KR200382220Y1 - Dry tank structure of air compression system for dental - Google Patents

Abstract

The present invention relates to a dry tank structure of a dental air compression system, and a conventional dry tank is easily clogged with desiccant particles or foreign substances dissolved in water in the gaps of the metal grains of the sintered metal silencer installed in the inlet or the hole of the plastic filter rod. Since the passing rate of the air is low, the engine load is severe and the failure rate is high.

The present invention has an inlet 111 for receiving the compressed air from the radiator 300 is installed at the bottom, the top is formed outlet 112 connected to the receiver tank 500, the desiccant 130 is filled therein When constructing the dry tank 100 of the dental air compression system is installed a metal mesh tube 120 of the thin steel wire material on the inner surface of the coupling hole 121 installed in the inlet 111 and outlet 112, respectively. As a result, the water absorption rate of the desiccant and the drying rate of the compressed air are high due to the condensation action of the coldly cooled metal mesh when passing through the compressed air, so only the very dry compressed air can be stored in the receiver tank, and the air permeability of the metal mesh is always It is good and there is no risk of overloading the engine, so the maintenance cost is low, such as extending the life of air compressor system.

Description

Dry tank structure of air compression system for dental

The present invention relates to a dry tank structure of a dental air compression system. More specifically, before the compressed air made in the air compressor flows into the receiver tank, the condensed water particles in the compressed air are more condensed and filtered into water droplets. The present invention relates to the dry tank structure of a dental air compression system.

In general, dentists use a large amount of dried compressed air to treat teeth. Most of the compressed air produced by the compressor is contained in the compressed air by condensation by cooling during the radiator and the dry tank. Moisture is dried, and only the compressed air thus dried is stored in the receiver tank and used every time the patient's teeth are treated.

That is, the air compressor compresses air in the air to make compressed air, and thus the compressed air contains a considerable amount of moisture particles. The compressed air containing the moisture is stored as water when it is left inside the tank. This corrodes the inside of the tank, and a large amount of contaminated water is also injected during the air spray for the tooth treatment. Therefore, the compressed air stored in the receiver tank must be dry and free of moisture particles.

To this end, in the prior art, an air inlet is formed on one side and a dry tank filled with a desiccant inside the outlet on the other side is installed between the radiator and the receiver tank so that the compressed air supplied from the radiator passes through the dry tank. Moisture contained in is absorbed by the desiccant and removed.

That is, Figure 1 shows a conventional dry tank, the conventional dry tank 10 is provided with a sintered metal silencer 20 in which metal grains 21 are agglomerated in an acid type at the lower inlet 11. It has a structure filled with desiccant 30, such as a silica gel inside.

The dry tank 10 has a structure in which the compressed air flowing into the inlet 11 passes through a gap between the metal grains 21 of the sintered metal silencer 20, which is blocked by a foreign material as described below. The phenomenon is severe.

In addition, the inlet and outlet of the dry tank are provided with a filter rod made of a plastic through a number of perforated holes, the plastic filter rod does not condensate the compressed air passing through it, the condensation efficiency of the moisture particles contained in the compressed air is significantly reduced can do.

And, since the lower surface of the sintered metal silencer 20 or the plastic filter rod is positioned higher than the inner bottom of the dry tank 10, the moisture absorbed by the desiccant 30 is not easily discharged to the outside due to the height difference, and thus the dry tank ( 10) the bottom of the, the desiccant (30) is dissolved in the water due to this, the gap of the metal grains (21) of the sintered metal silencer 20 or the through-hole of the plastic filter rod is easily blocked, the passing rate of the compressed air is reduced, This accelerates the load of the engine for air compression and causes a problem such as shortening the lifespan.

The present invention was developed to solve the conventional problems as described above, an object of the present invention is to filter out the water particles mixed in the compressed air more smoothly before the compressed air made in the air compressor flows into the receiver tank To provide a dry tank structure for a dental air compression system that can extend the life of the air compressor without damaging the filter network.

In order to achieve the above object of the present invention, the metal mesh itself is installed when the compressed air passes by installing a coupling port having a thin stainless steel wire mesh in the lower inlet and the upper outlet of the dry tank into which the compressed air is introduced from the radiator. By condensing the water particles contained in the compressed air passed by the cooling action with water droplets, the condensed water is easily collected into the lower joint by the self-weighting action, and the moisture absorption rate of the desiccant filled in the dry tank is increased to dry well. Since only compressed air can be stored in the receiver tank, the above object can be effectively achieved.

Hereinafter, described in detail by the accompanying drawings the technical configuration and operation of the preferred embodiment that can effectively achieve the above object of the present invention.

Figure 2 is a front view showing a dental air compression system is installed a dry tank of the present invention, Figure 3 is a cross-sectional view showing a dry tank structure of the present invention, Figure 4 is an enlarged cross-sectional view of the dry tank outlet portion of the present invention. .

As shown therein, the connector 302 of the hose 301 for introducing the compressed air from the radiator 300 in the configuration of the present invention is connected to the lower inlet 111, the upper purge air tank 400 and the receiver tank A discharge tank 112 for sending compressed air to the 500 is formed, and the dry tank 100 of the dental air compression system in which the desiccant 130 is filled may be the same as in the related art.

