KR200202433Y1 - Air separator of cooling and heating system - Google Patents

Abstract

The present invention is an air separation device for separating air from the heating water circulated along the piping pipe of the cooling, heating system, the air separation action by forming a plurality of holes and guide wings in the air separator installed in the cylinder It relates to an air separation device of a cooling and heating system to facilitate the heating.

The present invention is to provide an air separation device provided with an air vent in the middle of the piping pipe (4) in which the heating water of the cooling and heating system is circulated, the plurality of cylinders in the cylinder (2) of the air separation device (1) Built-in and installed a plurality of air separators made of rubber, synthetic resin or metal having a study formed to separate the air of the heating port introduced into the air separator.

Description

Air separator of cooling and heating system {Air separator of cooling and heating system}

The present invention is an air separation device for separating air from the heating water circulated along the piping pipe of the cooling and heating system, and a plurality of through holes and guide wings to the rubber, synthetic resin or metal air separator installed in the cylinder The present invention relates to an air separation device of a cooling and heating system that is formed to promote the air separation action.

In general, the room temperature of houses, factories, and large buildings is heated and cooled by heating the fluid, such as water, that flows along the piping system of the cooling and heating system. The indoor temperature is controlled by using heat or cold air transferred from the pipe to the pipe pipe. The cooling and heating system can achieve the required heating effect only when the circulation of the heating water flowing along the piping system is continuously performed. have.

However, in the case of using the heating water circulating along the piping system as a medium, the dissolved oxygen and air included in the heating water are separated from the heating water when the external temperature and pressure change, so that the heating water is separated from the heating water. The separated air is transformed into bubbles like small bubbles and circulates with the heating water in this state, which not only impedes the flow of the heating water, but also the air is a major cause of corrosion and contamination of the pipe.

Therefore, it is preferable that all oxygen and air separated from the heating water circulated along the pipe pipe be discharged to the atmosphere so as not to remain in the pipe pipe.

On the other hand, conventionally, the oxygen and air separated from the heating water has a small specific gravity, the air is collected in the upper side, paying attention to the installation of a separate air separator (Air vent) is installed in the middle of the pipe pipe Several devices have been proposed to separate air dissolved in heating water by the air separator and to release the separated air into the atmosphere.

As an example, conventionally, as shown in FIG. 20, an inlet 110 and an outlet 120 through which the heating water enters and exits are provided on an outer circumferential surface of the air separation device 100, which is in the form of a jacket into which the heating water is introduced. The inlet 120 is provided with a pressure drop pipe 130 extending inwardly is formed in the outer peripheral surface of the pressure drop pipe 130 to form a plurality of holes 140, the upper side of the air separation device 100 The air vent 200 for collecting the air separated from the heating water is installed.

The air vent 200 is a pin 230 is fixed to the bottom of the lid 210, the air outlet 220 is formed as shown in Figure 21, one side end of the link 230 is installed, the up and down movement, the link 230 is lifted and lowered by the buckle 250 is built in the body 240 and was configured to open or close the air outlet 220.

The conventional air separation apparatus 100 configured as described above is circulated to the outlet 120 through the hole 140 of the pressure drop pipe 130 after the heating water flows into the inlet 110, and at this time, the pressure drop pipe 130 The heating water passing through) is caused to separate dissolved oxygen and air from the heating water due to a pressure difference before and after passing through the relatively small hole 140, and the air separated from the heating water is separated from other Combining with the air to form one small bubble (air bubbles) is floated to the upper side of the air separation device 100 and then introduced into the air vent 200.

Air separated from the heating water by the air separation device 100 and introduced into the air vent 200 is changed in pressure in the air vent 200, that is, if the pressure of the air is lower than the pressure of the heating water, the ball 250 is linked. Lifting the 230 to the upper side to block the air outlet 220 so that the air is not released to the air remains in the air vent 200, on the contrary, when the amount of air introduced into the air vent 200 gradually increases the air By the pressure of the buoy 250 with the heating water is gradually moved to the lower side at this time, the link 230 is also lowered with the air outlet 220 is gradually opened by the air is discharged to the atmosphere through the air outlet 220. .

When the air pressure in the air vent 200 drops as the air escapes to the atmosphere, the float 250 lifts the link 250 again to block the air discharged from the heating water through the repeated operation of blocking the air outlet 220. It is intended to be released into the atmosphere.

