KR200182139Y1 - Steam injection humidifier with dual vacuum separator - Google Patents

Abstract

The present invention relates to a steam injection humidifier of an air conditioner that purifies the air introduced from the outside and then sprays steam in the duct of the blower to supply and circulate purified air and steam to each chamber.

A double pipe manifold (2) on one side circulates the steam supplied from the boiler to surround the injection pipe (3), which is piped into the inside, and maintains temperature, and the manifold (2) The condensed water is filtered through the internal separation plate (5) of the pipe pipe, and the pure water is supplied only to inject steam into the duct through the plurality of injection nozzles (4) mounted on the injection pipe (3). A separator (10), and a vacuum tank (100) which surrounds the outside of the separator (10) and is mounted by welding to maintain a vacuum state so as to eliminate the loss of steam heat;

The vacuum tank 100 forms a circular recess in the lower portion of the separator 10, and the hole formed in the center of the recess is mounted to match the outer diameter of the condensate discharge pipe 11 of the separator 10. And, the outer frame 1, 2 (120, 130) to be mounted on the circumferential surface of the lower plate 110, and the upper plate (140) to be mounted on the upper outer peripheral surface symmetrically mounted of the outer frame 1, 2 (120, 130) It is composed of

Description

Steam Injection Humidifier with Dual Vacuum Separator

The present invention relates to a steam injection humidifier that is a part of an air conditioning system that introduces and circulates external air. More specifically, the steam introduced from a boiler is filtered through a separation plate provided therein to drain condensate and spray only pure steam. The present invention relates to a vacuum tank provided outside the separator to minimize heat loss between the separator supplied to the nozzle and the separator exposed to the outdoors.

In general, various humidification apparatuses are disclosed in which steam is generated to separate condensed water in a separator so that only pure steam is injected.

For example, notice number 97-03475 discloses a humidifier for an air conditioning system. The contents are as follows.

The separator has a separator for separating the steam supplied to the steam supply pipe and an injection manifold for injecting the separated steam into the duct. Condensation mesh provided in the middle of the separator to facilitate the condensation of the.

The injection manifold has an inner tube extending from the separator and an outer tube that surrounds the inner tube extending from the separator. A plurality of injection holes are formed in the inner tube and the outer tube, respectively, and the injection hole of the outer side supports the side toward the air supply direction of the duct, and the injection hole of the inner tube is different from the outer injection hole, that is, downward.

The steam supplied to the steam supply pipe collides with the conical baffle and passes through the condensed mesh which is first separated, and the secondary is separated and the condensate is discharged through the drain pipe, and only steam is supplied to the inner pipe of the injection manifold. The steam supplied to the inner pipe is injected through the injection hole and collides with the inner wall of the exterior, and is condensed thirdly, and the condensate is discharged to the auxiliary drain pipe. Supplied.

However, the conventional separator as described above results in an increase in the condensate by increasing the resistance of the steam in contrast to the hot air flow that is to be discharged downward toward the conical baffle mounted therein. Contact the mesh network one more time before reaching the pipe, and the internal pressure drops due to the drain hole inside the injection pipe, which is discharged to the condensate rather than being sent to the pure steam. Since there is a problem that needs to be generated, by operating the boiler forcibly to generate high temperature steam, there is a problem that the equipment management is difficult due to frequent repairs due to the failure of the boiler.

In addition, the proper combination of steam and air may not be possible because the steam is not properly absorbed in the air. Steam that is not absorbed has a problem that condensation occurs when it contacts the fan, damper, etc. in the duct, and corrosion occurs in the contacting equipment over time.

The present invention is devised to solve such a problem,

The purpose of the present invention is to prevent heat loss at low cost and to facilitate energy saving and easy maintenance and repair, and to generate a pleasant and fresh indoor environment by generating steam at an appropriate temperature.

In addition, another object of the present invention is to maintain the temperature of the steam to prevent the condensation of steam through the appropriate combination of steam and air to protect the installation.

1 a) is a layout diagram of a general air conditioner, and is a reference diagram showing the position of a steam jet humidifier having a vacuum tank to which the present invention is applied, and b) is an optimum formed by a). Is a diagram showing the humidity conditions,

Figure 2 is a front view showing a schematic overall configuration for explaining the present invention,

Figure 3 is an exploded perspective view for explaining the configuration of the subject innovation in detail,

4 is a cross-sectional view showing an embodiment to which the present invention is applied and a manifold is mounted in a duct.

* Explanation of symbols for the main parts of the drawings

DESCRIPTION OF SYMBOLS 1 Steam injection humidifier 2: Manifold 3: Injection pipe 4: Injection nozzle 5: Separator 6: Supply pipe 1 7: Supply pipe 2 8: Control valve 10: Separator 100: Vacuum tank 110: Lower diameter plate 120: Side booth 1 130 : Side booth 2 140: Upper diameter plate 150: Welding nipple 151: Air nipple 152: Cap 160: Bracket

The present invention relates to a steam injection humidifier of an air conditioner that purifies the air introduced from the outside and then sprays steam in the duct of the blower to supply and circulate purified air and steam to each chamber.

