KR101981719B1 - Electromagnetic Air Pump - Google Patents

Abstract

The present invention relates to an electromagnetic air pump, and more particularly, A pair of electromagnetic force generating units fixed to the inside of the housing main body and made up of an iron core and a coil wound around the iron core and being spaced apart from each other to form a guide portion; A permanent magnet holder disposed between the pair of the electromagnetic force generating portions and made of a plastic material and provided with a permanent magnet reciprocating along the guide portion and the permanent magnet; A diaphragm assembly including a diaphragm installed at both longitudinal ends of the permanent magnet holder and having a fixing hole formed therein to support a periphery of the diaphragm while being fixed to the housing main body; A pump chamber unit in which the diaphragm is fixed to the diaphragm fixing unit, a suction valve and a discharge valve are provided at a portion opposed to the diaphragm, and a suction hole and a discharge hole are formed to communicate the inside of the diaphragm with the inside of the housing main body; And a pair of exhaust ports of the pump chamber unit, which are connected to the exhaust passage of the pump chamber unit, are formed on the surface of the housing body opposite to the opening of the housing body, And a distribution unit formed with a first connection hole and a second connection hole connected to the flow path and facing the inside of the housing main body, respectively, wherein the permanent magnet holder includes at least two openings And a cap member fixed to the holder body in a state of closing the open portion of the magnet pocket. Accordingly, since the permanent magnet inserted into the magnet pocket can be variously selected, The magnitude of the magnetic force can be freely adjusted.

Description

[0001] ELECTROMAGNETIC AIR PUMP [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic air pump. More particularly, the present invention relates to an electromagnetic air pump that is easy to control the flow rate and pressure.

An air pump is adopted to supply air from an aquarium, a septic tank, an air mat, and a medical massage pump, and various methods such as a piston type or an electromagnetic type can be adopted.

In the electromagnetic air pump, a permanent magnet is provided adjacent to the iron core so as to allow an AC electric current to flow through a coil wound around the iron core. The permanent magnet is vibrated by the changed AC electromagnetic force to operate the diaphragm made of rubber, And air is sucked and discharged from the air tank to which the flam is connected so that the air is forcedly supplied to the required portion. The representative prior art is as described in the prior arts below.

However, according to the conventional technique, since the method of installing the permanent magnet in the permanent magnet holder is simple bonding (bonding), it takes a long time until the adhesive hardens and the manufacturing time is prolonged, and when the permanent magnet is used for a long time, There is a problem that the peripheral parts are damaged when operated from the magnet holder.

Further, according to the related art, since the permanent magnet is attached by the bonding method, there is also a disadvantage that it is difficult to control the magnetic force once it is manufactured.

Also, conventionally, the permanent magnet and the permanent magnet holder are combined by an injection method, but there is also a problem that the magnetic force of the permanent magnet is lost due to the high temperature during the injection operation.

Patent Registration No. 10-0413810 (Dec. 19, 2003)

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electromagnetic air pump capable of easily controlling flow rate and pressure as needed.

In order to achieve the above object, an electromagnetic air pump according to the present invention comprises:

A housing main body having an opening formed at an upper portion thereof;

A pair of electromagnetic force generating units fixed to the inside of the housing main body and made up of an iron core and a coil wound around the iron core and being spaced apart from each other to form a guide portion;

A permanent magnet holder disposed between the pair of the electromagnetic force generating portions and made of a plastic material and provided with a permanent magnet reciprocating along the guide portion and the permanent magnet;

A diaphragm assembly including a diaphragm installed at both longitudinal ends of the permanent magnet holder and having a fixing hole formed therein to support a periphery of the diaphragm while being fixed to the housing main body;

The diaphragm is fixed to the diaphragm fixing part and a fluid space is formed in which a portion of the diaphragm opposite to the diaphragm is sucked and exhausted, and the flow space and the inside of the housing main body are connected through a suction valve and a discharge valve A pump chamber unit having a suction hole and a discharge hole communicating therewith; And

And a pair of first and second openings communicating with the outlet and connected to the discharge hole of the pump chamber unit are formed on a surface of the housing body opposite to the opening of the housing body, And a distribution unit connected to the inlet and formed with a second connection hole facing the inside of the housing main body,

The permanent magnet holder includes a holder body having two or more magnet pockets formed at one side thereof with an opening formed therein to receive the permanent magnet, and a cap member fixed to the holder body in a state of closing the opening of the magnet pocket .