However, such a conventional one is due to the pressure difference between the pressure of the fluid passing through the hole 140 of the pressure drop pipe 130 and the pressure of the heating water flowing into the inlet 110, the air inlet 110 is simply heated. Not only does not separate the air from the water, but also the hole 140 of the pressure drop pipe 130 is too small, there was a problem that the flow of the heating water is sharply lowered.

In addition, the air vent 200 is separated from the air separation device 100 by the operation of the buckle 250 and the link 230 which is raised and lowered in proportion to the amount (pressure) of air collected in the body 240. It is designed to open and close the air outlet 220, the structure is complicated, the link 230 is a point of contact only a limited portion of the air outlet 220 is easily damaged, so the service life is short, the body 240 and the lid 210 is made of a metal casting, there was a problem such as a lot of weight, but also takes a lot of manufacturing costs.

The present invention has been made in view of the above-mentioned problems in the related art, and improves the air separation effect of the heating water by improving the structure of the air separation device that separates the air from the heating water circulated along the piping pipe of the cooling and heating system. It is intended to provide an air separation device of a cooling and heating system that can greatly increase and smoothly discharge the separated air to the atmosphere, which will be described in detail below with reference to the accompanying drawings and embodiments. .

1 is a block diagram showing an air separation apparatus of the present invention

2 to 19 is a perspective view showing the air separator of the present invention embodiment

20 and 21 is a configuration diagram showing a conventional air separation device

<Explanation of symbols for main parts of the drawings >>

1: air separator

2: cylinder

3: air separator

4: plumbing pipe

In the case where the air separator is provided with an air vent in the middle of the piping pipe 4 through which the heating water of the cooling and heating system is circulated, rubber, synthetic resin or the like installed in the cylinder 2 of the air separator 1 It is configured to install a plurality of metal air separator (3) built-in.

The air separator 3 is provided with a guide blade 52 punched out at regular intervals by a press on one side of the metal plate 5 in the form of an elongated band, as shown in Figure 2, and the metal plate 5 unit It can be configured by cutting in length so that each guide blade 52 is rounded so as to be located inside, and formed in a ring shape such as one ring.

In addition, as shown in FIG. 3, the air separator 3 may be formed in a spherical shape in which the upper and lower centers of the metal plate 51 are cut to form a through hole 6 therebetween.

FIG. 4 shows another embodiment of the air separator 3, and forms guide vanes 7 punched at regular intervals by a press on one side of the metal plate 52 having a long band shape, and the metal plate 52 By cutting to a predetermined unit length can be configured to form a ring-like ring-like rolls so that each guide blade (7) is located inside.

5 and 6 are formed in the cylindrical shape of the air separator 3, the one end is cut to form the incisions (8) (81) and in the center two or three through holes (61, 62) It is formed.

FIG. 7 is a configuration in which the slit portion 9 is formed on the metal plate 53 forming the air separator 3, and the slit portions 9 are bent in a circular state to form the through portion 63. FIGS. 10 is formed by forming the air separator 31 into a mesh shape in which a plurality of through holes are formed.

In addition, Figure 11 is formed by forming the air separator 32 in a cylindrical shape and a plurality of holes 10 in the outer periphery thereof, Figure 12 is a metal plate 54 is bent to form an air separator in the shape of several cups FIG. 13 is configured to overlap the plurality of bent metal plates 55 with the air separator.

In addition, the embodiment as shown in Figs. 14 to 19 indicates that the plurality of rings 12 are formed in an annular shape on the rim 11 to form an air separator.

The present invention configured as described above forms a plurality of through-holes in the air separator (3) formed of the synthetic resin or metal, and the air separator is randomly administered to the inside of the cylinder (2) of the air-distributing device (1). When the heating water circulated along the pipe 4 passes through the air separator 3 in an independent form in a ring shape, the flow of the heating water is changed to induce air to be separated from the heating water.

Then, the air separated by the air separator 1 is to be discharged to the outside through the air vent.

In addition, the present invention as described above, the heating water flowing into the air separation device 1 along the pipe pipe 4 is in contact with the air separator (3) is administered and installed inside the cylinder (2), the air The heating water in contact with the separator 3 travels through these air separators and vice versa.

