KR20040092907A - Oxygen generator which noise is reduced - Google Patents

Abstract

PURPOSE: Provided is a noise-reduced oxygen generator which is able to continuously supply stable oxygen to the interior by significantly reducing pulsating noise generated from a vacuum pump. CONSTITUTION: In an oxygen generator comprising a plurality of membranes(17), an oxygen induction pipe (20) inhaling oxygen separated by the membrane, a vacuum pump (18) compressing the inhaled oxygen and supplying required amount of oxygen to the interior and an oxygen exit pipe (22) supplying the compressed oxygen to the interior, a muffler (110) having a larger diameter than that of the oxygen exit type is mounted on the center of the oxygen exit type to reduce pulsating noise generated from the vacuum pump.

Description

Oxygen generator which noise is reduced

The present invention relates to an oxygen generator, and more particularly, to a noise generator that can reduce indoor noise by continuously supplying stable oxygen to a room by significantly reducing the pulsation sound generated in a vacuum pump.

1 is a configuration diagram showing a schematic configuration of a conventional oxygen generator.

As shown, the oxygen generator 50 is provided with a suction filter 14 for filtering dust and the like in the outside air at one side of the rectangular casing 10, the oxygen generator 50 in the rear of the suction filter (14). ) Is the main configuration of the oxygen generating chamber 16 that filters only the oxygen contained in the air passing through the suction filter 14 is installed.

The oxygen generating chamber 16 is composed of a plurality of membranes 17 having a porous structure of a very thin membrane to facilitate the filtering of oxygen in the air by using the principle of selective permeability of gas. That is, the gas has a penetration rate of a function that can dissolve and diffuse through the thin film, so that oxygen having an intermediate penetration rate can be easily separated from nitrogen. At this time, the separated nitrogen is again discharged to the outside through a discharge fan (not shown) located in the rear portion of the oxygen generating chamber (16).

Meanwhile, a vacuum pump 18 is installed inside the casing 10 to suck oxygen separated through the oxygen generating chamber 16 through the oxygen suction tube 20 to compress the oxygen, and to simultaneously compress the oxygen. It will supply smoothly.

In addition, the vacuum pump 18 is connected to the oxygen discharge pipe 22 corresponding to the oxygen suction pipe 20 to supply oxygen to the room via the oxygen discharge pipe 22 through the suction compressed oxygen. In this case, a rubber tube tubular silencer 24 is generally installed in the middle of the oxygen discharge pipe 22 to reduce pulsation noise generated by the vacuum pump 18.

However, there was a limit in reducing the pulsation noise generated in the vacuum pump using the tube tube silencer, and in this case, there were many limitations in installing and using an oxygen generator in a hospital room, which requires psychological stability.

The present invention has been made to solve the above problems, by improving the silencer structure mounted on the oxygen generator to significantly reduce the pulsation generated from the vacuum pump to reduce the noise that can continuously supply stable oxygen to the room The purpose is to provide an oxygen generator.

Another object of the present invention is to provide a noise-reducing oxygen generator in which a compression sintered body made of bronze or paper resin is mounted on the discharge end of an oxygen discharge tube of an oxygen generator to significantly reduce pulsation noise generated in a vacuum pump. have.

1 is a configuration diagram showing a schematic configuration of a conventional oxygen generator.

Figure 2 is a block diagram showing a schematic configuration of the oxygen generator is reduced noise according to the present invention.

Figure 3 is a block diagram showing another embodiment of the oxygen generator with reduced noise according to the present invention.

Explanation of symbols on the main parts of the drawings

17: membrane 20: oxygen suction tube

18: vacuum pump 22: oxygen discharge pipe

110: muffler silencer 112: coupling portion

114: attenuation portion 114a: wrinkle portion

210: compression sintered body

In order to achieve the above object, the noise-reducing oxygen generator according to the present invention includes a plurality of membranes having a very thin membrane porous structure, an oxygen suction tube for sucking oxygen separated while passing through the membrane, and the oxygen suction tube. In the oxygen generator comprising a vacuum pump for compressing the sucked oxygen and at the same time smoothly supplying the amount of oxygen required in the room, and an oxygen discharge pipe for supplying the oxygen compressed by the vacuum pump into the room, the oxygen discharge pipe In the middle of the muffler-type silencer is larger than the diameter of the oxygen discharge pipe in order to reduce the pulsation generated by the vacuum pump.