A double pipe manifold whose one side circulates the steam supplied from the boiler and wraps the surroundings of the injection pipe piped inside with heated steam and maintains temperature, and the steam introduced by pipe pipes on the other side of the manifold Separator to filter the condensate through the separator plate, and to supply pure steam only to inject steam into the duct through a plurality of injection nozzles mounted on the injection pipe, and to be welded to surround the outside of the separator and to maintain a vacuum state A vacuum tank to eliminate the loss of steam heat;

The vacuum tank is formed with a circular recess at the bottom of the separator, the hole formed in the center of the recess is a lower hard plate to be fitted in accordance with the outer diameter of the condensate discharge pipe of the separator, and the outer side is fitted to the circumferential surface of the lower hard plate It consists of the frame | boards 1 and 2 and the upper hard board attached to the upper outer peripheral surface symmetrically mounted of the outer frame | frames 1 and 2.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the present invention in detail.

1 a) is a layout diagram of a general air conditioner, and is a reference diagram showing the position of a steam jet humidifier having a vacuum tank to which the present invention is applied, and b) is an optimum formed by a). Is a diagram showing the humidity conditions,

Figure 2 is a front view showing a schematic overall configuration for explaining the present invention,

Figure 3 is an exploded perspective view for explaining the configuration of the subject innovation in detail,

4 is a cross-sectional view showing an embodiment to which the present invention is applied and a manifold is mounted in a duct.

Before describing the embodiment, the importance of humidification to the human body will be briefly described.

In general, cold air does not contain much moisture because the absolute humidity is low, and when the air is heated, the relative humidity is lowered and becomes dry.

If too dry, it is easy to catch cold, rough skin, and easily generate static electricity, especially in spinning mills that pull out yarn in the industrial sector. In addition, humidification is essential in vegetable farms and mushroom farms that grow mushrooms.

As shown in (a) of FIG. 1, air introduced through the ventilation fan CF forms clean air by filtering impurities from the air filter F at a wind speed of 2.5 m / sec, and then passes through a cooling coil CC. While passing through the heater (HM) while maintaining a temperature of 35 degrees Celsius finally mixed with pure steam injected through the injection nozzle (4) from the manifold (2) is supplied to each room to circulate the air and improve human health It is a facility to make it. B) shows the most appropriate relative humidity that is formed under the conditions shown in a), and when the relative humidity in the air is maintained at 40 to 60%, it also prevents the growth of bacteria and causes the human disease. You can see it shrinks.

In addition, as shown in Figure 2, to explain the steam flow of the conventional steam humidifier (1), the steam supplied through the boiler is supplied through the supply pipe 1 (6) through the supply pipe for descending the manifold (2) 2 (7) is supplied to the separator 10 connected to the pipe. At this time, the pure steam supplied from the boiler is supplied to the separator 10 at a temperature of 102 캜 (standard heat dissipation amount of 650 kcal / m 2 · h), but the separator 10 ) Is installed outside the duct due to the relationship between maintenance and repair and piping for draining condensate, and only the manifold 2 can be installed in the duct.

Therefore, the steam temperature of 102 ° C. is in contact with the separator 5 provided in the separator 10 under the influence of the external temperature of 1 to 3 ° C. in which the separator 10 is installed, and the condensate is discharged to the lower drain line. And only the pure steam is raised and supplied to the injection pipe 3 provided in the manifold 2 through the control valve 8, and a plurality of injection nozzles are mounted in the injection pipe 3 according to the size of the duct. 4) is sprayed through.

At this time, as described above, the separator 10 may increase the generation of condensed water due to the drop in the internal steam temperature under the influence of the external temperature, so that the temperature of the separator 10 is avoided in contact with the external temperature. 100) can be maintained to maintain the optimum steam temperature regardless of the outside temperature, it is possible to suppress the generation of condensate.

As shown in FIG. 3, the structure of the vacuum tank 100 will be described. A lower hard plate 110 mounted on the lower portion of the separator 10 forms a circular recess, and the separator ( Outer frame 1 formed by welding a spot to the outside of the condensate discharge pipe 11 protruding to the outside in accordance with a hole formed according to the outer diameter of the condensate discharge pipe 11 to discharge the condensate of 10), and formed in a semicircular shape on one side The lower part of the 120 is set in accordance with the outer circumferential surface of the lower hard plate 110, the other side of the outer frame 2 (130) is implemented in the same way, the upper hard plate of the outer frame 1, 2 (120, 130) It is set in accordance with the circumferential surface formed by the attachment, and after the setting is completed, each adhesive part is welded all around to maintain a complete vacuum in which there is no material in theory.

