KR20120002350A - Small air pump - Google Patents

Abstract

PURPOSE: A small air pump, which can increase compression efficiency and reduce noise vibration, is provided to reduce noise vibration by using a fixing member. CONSTITUTION: A small air pump comprises a motor(110), a base(80), a shaft(100), an inclination cam(70), a diaphragm(50), a diaphragm base(60), a suction valve(31), an exhaust valve(30), a valve base(40), a head(20), and a fixing member(10). The motor generates rotation driving power. The base is installed on the top of the motor. The inclination cam is inserted into a tilting pin. The suction valve sucks the air. The inlet and vent are installed in the head. The fixing member fixes the valve base and head. The diameter of the protrusion of the diaphragm base is smaller than the diameter of a diaphragm holder.

Description

Small air pump

The present invention relates to a small air pump, and more specifically, the compression efficiency is high by designing a relatively small space volume of the diaphragm chamber, the noise vibration is small by using a fixing member, and does not leak through the discharge valve. Relates to a small air pump.

Small air pumps are used in a variety of products, including portable devices.

For reference, the technology related to the air pump that can reduce the noise and vibration while improving the compression efficiency of the air compression pump, and also the assembly efficiency can be reduced, the Korean Utility Model Publication No. 20-0337978 (Notice date 2004 January 13, "Air Pump".

However, the conventional small air pump has a problem of relatively low compression efficiency, large noise vibration, and leakage.

An object of the present invention is to solve the conventional problems as described above, by providing a relatively small space in the diaphragm chamber to provide a compact air pump, high compression efficiency, low noise vibration, no leakage There is.

As a means for achieving the above object, the configuration of the present invention includes a motor for generating a rotational driving force, a base provided on an upper portion of the motor, and an inclined pin inclined at an angle with respect to the axial direction of the motor. A shaft, an inclined cam inserted into the inclined pin, a diaphragm coupled to the inclined cam and pumping air, a diaphragm base provided with the diaphragm, an intake valve for intake of air, and an air discharge It comprises a discharge valve for, the valve base is provided with the suction valve and the discharge valve, the head is provided with the suction port and the discharge port, the diameter of the projection of the diaphragm base is smaller than the diameter of the engaging portion of the diaphragm It is characterized by.

It is preferable that the configuration of the present invention further includes a fixing member for fixing the valve base and the head.

In the configuration of the present invention, it is preferable that the fixing member has a fixing jaw formed on the inner circumferential surface of the fixing member inserted into and fixed to the second fixing groove of the valve base and the first fixing groove of the head.

In the configuration of the present invention, an upper portion of the inclined cam is provided with a protrusion having a predetermined thickness protruding in three directions, and an insertion hole into which the insertion protrusion of the diaphragm is inserted is formed at the center of the protrusion.

The configuration of the present invention, the discharge valve is made of a spherical disc-shaped closing plate, the pressing rib is formed radially on the upper portion of the sealing plate, it is preferable that the fixing hole is formed in the center of the pressing rib.

In the configuration of the present invention, the valve base is preferably provided with a discharge hole, and a plurality of second fixing grooves are formed along the edge.

In the configuration of the present invention, the diaphragm has a locking portion formed at an upper portion thereof, and the locking portion is connected to the body using a bent portion, and a depression is formed at the upper portion of the body, and an insertion protrusion is formed at the lower portion of the body.

The present invention has the effect that the compression volume is high by designing a relatively small space volume of the diaphragm chamber, the noise vibration is small by using the fixing member, and does not leak through the discharge valve.

1 is an exploded perspective view of a small air pump according to an embodiment of the present invention.
2 is a cross-sectional structural view of a small air pump according to an embodiment of the present invention.
3A and 3B are cross-sectional structural diagrams before and after assembling the diaphragm and the diaphragm base of the small air pump according to the embodiment of the present invention.
4A to 4C are schematic diagrams of a head and a valve base of a small air pump according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in order to describe in detail enough to enable those skilled in the art to easily carry out the present invention. . Other objects, features, and operational advantages, including the purpose, operation, and effect of the present invention will become more apparent from the description of the preferred embodiments.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment in order to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment Rather, various changes, additions, and changes are possible within the scope without departing from the spirit of the present invention, as well as other equivalent embodiments.

1 is an exploded perspective view of a small air pump according to an embodiment of the present invention, Figure 2 is a cross-sectional structural view of a small air pump according to an embodiment of the present invention.

