KR200336353Y1 - Air-pump - Google Patents

Abstract

The lower part is opened and has a seating surface so that the rotary motor 10 is installed on the upper surface, the upper housing 80 opened in front and the rotary motor 10 generating a driving force installed on the upper surface of the upper housing 80. ), An eccentric cam 20 fastened to the rotary motor 10 and installed in the upper housing 80, and a bearing 32 is provided to linearly move by the operation of the eccentric cam 20. The diaphragm 30 having the through hole 33, the intake valve 40 installed in the center of the through holes 33 of the diaphragm 30, and an area in contact with the lower portion of the upper housing 80 maintain airtightness. The lower housing 70 to be coupled, the intake pipe 71 formed to introduce external air into the lower housing 70, and the diaphragm are coupled to maintain the airtightness in the opening in the front of the upper housing 70, An operating section of 30 is formed, and exhaust exhausting compressed air Exhaust force performance of an air pump by a small air pump comprising a cover 60 having a 61 formed therein and an exhaust valve 50 installed in an area adjacent to the diaphragm operation section 37 of the cover 60. It has a configuration to improve the efficiency of the air pump, and is molded with a covering material of synthetic resin throughout the air pump so that no air is lost during operation of the air pump according to the assembly of the air pump exterior, and an antibacterial filter is installed in the intake pipe to prevent external pollution. Air can be purified early.

Description

Small Air Pump {AIR-PUMP}

The present invention relates to a small air pump, and in particular, in a small air pump in which the diaphragm performs the intake stroke and the exhaust stroke by converting the circular motion of the rotary motor into a linear motion by an eccentric cam. The present invention relates to a small air pump formed in an area adjacent to an intake valve formed in a diaphragm to increase the efficiency of the exhaust force.

In general, small air pumps are applied to portable blood pressure monitors and skin care devices, and are mainly used to blow air into pressure bars for blood pressure measurement or to inhale air to remove sebum from skin. Due to the increase of air pollution such as soot, the need for oxygen generators that supply fresh air with high oxygen concentration indoors is increasing.

These oxygen generators are mainly used in places such as hospitals. The air pump used in the oxygen generator is embedded in the oxygen generator to forcibly supply oxygen to the critical patients in the hospital.

As such, the small air pump is a semi-product that is used for various purposes around daily life.

However, the small air pump generates heat due to friction with the inner wall of the cylinder during operation of the diaphragm, and the intake chamber and the exhaust valve are integrally formed in the diaphragm, and the intake chamber into which air is introduced is very small. Since the suction chamber for entering and exiting the exhaust pipe is small, the exhaust force of the compressed air is reduced, and also the air is lost between the assembling surfaces of the air pump, which is composed of a plurality of air pumps. When the outside air was polluted, there was a problem of supplying the polluted air to the user without any safety device.

The present invention is to solve the above problems, and to reduce the heat generated by the friction between the diaphragm and the inner wall of the cylinder, and has a configuration to improve the exhaust power performance of the small air pump, and also during operation of the air pump The purpose is to provide a small air pump that prevents air from being lost and that can purify externally contaminated air early.

1 is a perspective view of a small air pump according to the present invention,

2 is an exploded perspective view of a small air pump according to the present invention,

3 is an operational state diagram showing an intake stroke of a small air pump according to the present invention,

Figure 4 is an operating state diagram showing the exhaust stroke of the small air pump according to the present invention.

Explanation of symbols on main parts of drawing

10: rotary motor 11: drive shaft

20: eccentric cam 30: diaphragm

31: fastening ring 32: bearing

33, 43, 53: through hole 34: packing

40: intake valve 41: intake valve housing

42, 52: rubber film 50: exhaust valve

60: cover 61: exhaust pipe

70: lower housing 71: intake pipe

75: antibacterial filter 80: upper housing

100: small air pump

According to the technical idea of the present invention for achieving the above object, the lower part is opened, the seating surface is formed so that the rotary motor is installed on the upper surface, the upper housing opened in the front and the upper housing is installed A rotary motor for generating a motive force, an eccentric cam coupled to the rotary motor and built into the upper housing, a bearing is provided to linearly move by the operation of the eccentric cam, and a diaphragm having a plurality of through holes, and through the diaphragm. An intake valve installed at the center of the field, a lower housing coupled to a lower portion of the upper housing so as to maintain an airtightness, an intake pipe formed to introduce external air into the lower housing, and an opening at the front of the upper housing. It is coupled to maintain the air tightness, the operating section of the diaphragm is formed, and discharges compressed air Is achieved by being configured to include an exhaust valve provided in the adjacent area between the exhaust pipe and the cover is formed, the diaphragm Dongjak of the cover.