Features of the present invention is installed when the connection port 302 of the hose 301 to the inlet 111 of the dry tank 100 together with a drain 140 to be opened and closed by the solenoid valve 141 at the bottom, Coupling spheres 121 are fastened to the inlet 111 and the outlet 112 is to install a metal mesh 120 of a thin steel wire respectively on the upper end of the inner surface.

In addition, the metal mesh tube 120 of the coupler 121 coupled to the inlet 111 and the outlet 112 is installed so that the lower end is placed in a lower position than the inner bottom of the dry tank (100). In the drawings, reference numeral 200 denotes an engine of an air compression system.

In the present invention formed as described above, the compressed air in the engine 200 is cooled in the radiator 300 and then flows into the inlet 111 of the lower end of the dry tank 100 through the connector 302 of the hose 301. At this time, since the metal mesh tube 120 made of a thin stainless steel wire is installed in the coupling hole 121 fastened to the inlet 111 and the outlet 112, the metal mesh tube 120 itself is cold when cold compressed air passes. It will remain cooled.

In addition, the metal mesh tube 120 that maintains the cool state in this way makes the cooling air of the compressed air pass more smoothly, thereby more condensing the water particles contained in the compressed air to pass through to make water droplets. Accordingly, the condensation effect of the moisture contained in the compressed air is excellent in the vicinity of the metal mesh 120 installed in the inlet 111 and the outlet 112.

Therefore, the condensed water droplets are more rapidly absorbed by the desiccant 130 filled in the dry tank 100, and the absorbed water is gradually moved to the lower part of the dry tank 100, so that the inner bottom of the dry tank 100 is dried. The desiccant 130 is located in the state that the water is absorbed in a considerable amount, and only the compressed air is dried to the upper end of the inside of the dry tank 100, the discharge port 112 formed on the top of the dry tank 100 Only the compressed air, which is very well dried, is discharged and then flows into the receiver tank 500 through the purge air tank 400.

In addition, since the bottom of the metal mesh tube 120 of the coupler 121 coupled to the inner surface of the outlet 112 is located at a lower position than the bottom of the dry tank 100, the drain port 140 installed at the bottom of the inlet 111 is provided. Just by opening the solenoid valve 141, the water accumulated in the inner bottom of the dry tank 100 can be quickly discharged to the outside.

In addition, the present invention, even if the desiccant particles and foreign matter dissolved in the water is caught in the hole of the metal mesh tube 120, the solenoid valve of the drain port 140 installed at the bottom of the inlet 111 for cleaning the metal mesh tube 120 at regular intervals ( Opening the 141 and backflowing the dried compressed air in the purge air tank 400, the desiccant particles and the foreign matter caught in the metal mesh 120 are easily separated and separated by the force of the compressed air, so that there is no fear of clogging.

Accordingly, the present invention has a good air permeability of the metal mesh tube 120, so there is no risk of overloading the engine 200 due to clogging of the filter mesh tube as in the prior art, thereby extending the life of the air compression system.

As described above, the present invention improves the absorption rate of the desiccant and increases the absorption rate of the desiccant because the metal mesh of the thin stainless steel wire material installed in the inlet and the outlet of the dry tank cools and condenses the moisture particles of the compressed air more quickly. There is an effect that can store very well dried compressed air.

In addition, the metal mesh installed at the inlet and outlet of the dry tank is not likely to be clogged with desiccant particles and foreign substances dissolved in water, and even if the desiccant particles or foreign substances are caught between the holes of the metal mesh, they are easily drained together with water. As the air permeability of the net tube is always maintained, there is no risk of overloading the engine of the compressed air system, and the lifespan of the air compression system can be considerably extended compared to the conventional one, and thus the maintenance cost is low.

1 is a partial cross-sectional view showing a state in which a sintered metal silencer is installed in a conventional dry tank inlet

Figure 2 is a front view schematically showing a dental air compression system is installed a dry tank of the present invention

3 is a cross-sectional view showing a dry tank structure of the present invention

Figure 4 is an enlarged cross-sectional view of the dry tank outlet portion of the present invention

Explanation of symbols for main parts of the drawings

100: dry tank 111: inlet

112: outlet 120: metal mesh

121: coupler 130: desiccant

140: drain port 141: solenoid valve

300: radiator 301: hose

302: connector 400: purge air tank

500: Receiver Tank

Claims (3)

The outlet 302 of the hose 301 for introducing the compressed air from the radiator 300 is installed in the inlet 111 of the lower end, the discharge port for sending compressed air to the purge air tank 400 and the receiver tank 500 at the top In forming the (112), the inside of the dry tank 100 of the dental air compression system is filled with a desiccant 130, The inlet 111 and the outlet 112, respectively, the coupling hole 121 is installed to be screwed to each other, the metal mesh tube 120 of the thin steel wire material is installed on the inner surface of the coupling hole 121 respectively. Dry tank structure of the dental air compression system, characterized in that 120 is located inside the dry tank (100). The method of claim 1, When the connector 302 of the hose 301 is installed at the inlet 111 of the dry tank 100, a drain port 140 that is opened and closed by the solenoid valve 141 is installed at the lower portion thereof, so that the inside of the dry tank 100 is installed. Dry tank structure of a dental air compression system, characterized in that the condensed water is drained. The method of claim 1, Dental air, characterized in that the lower end of the metal mesh tube 120) of the coupler 121 coupled to the inner surface of the inlet 111 of the dry tank 100 is installed lower than the bottom of the dry tank 100 Dry tank structure of the compression system.