As shown in Figure 1 and 2, the configuration of a small air pump according to an embodiment of the present invention, the motor 110 for generating a rotational driving force, and the base (top) installed on the motor (110) 80, a shaft 100 into which the inclined pin 90 which is inclined at an angle with respect to the axial direction of the motor 110 is inserted, an inclined cam 70 inserted into the inclined pin 90, The diaphragm 50 coupled to the inclined cam 70 to pump air, the diaphragm base 60 on which the diaphragm 50 is installed, the suction valve 31 for intake of air, and A discharge valve 30 for discharging, a valve base 40 on which the suction valve 31 and the discharge valve 30 are installed, a head 20 on which the suction port 21 and the discharge port 22 are installed; It includes a fixing member 10 for fixing the valve base 40 and the head 20.

The fixing member 10 has a fixing jaw 11 formed on the inner circumferential surface of the fixing member 10 is inserted into and fixed to the second fixing groove 42 of the valve base 40 and the first fixing groove 23 of the head 20. Made of structure.

An upper portion of the inclined cam 70 is formed with a protrusion 71 having a predetermined thickness protruding in three directions, and an insertion hole 72 into which the insertion protrusion 52 of the diaphragm 50 is fitted at the center of the protrusion 71. ) Is formed. In addition, the inclined pin insertion protrusion 73 is formed below the inclined cam 70, and the inclined pin insertion protrusion 73 has a structure in which a pin insertion hole 74 is formed.

4A to 4C are schematic diagrams of a head and a valve base of a small air pump according to an embodiment of the present invention.

4A to 4C, the head 20 has a structure in which a plurality of first fixing grooves 23 are formed along an edge thereof. In addition, the discharge valve 30 is made of a spherical disc-shaped sealing plate, the pressing rib 31 is formed radially on the upper portion of the sealing plate, the fixing hole 32 in the center of the pressing rib 31 It is made of a structure that is formed. The pressing rib 31 of the discharge valve 30 is coupled to the bottom surface of the head 20 to prevent the rotation of the discharge valve 30. The fixing hole 32 of the discharge valve 30 has a structure that is coupled to the protrusion formed in the center of the bottom of the head 20. In addition, the valve base 40 has a discharge hole 41 is formed, a plurality of second fixing grooves 42 are formed along the edge.

3A and 3B are cross-sectional structural diagrams before and after assembling the diaphragm and the diaphragm base of the small air pump according to the embodiment of the present invention.

3A and 3B, the diaphragm 50 has a catching portion 51 formed at an upper portion thereof, and the catching portion 51 is connected to the body using a bent portion 53 and the upper portion of the body. The depression 54 is formed, the lower portion of the body is formed of a structure in which the insertion protrusion 52 is formed. In addition, the locking portion 51 has a structure that is pressed on the protrusion 61 of the diaphragm base (60). In addition, the diameter D2 of the protrusion 61 of the diaphragm base 60 has a structure smaller than the diameter D1 of the engaging portion 51 of the diaphragm 50.

The bent portion 53 is for forming the diaphragm chamber 55, the depression 54 is for allowing the upper portion of the body of the diaphragm 50 to receive the suction valve (31).

With the above configuration, the action of the small air pump according to the embodiment of the present invention is as follows.

When electrical energy is applied, the rotation driving force is generated in the motor 110, and thus the rotation driving force generated in the motor 110 is transmitted to the shaft 100.

The shaft 100 is inserted into the inclined pin 90 inclined at an angle with respect to the axial direction of the motor 110 so that the inclined pin 90 is rotated.

Although the inclined cam 70 is inserted into the inclined pin 90, the inclined cam 70 is inclined pin because the insertion protrusion of the diaphragm 50 is inserted into the insertion hole 72 of the upper portion of the inclined cam 70. It does not rotate along 90. However, since the inclined pin insertion protrusion 73 and the pin insertion hole 74 are formed below the inclined cam 70, the lower end of the inclined cam 70 maintains a predetermined distance from the axis of the motor 110. It will rotate.

When the three protrusions 71 formed on the inclined cam 70 drive the elliptic trajectory, the diaphragm 50 connected to the insertion hole 72 of the inclined cam 70 causes the forward and backward driving to be straight. do.

When the diaphragm 50 is moved backward by the rotation of the inclined cam 70, the pressure inside the diaphragm chamber 55 becomes lower than atmospheric pressure, and the outside air enters through the inlet 21 to open the intake valve 31. It is introduced into the diaphragm chamber 55.