The appearance of the silencer is a wrinkle portion is formed is characterized in that the pulsation noise generated in the vacuum pump hits the wrinkle portion frequently while reducing the noise.

In addition, the noise-reducing oxygen generator according to the present invention compresses a plurality of membranes having a very thin membrane porous structure, an oxygen suction tube for sucking separated oxygen while passing through the membrane, and oxygen sucked through the oxygen suction tube. And a vacuum pump for smoothly supplying the amount of oxygen required in the room and an oxygen discharge pipe for supplying the oxygen compressed by the vacuum pump to the room, wherein the discharge end of the oxygen discharge pipe is disposed at the vacuum pump. In order to reduce the pulsation generated by the pump is characterized in that the compression sintered body using a sound insulating material or sound absorbing material is mounted.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Here, the same reference numerals are given to the same components as the conventional components, and the new components will be described with the new reference numerals, and detailed description of the same components will be omitted.

Figure 2 is a block diagram showing a schematic configuration of the oxygen generator is reduced noise according to the present invention.

As shown, the noise-reducing oxygen generator according to the present invention includes a plurality of membranes 17 having a very thin membrane porous structure, and an oxygen suction tube 20 for sucking separated oxygen while passing through the membrane 17. A vacuum pump 18 for compressing the oxygen sucked through the oxygen suction pipe 20 and at the same time smoothly supplying the amount of oxygen required in the room, and oxygen for supplying the oxygen compressed in the vacuum pump 18 to the room. In the middle of the discharge pipe 22 and the oxygen discharge pipe 22 is composed of a muffler silencer 110 for reducing the pulsation sound generated in the vacuum pump 18.

Hereinafter will be described in detail with respect to the muffler silencer, the main technical features of the present invention.

The muffler silencer 110 is a device for reducing noise in the form of a muffler, and has a cylindrical or rectangular box shape made of metal, and is divided into a coupling part 112 at both ends and an attenuation part 114 at an intermediate part.

Coupling portion 112 of the muffler silencer 110 is installed to communicate with each other in the middle of the oxygen discharge pipe (22). That is, the coupling part 112 at both ends of the silencer is designed to have a size substantially similar to or slightly smaller than the diameter of the oxygen discharge pipe 22 and is connected to the oxygen discharge pipe 22 by an interference fit method or a fastening means.

In addition, the attenuator 114 of the muffler silencer 110 is designed to be larger than the diameter of the oxygen discharge pipe 22 to reduce the pulsation noise generated in the vacuum pump 18. That is, the pulsation sound is diffused from the thin oxygen discharge pipe 22 to the attenuation part 114 having a relatively large space to attenuate the vibration, thereby significantly reducing the discharge noise.

Preferably, the muffler silencer 110 is formed on the outer surface of the pulsation sound generated in the vacuum pump 18 hits the corrugated portion (114a) to reduce the noise. That is, the pulsating sound hits the wrinkle portion 114a having a relatively large surface area, and consumes sound energy to obtain a sound absorbing or sound insulating effect. Here, those skilled in the art will be able to vary the shape or shape of the wrinkle portion 114a according to the material or shape of the attenuation portion 114.

Referring to the operation of the oxygen generator with reduced noise according to the present invention in this configuration is as follows.

When power is applied to the vacuum pump 18, the outside air in the room is sucked and primarily passes through the above-described suction filter 14 to remove impurities such as dust. Thereafter, the air from which impurities are removed passes through a plurality of membranes 17 inside the oxygen generating chamber 16 attached to the lower end of the suction filter 14 and is separated into oxygen and nitrogen. At this time, the nitrogen is discharged again to the outside through a discharge fan (not shown), the oxygen is sucked and compressed into the vacuum pump 18 through the above-described oxygen suction pipe 20, and then to the vacuum pump 18 It is discharged to the outside through the oxygen discharge pipe 22 is installed to supply oxygen. At this time, before being discharged to the outside, the pulsating sound moving along the thin oxygen discharge pipe 22 is diffused from the thin oxygen discharge pipe to the attenuating portion having a relatively large diameter, or the sound energy is attenuated while canceling the pulsating sound with each other. In particular, the pulsation sound is attenuated by colliding with the pleats 114a of the muffler silencer 110, and part of the pulsation sound is absorbed by the attenuator 114 having a large surface area, thereby significantly reducing the sound.