At this time, it is important to maintain a constant interval to maintain the vacuum state and to minimize the heat transfer to the heat of the separator 10 provided therein. In other words, when the fluid (gas, liquid) is in contact with the solid wall surface, the heat transfer is also carried by the movement of the fluid itself in addition to the conduction of heat, which is called heat transfer, it is important to maintain a vacuum state to prevent the heat transfer. In addition, since the interval is wide depending on the position of the vacuum tank 100, and if there is a narrow place, it is preferable to maintain a constant interval because a temperature difference occurs and partial condensation occurs depending on the position. The bracket 150 is mounted to support the outside of the separator 10 and maintain the spacing so that the spacing is kept constant and the contact area with the separator 10 is not welded, and the contact area is as small as possible. desirable. The reason for this is to minimize the influence of heat conduction, that is, heat conduction. The heat conduction is a phenomenon in which heat is moved from the high temperature side to the low temperature side when two objects having different temperatures are in contact with each other. Is to be transferred to the external vacuum tank 100 due to the movement of heat as described above in the hot state by the temperature of the steam inside to minimize the loss of heat.

In addition, as shown in detail in FIG. 3, the welding nipple 150 is mounted on one side of the upper hard plate 140 in a method for checking the vacuum state described above, and the thread part formed inside the welding nipple 150 is provided. Apply air bubbles to each weld to ensure air tightness between the separator 10 and the vacuum tank 100 by tightening the air nipple 141 to inject air into the air. After the air leakage test is completed, the air nipple 151 is removed by rotation, and a screw is formed at one side and a cap 152 with a pentagonal shape is blocked at the other side to external air. To block.

In addition, the welding of the vacuum tank 100, it is preferable to use a welding wire rather than a general electrode. For this reason, the electrode is 300mm long and when the electrode is exhausted in the process of welding the vacuum tank 100, when the electrode is replaced and welded again, a film is formed on the welding part of the electrode previously used and ideal penetration is achieved. If the film is not completely removed, there is a problem that the pinhole or the non-contact part is formed. Therefore, in the field, the grinding tool, which is a grinding tool, is a gouging operation to prevent the above problem. This is because of the problem that the work is not easy because the furnace welding part is excavated and the welding is performed again from that part. The welding wire can continuously perform the above welding work and there is almost no film formation after welding. Weld beads are clean and continuous with little deformation due to welding heat To common use in the industry.

4 is a reference diagram showing an embodiment in which the steam jet humidifier installed in accordance with the present invention manufactured as described above is installed by setting the duct.

According to the present invention, it is possible to reduce the energy loss and to facilitate the maintenance and repair of the facilities by supplementing the facilities at low cost and preventing heat loss, and to generate a pleasant and fresh indoor environment by generating steam at an appropriate temperature have.

In addition, by maintaining the temperature of the steam supplied from the boiler there is an effect to protect the equipment by preventing the condensation of steam through the appropriate combination of steam and air.

Claims (3)

In the steam injection type humidifier of the air conditioner that purifies the air introduced from the outside and then sprays steam in the duct of the blower to supply and circulate the purified air and steam to each chamber, A double pipe manifold (2) on one side circulates the steam supplied from the boiler to surround the injection pipe (3), which is piped into the inside, and maintains temperature, and on the other side of the manifold (2) The condensed water is filtered through the internal separation plate (5) of the pipe pipe, and the pure water is supplied only to inject steam into the duct through the plurality of injection nozzles (4) mounted on the injection pipe (3). A separator (10), and a vacuum tank (100) which surrounds the outside of the separator (10) and is mounted by welding to maintain a vacuum state so as to eliminate the loss of steam heat; The vacuum tank 100 forms a circular recess in the lower portion of the separator 10, and the hole formed in the center of the recess is mounted to match the outer diameter of the condensate discharge pipe 11 of the separator 10. And, the outer frame 1, 2 (120, 130) to be mounted on the circumferential surface of the lower plate 110, and the upper plate (140) to be mounted on the upper outer peripheral surface symmetrically mounted of the outer frame 1, 2 (120, 130) Steam injection type humidifier with a double vacuum separator, characterized in that consisting of). The method of claim 1, A steam jet humidifier having a double vacuum separator, which is mounted inside the vacuum tank 100 and includes a bracket 150 to prevent heat loss by maintaining an appropriate distance from the separator 10. . The method according to claim 1 or 2, The welding nipple 150 mounted on the upper portion of the vacuum tank 100, the air nipple 151 for injecting the fastening air into the thread formed in the welding nipple 150 for the air leakage test, and the air nipple Double vacuum separator characterized in that it comprises a cap 152 to remove the air nipple 151 after completion of the air leakage test to 151, to block the air to the outside to maintain a vacuum state Steam injection humidifier with.