When the inclined cam 70 continues to rotate and advances the diaphragm 50, the air inside the diaphragm chamber 55 is compressed and the pressure is increased to be higher than atmospheric pressure. Thus, the air inside the diaphragm chamber 55 is thus. When the pressure is higher than the atmospheric pressure, the suction valve 31 formed on the upper end of the diaphragm 50 is closed, and the air inside the diaphragm chamber 55 is compressed to increase the air pressure. When the air pressure inside the diaphragm chamber 55 becomes higher than the pressure of the discharge port, the discharge valve 30 installed at the upper end of the diaphragm 50 opens, and the compressed air inside the diaphragm chamber 55 discharges through the discharge port 22. do.

Since the diameter D2 of the protrusion 61 protruding in a circular shape on the upper portion of the diaphragm base 60 is made smaller than the diameter D1 of the locking portion 51 of the diaphragm 50, the diaphragm base After assembling the engaging portion 51 of the diaphragm 50 to the projection 61 of the 60, the diameter (D4) for forming the diaphragm chamber 55 after assembly to form the diaphragm chamber 55 before assembly Since the diameter D3 is smaller than the diameter D3, the volume of the diaphragm chamber 55 becomes relatively small. As such, when the volume of the diaphragm chamber 55 becomes small, the compression efficiency is relatively increased.

The reason why the compression efficiency is increased in this way will be described below with specific numerical examples. If the volume of the diaphragm chamber before compression of the existing small pump is 10 and the volume of the diaphragm chamber after compression is 5, the compression efficiency is 2. On the other hand, as in the small pump according to the present invention, if the volume of the diaphragm chamber before compression is reduced to 1 compared to the existing 9 and the volume of the diaphragm chamber after compression is also reduced to 1 compared to the conventional one, the compression efficiency is 2.5 As a result, the compression efficiency is increased compared to the existing compression efficiency.

In addition, the discharge valve 30 is made of a spherical disc-shaped sealing plate, the pressing rib 31 is formed radially on the upper portion of the sealing plate, the fixing hole 32 in the center of the pressing rib 31 ) Is combined with a protrusion formed in the center of the bottom of the head 20 to prevent the leakage of air.

In addition, the fixing member 10 has a fixing jaw 11 formed on the inner circumferential surface is inserted into the second fixing groove 42 of the valve base 40 and the first fixing groove 23 of the head 20. By being fixed, the noise vibration is reduced.

10: fixing member 20: head
30: discharge valve 31: suction valve
40: valve base 50: diaphragm
60: diaphragm base 70: inclined cam
80: base 90: inclined pin
100: shaft 110: motor

Claims (7)

A motor for generating rotational driving force,
A base installed on an upper portion of the motor,
A shaft into which an inclined pin inclined at an angle with respect to the axial direction of the motor is inserted;
An inclined cam inserted into the inclined pin;
A diaphragm coupled to the inclined cam and pumping air;
A diaphragm base on which the diaphragm is installed,
A suction valve for intake of air,
A discharge valve for exhausting air,
A valve base provided with the suction valve and the discharge valve;
A head having the suction port and the discharge port installed therein;
It comprises a fixing member for fixing the valve base and the head,
Small diameter air pump, characterized in that the diameter of the projection of the diaphragm base is smaller than the diameter of the engaging portion of the diaphragm. The method of claim 1,
Small air pump further comprises a fixing member for fixing the valve base and the head. The method of claim 2,
The fixing member is a small air pump, characterized in that the fixing jaw formed on the inner peripheral surface is inserted into the second fixing groove of the valve base and the first fixing groove of the head. 3. The method according to claim 1 or 2,
The upper portion of the inclined cam is formed with a projection having a predetermined thickness protruding in three directions, the small air pump, characterized in that the insertion hole of the insertion projection of the diaphragm is formed in the central portion of the projection. 3. The method according to claim 1 or 2,
The discharge valve is made of a spherical disc-shaped closing plate, the pressing rib is formed radially on the upper portion of the sealing plate, the small air pump, characterized in that the fixing hole is formed in the center of the pressing rib. 3. The method according to claim 1 or 2,
The valve base has a discharge hole is formed, the small air pump, characterized in that a plurality of second fixing grooves are formed along the edge. 3. The method according to claim 1 or 2,
The diaphragm has a catch portion formed at an upper portion thereof, and the catch portion is connected to the body using a bent portion, a recess is formed at the upper portion of the body, and an insertion protrusion is formed at the lower portion of the body.

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