Here, the intake valve installed in the diaphragm is preferably an intake valve housing in which a plurality of through holes are formed in the same central axis as the plurality of through holes formed in the diaphragm, and a rubber membrane is coupled to the center of the intake valve housing toward the exhaust pipe side.

And, it is preferable that the antibacterial filter is installed in the intake pipe formed in the lower housing.

In addition, it is preferable to wrap the covering material in order to maintain airtightness by the combined outer shell of the upper housing, the lower housing and the cover.

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

In the following description, description through drawings is added for a more thorough understanding of the present invention, but it will be apparent to those skilled in the art that the present invention may be practiced without these detailed descriptions.

In some cases, descriptions thereof are omitted for known features or elements that may unnecessarily obscure the subject matter of the present invention. This is to avoid unnecessarily obscuring the disclosure of the present invention.

1 is a perspective view of a small air pump 100 according to the present invention. As shown in the figure, the present invention is composed of a rotary motor 10, upper and lower housings 80, 70 having a suction chamber 73 and a built-in configuration for exhausting compressed air.

2 is an exploded perspective view of a small air pump according to the present invention. The rotary motor 10 is installed above the upper housing 80. As shown in the figure, the upper portion of the upper housing 80, the installation hole for installing the rotary motor 10 is formed and coupled, it is fixed with a bolt.

The eccentric cam 20 is coupled to the drive shaft 11 of the rotary motor 10. The eccentric cam 20 converts the rotational movement of the rotary motor 10 into a linear movement, and is coupled to the diaphragm 30.

The diaphragm 30 has a shape in which a plurality of through holes 33 are formed in the shape of an upright disc, and a bearing 32 is provided and a coupling ring 31 coupled to the eccentric cam 20 is formed. In addition, the intake valve 40 is provided in the diaphragm 30.

The intake valve 40 is coupled to the intake valve housing 41 in which a plurality of through holes 43 are formed on the same central axis as the plurality of through holes 33 formed in the diaphragm 30. At this time, the rubber packing 34 is coupled between the diaphragm 30 and the intake valve 40 to maintain airtightness during operation in the diaphragm operation section 37 of the cover 60.

In addition, a rubber membrane 42 having an elastic force toward the exhaust pipe side of the intake valve housing 41 is coupled to the center of the intake valve housing 41.

The cover 60 is coupled to the airtight portion in the opening in the front of the upper housing 80, the exhaust pipe 61 is formed. In addition, the cover 60 is formed with a section 37 in which the diaphragm 30 operates. In addition, an exhaust valve 50 is formed between the section where the diaphragm 30 is operated and the exhaust pipe 61. The exhaust valve 50 is provided with a rubber membrane 52 having an elastic force coupled to the exhaust pipe side of the exhaust valve housing 51 at the center of the valve housing 51.

Then, the antibacterial filter 75 is installed in the intake pipe 71 formed in the lower housing 70.

In addition, the upper housing 80, the lower housing 70, and the cover of the outer shell 60 is molded with a synthetic resin coating material 90 to maintain airtightness.

Referring to the operation of the small air pump 100 having the configuration of the present invention based on FIGS. 3 and 4, when the power is applied and the rotary motor 10 starts to operate, the drive shaft of the rotary motor 10 (11) will be rotated. The eccentric cam 20 installed in the drive shaft 11 is eccentric movement.