Therefore, the user design the attenuation portion 114 of the muffler silencer 110 larger than the diameter of the oxygen discharge pipe 22, thereby significantly attenuating the pulsation sound of the vacuum pump 18 that generates the largest noise in the oxygen generator. It is possible to provide a stable oxygen in the room while still quiet in the room or home. In particular, by forming the wrinkle portion 114a in the muffler silencer 110 of the oxygen generator according to the present invention, it is possible to double the sound absorption or sound insulation effect of the pulsating sound.

Figure 3 is a block diagram showing another embodiment of the oxygen generator is reduced noise according to the present invention.

As shown, the noise-reducing oxygen generator according to the present invention includes a plurality of membranes 17 having a very thin membrane porous structure, and an oxygen suction tube 20 for sucking separated oxygen while passing through the membrane 17. A vacuum pump 18 for compressing the oxygen sucked through the oxygen suction pipe 20 and at the same time smoothly supplying the amount of oxygen required in the room, and oxygen for supplying the oxygen compressed in the vacuum pump 18 to the room. The discharge end of the discharge pipe 22 and the oxygen discharge pipe 22 is composed of a compression sintered body 210 to reduce the pulsation sound generated by the vacuum pump 18.

The compression sintered body 210 is shaped using a bronze or paper resin in the shape of a cork, which is approximately used as a stopper such as a wine bottle.

The compression sintered body 210 is a porous material, is inserted into the discharge end of the oxygen discharge pipe 22 to attenuate the pulsation sound generated by the vacuum pump 18.

In other words, the pulsation sound is partially reflected by the compression sintered body 210 and partially transmitted through the plurality of through holes 210a, and the rest is absorbed in the compressed sintered body 210 having the sound absorption or sound insulation function.

Therefore, by forming a simple and inexpensive sound absorption or sound insulation structure to attenuate the pulsation sound generated in the vacuum pump 18, the effect that the noise generated in the oxygen generator is significantly reduced.

By significantly reducing the pulsation sound generated in the vacuum pump of the oxygen generator according to the present invention as described above, there is an effect that can continuously supply a quiet and stable oxygen to the room.

In the above, the present invention has been illustrated and described with respect to certain preferred embodiments. However, the present invention is not limited to the above-described embodiments, and those skilled in the art to which the present invention pertains can vary without departing from the spirit of the technical idea of the present invention described in the claims below. It will be possible to carry out the change.

Claims (3)

A plurality of membranes having a very thin membrane porous structure, an oxygen suction tube for sucking oxygen separated through the membrane, and a vacuum for compressing oxygen sucked through the oxygen suction tube and supplying the amount of oxygen required in the room smoothly. In the oxygen generator comprising a pump and an oxygen discharge pipe for supplying the oxygen compressed by the vacuum pump into the room, An oxygen generator with reduced noise, characterized in that the middle of the oxygen discharge pipe is equipped with a muffler silencer larger than the diameter of the oxygen discharge pipe to reduce the pulsation generated from the vacuum pump. The method of claim 1, The outer surface of the silencer is formed with a wrinkle portion noise reduction oxygen generator characterized in that the pulsation sound generated in the vacuum pump hits the wrinkle portion frequently to reduce the noise. A plurality of membranes having a very thin membrane porous structure, an oxygen suction tube for sucking oxygen separated through the membrane, and a vacuum for compressing oxygen sucked through the oxygen suction tube and supplying the amount of oxygen required in the room smoothly. In the oxygen generator comprising a pump and an oxygen discharge pipe for supplying the compressed oxygen from the vacuum pump into the room, Noise reduction oxygen generator characterized in that the discharge end of the oxygen discharge pipe is equipped with a compression sintered body using a sound insulating material or sound absorbing material in order to reduce the pulsation sound generated by the vacuum pump.