The heating water introduced into the air separator 1 flows into each through hole and hole formed in the air separators, and the heating water passing through the through hole and the hole flows to the other side by another guide. As the heating water alternately contacts and flows on both sides of the metal plate, the dissolved oxygen and air are separated from the heating water due to the change in the flow rate of the heating water, that is, the pressure difference before and after, and thus the air separated from the heating water It is combined with other air scattered on each other to form one small bubble (air bubble) and flows into the air vent installed on the upper side of the air separator 1.

The air separated from the heating water by the air separator 1 and introduced into the air vent discharges the separated air to the atmosphere according to the pressure change in the air vent.

As described above, the present invention prevents corrosion in the pipe by removing the dissolved oxygen dissolved in the fluid flowing in the piping of the cooling / heating piping system by forming an artificial pressure change, and removes the dissolved oxygen in the fluid, thereby ensuring the safety of the pump operation. In addition, it prevents the occurrence of noise and vibration, increases heat exchange capacity, and removes foreign substances contained in the fluid.

In addition, although it is described that the air separators are made of metal, the present invention is not limited thereto, and the weight of the air separators may be reduced by molding them by injection molding using synthetic resin materials such as rubber or engineering plastics. It is characterized by the fact that it can facilitate the flow and circulation of the fluid by smoothly.

Claims (8)

In the air separation device of the cooling and heating system having a pipe connected to both sides of the heating pipe flowing heating water, and an air separator so as to separate the dissolved oxygen and air of the heating water introduced into the cylinder, The air separator 3 is characterized in that the upper and lower sides are opened and the upper and lower sides of the spherical metal plate 51 formed with a plurality of through-holes 6 are formed in close contact with the outer circumferential surface of the upper and lower sides thereof. Air separation device for cooling and heating system. In the air separation device of the cooling and heating system provided with a tube connected to both sides of the heating pipe flowing the heating water, and an air separator to separate the dissolved oxygen and air of the heating water introduced into the cylinder, The air separator 3 has cutouts 8 and 81 formed at one end of the hollow park barrel having a corrugated outer circumferential surface, and one or two membranes are formed from the center side to the inner surface side of the hollow tube. Air separation device for a cooling and heating system, characterized in that the two through (61, 62) provided. In the air separation device of the cooling and heating system having a pipe connected to both sides of the heating pipe flowing heating water, and an air separator so as to separate the dissolved oxygen and air of the heating water introduced into the cylinder, The air separator 3 is provided with a slit portion 9 which alternately protrudes up and down by providing a plurality of incision lines from one side to the other side in the rectangular metal plate 53 so as to approach one side and the other side. The air separation unit of the cooling, heating system, characterized in that the through-hole 63 is formed between. In the air separation device of the cooling and heating system having a pipe connected to both sides of the heating pipe flowing heating water, and an air separator so as to separate the dissolved oxygen and air of the heating water introduced into the cylinder, The air separator (31) is provided to cross each other air separation apparatus of the cooling, heating system, characterized in that provided in the form of a mesh formed with a plurality of holes therebetween. In the air separation device of the cooling and heating system having a pipe connected to both sides of the heating pipe flowing heating water, and an air separator so as to separate the dissolved oxygen and air of the heating water introduced into the cylinder, The air separator 32 is a cylindrical plate formed by bending a plate-like air separation device, characterized in that a plurality of holes (10) penetrating through the inside and the outside on the wall. In the air separation device of the cooling and heating system having a pipe connected to both sides of the heating pipe flowing heating water, and an air separator so as to separate the dissolved oxygen and air of the heating water introduced into the cylinder, The air separator (3) is an air separation device of a cooling and heating system, characterized in that a plurality of cups are formed to protrude so as to be alternate with each other up and down the circular metal plate (54). In the air separation device of the cooling and heating system having a pipe connected to both sides of the heating pipe flowing heating water, and an air separator so as to separate the dissolved oxygen and air of the heating water introduced into the cylinder, The air separator (3) is an air separation apparatus of a cooling and heating system, characterized in that the connection formed overlapping the metal plate (55) bent a plurality of times to achieve a waveform. In the air separation device of the cooling and heating system having a pipe connected to both sides of the heating pipe flowing heating water, and an air separator so as to separate the dissolved oxygen and air of the heating water introduced into the cylinder, The air separator (3) is a hollow circular air separation device of the cooling, heating system, characterized in that the ring 11 is formed by connecting the edge 11 by forming a plurality of rings (12) in the inner ring 11 provided in the upper and lower sides .