The eccentric cam 20 is connected to a bearing 32 installed in the fastening ring 31 of the diaphragm 30. Accordingly, the rotational force generated by the rotary motor 10 is linearly moved by the bearing 32 provided in the fastening ring 31 of the eccentric cam 20 and the diaphragm 30. Thus, the diaphragm 30 is advanced in the diaphragm operating section 37.

When the diaphragm 30 moves forward, air flows into the intake pipe 71 of the lower housing 70. The incoming air reaches the suction chamber 73 via the antibacterial filter 75 installed in the intake pipe 71. At the same time, the air in the discharge chamber 63 which has flowed in is discharged into the exhaust pipe 61 through the exhaust valve 50 of the diaphragm 30. When the air exiting the exhaust pipe 61 acts at a predetermined pressure or more, it passes through the through hole 53 formed in the exhaust valve housing 51 of the exhaust valve 50, and the rubber membrane 52 blocking the through hole 53. It will be pushed out of the exhaust pipe (61).

When the diaphragm 30 retreats from the diaphragm operation section 37, the discharge chamber 63 is in a vacuum state, and the rubber membrane 52 of the exhaust valve 50 blocks the through hole 53 so that air is exhausted. It will not be able to escape to 61, the rubber membrane 42 of the intake valve 40 is opened. Accordingly, the air of the suction chamber 73 flows into the discharge chamber 63 through the through hole 33 formed in the intake valve housing 41.

If you reorganize the operation according to the forward and backward movement of the diaphragm (30)

When the diaphragm 30 moves forward, the air inlet of the suction chamber 73 is closed, the intake valve 40 is closed, and the exhaust valve 50 is opened, and the exhaust air is exhausted. The valve 40 is opened → the exhaust valve 50 is closed → the intake is continuously operated in the same stroke.

As described above, the small air pump according to the present invention has a configuration in which a suction chamber is separately formed to improve the exhaust performance of the air pump, and a cooling effect of lowering heat generation due to friction during diaphragm operation can be obtained as well. Since the air pump is molded over the entire surface of the synthetic resin material, air is not lost during operation of the air pump according to the assembly of the air pump, and an antibacterial filter is installed in the intake pipe to purify externally polluted air at an early stage. have.

On the other hand, the present invention is not limited only to the above-described embodiment can be carried out by modifying and modifying within the scope not departing from the gist of the present invention, the technical idea to which such modifications and modifications are also applied Should be regarded as belonging to

Claims (4)

In the small air pump which converts the circular motion of the rotary motor into horizontal motion by the eccentric cam, the diaphragm performs the intake stroke and the exhaust stroke to generate compressed air. An upper housing 80 having a lower opening, a seating surface formed such that a rotary motor 10 is installed on the upper surface, and opened in front; A rotary motor 10 generating a motive force installed on an upper surface of the upper housing 80; An eccentric cam 20 fastened to the rotary motor 10 and installed in the upper housing 80; A diaphragm 30 having a bearing 32 so as to linearly move by an operation of the eccentric cam 20, and having a plurality of through holes 33; An intake valve 40 installed at the center of the through holes 33 of the diaphragm 30; A lower housing (70) coupled to maintain an airtight area in contact with the lower portion of the upper housing (80); An intake pipe (71) formed to introduce external air into the lower housing (70); A cover 60 coupled to the airtight portion of the upper housing 70 so as to maintain airtightness, an operation section of the diaphragm 30 is formed, and an exhaust pipe 61 configured to discharge compressed air; Small air pump, characterized in that configured to include an exhaust valve 50 is installed in the area adjacent to the diaphragm operating section (37) of the cover (60). The method of claim 1, The intake valve 40 installed in the diaphragm 30 includes an intake valve housing 41 in which a plurality of through holes 43 are formed on the same central axis as the plurality of through holes 33 formed in the diaphragm 30, and a rubber membrane ( 42) A small air pump, characterized in that coupled to the center of the intake valve housing (41) toward the exhaust pipe (61) side. The method of claim 1, Small air pump, characterized in that the antibacterial filter 75 is installed in the intake pipe (71) formed in the lower housing (70). The method of claim 1, Small air pump, characterized in that the upper housing (80), the lower housing (70), the cover is molded with a coating material (90) to maintain airtightness in the combined outer shell.