a primary separation process, which is again passed through the spiral feed pipe 36 has a rotational force and the air is driven to the center by this rotational force Secondary separation process is performed to remove even small air.

As such, the heating water or the hot water of which the air is sufficiently separated by the water separation means 30 is supplied through the supply port 14 by the suction force of the pump (not shown).

On the other hand, the heating water or the supply water initially supplied into the body 10 raises the mouth 41 of the air discharge control unit 40 as the water level gradually increases, and accordingly the hinge of the control valve 42. The 43 is guided to the hinge hole 52 of the support side 50, and ascending and rotating, the opening / closing valve 45 blocks the air discharge hole 22 of the air nozzle 20.

In this state, as described above, the air separated by the water separation means 30 gradually rises through the through hole 39 of the diaphragm 38 to form an air layer.

The air layer is such that the air is separated continuously rises the pressure rises to gradually lower the water level.

In this way, when the water level in the body 10 is lowered again, the ball 41 is gradually lowered, and as the control valve 42 descends, the on / off valve 45 opens the air discharge hole 22 of the air nozzle 20. Air is discharged through the air discharge hole (22).

As such, when the air in the body 10 is discharged, the water level in the body 10 rises again to automatically perform the operation of blocking the air discharge hole 22 as described above, and always maintains a constant water level inside the body 10. It is done.

In this way, the inside of the body 10 always maintains a constant amount of heating water or hot water, so there is no problem in the operation of the pump connected thereto, thereby enabling normal operation of the boiler.

On the other hand, if the heating water or hot water is not introduced through the inlet 12 or the amount of the inlet is suddenly insufficient, the water level in the body 10 is sharply lowered, which is detected by the water level sensing rod 55 By stopping the operation of the pump (not shown) to prevent the damage to the pump or boiler by blocking the supply of heating water or hot water.

In such a state, when the water level is increased again by supplying the heating water or the hot water smoothly, the water level detecting rod 55 detects this to resume operation of the pump.

In addition, the present invention is a structure assembled by fastening the body 10 and the upper cap 15 with a fixing bolt (5) to facilitate its disassembly and assembly can be effectively cleaned inside.

As described in detail above, the present invention effectively separates the air contained in the heating water or the hot water supply and automatically discharges the separated air while rotating or descending the heating water or the hot water supply of the boiler or the hot water pipe, and the like.

In addition, when there is no or insufficient inflow of the heating water or hot water, the operation of the pump is controlled on and off. Thus, only the heating water or hot water with sufficient separation of air is supplied to the boiler or the hot water pipe to generate noise and damage to the pump. In addition, it prevents the problem of overheating due to noise or boiling during heat exchange, thereby providing an excellent service life and safety of the machine.

In addition, the device of the present invention has a structure that can be easily disassembled, so that the internal cleaning can be performed simply, so that the service life can be extended.

Claims (3)

In the boiler or hot water pipeline, the heating water or hot water is introduced into the inlet on the body 10 to separate the air and supply it to the supply port, but the separated air is discharged to the outside through the air discharge hole. The body 10 has an inlet 12 and an outlet 14 formed at the lower end and one lower side, respectively, and an upper cap 15 having an air nozzle 20 having an air discharge hole 22 formed thereon. Assemble and install Inside the body 10, a vertical transfer passage 32 communicating with the inlet 12 and a pipe part 31 having an outlet groove 33 formed on one side thereof are provided, and the pipe part 31 is provided. It has a plate 38 having a plurality of through-holes 39 at the top and a rotary guide vane 35 to form a spiral conveying flow path 36 on the outer periphery, heating water or hot water flowing into the inlet 12 While separating the air while vertically rising and rotating downward along the transfer flow paths 32 and 36, while opening and adjusting the air discharge hole 22 of the air nozzle 20 according to the water level in the body 10 to the upper portion thereof. Water separation device characterized in that it comprises an air discharge control unit 40 for automatically discharging the air separated from the heating water or hot water. The method of claim 1, The air discharge control unit 40 forms a buoy 41 on one side, the assembly hole 44 in the center, the control side 42 and the assembly hole of the control side 42 protruding the hinge projection 43 on the other side Assembled to (44) is the opening and closing valve 45 and the hinge protrusion 43 of the control valve 42 for opening and closing the air discharge hole 22 of the air nozzle 20 is supported coupled to move up and down, rotatable Radix separator, characterized in that provided with a support side 50 is formed a hinge hole (52). The method of claim 1, The water level sensing rod 55 detects the level of heating water or hot water in the body 10 and controls the operation of a pump (not shown) connected through the supply port 14 when the water level is below a predetermined value. Separating device, characterized in that made by installing).