The diaphragm assembly comprising:

A screw member protruding in the longitudinal direction from both ends of the permanent magnet holder;

A first engaging piece protruding from a first engaging protrusion formed on one end of the permanent magnet holder and protruding from a second engaging protrusion formed on the other surface of the first engaging piece;

A diaphragm made of a rubber material having a first through hole through which the screw member and the second engaging projection penetrate;

A second engaging piece formed with a second fitting hole through which the screw member penetrates and having a first fitting hole into which the second engaging protrusion is fitted; And

A metal washer having a second through-hole through which the screw member passes; And

And a nut located at one side of the metal washer and screwed to the screw member.

One end of the permanent magnet holder is formed to have a rectangular cross section, and the first locking protrusions are spaced apart from each other at the upper and lower portions with respect to the screw member so as to be caught by opposite sides of the rectangle.

And a magnetic substance is applied to the inner side surface of the first locking protrusion.

And a plurality of second locking protrusions formed at the first locking piece are formed at equal intervals along the circumferential direction about the first installation hole.

Wherein a plurality of radially extending fixing grooves are formed at regular intervals in the circumferential direction of the fixing hole of the diaphragm fixing portion, a plurality of third locking protrusions are formed around the diaphragm, And the surface of the diaphragm fixing part facing the pump chamber unit is disposed on the same plane as the surface of the diaphragm.

A fourth engaging projection is formed on one side of the second engaging piece formed on the opposite side of the permanent magnet and a second engaging hole is formed on one side of the metal washer in contact with the second engaging piece to engage with the fourth engaging projection .

The metal washer is provided with two or more laminated layers, and protrusions and grooves that are mutually fixedly engaged with each other are formed on the contact surfaces of adjacent metal washers in a complementary manner.

In the pump chamber unit, a suction space and a discharge space are formed on the opposite side of the flow space with a suction valve and a discharge valve interposed therebetween. The suction space and the discharge space are formed in a state separated by a partition, The suction hole is connected to the discharge hole and the discharge hole is connected to the discharge space.

A coupling opening is formed in the suction space and a surface opposite to the diaphragm of the discharge space, and a sealing panel made of a rubber material is hermetically coupled to the coupling opening.

According to the present invention as described above, the permanent magnet holder comprises: a holder body having two or more magnet pockets formed at one side thereof with an opening formed therein for receiving the permanent magnet; Since the holder body and the cap member can be detachably coupled by a fastening member such as a screw or bolt, various permanent magnets to be inserted into the magnet pocket can be selected, The magnitude of the magnetic force can be freely adjusted.

Further, according to the present invention, since the electromagnetic air pump is constructed as a prefabricated type, it can be used immediately after the coupling, and the permanent magnet and the permanent magnet holder can be coupled through simple assembling, thereby preventing the magnetic force of the permanent magnet from being lost during manufacturing can do.

According to the present invention, one end of the permanent magnet holder is formed to have a rectangular cross section, and the first engaging protrusions are spaced apart from each other at the upper and lower portions with respect to the screw member so as to be caught by opposite sides of the rectangle, And the permanent magnet holder are firmly fixed to each other without shaking.

Further, when the magnetic substance is applied to the inner surface of the first locking protrusion, the first locking piece is firmly engaged with the permanent magnet holder by the magnetic force of the permanent magnet, so that there is no shaking when the permanent magnet and the permanent magnet holder reciprocate.

Further, according to the present invention, a plurality of radially extending fixing grooves are formed at even intervals in the circumferential direction of the fixing hole of the diaphragm fixing portion, and a plurality of third locking projections are formed around the diaphragm, And the diaphragm fixing portion is disposed on the same plane as the surface of the diaphragm so that when the permanent magnet reciprocates, the diaphragm moves in the circumferential direction around the screw member or is damaged by shaking And the flange around the flow space of the pump chamber unit and the diaphragm and the diaphragm fixing part can be engaged without a gap, so that leakage of air can be surely prevented.

A fourth engaging projection is formed on one side of the second engaging piece formed on the opposite side of the permanent magnet and a second fitting hole is formed on one side of the metal washer in contact with the second engaging piece to engage with the fourth engaging projection , Rotation of the metallic washer relative to the second retaining piece is prevented when the permanent magnet reciprocates, thereby preventing wear and damage of the diaphragm by the metallic washer.

According to the present invention, the metal washer can be provided in two or more layers, and the fifth engaging protrusion and the engaging groove, which are mutually fixedly engaged with each other, can be formed in a complementary manner on the contact surfaces of the adjacent metallic washer. It can be easily adjusted and the relative rotational movement about the screw member can be prevented.

According to the present invention, since the fluid space and the suction and discharge spaces are formed integrally with each other with the suction valve and the discharge valve interposed therebetween, the pump chamber unit can be easily assembled to the housing and the diaphragm assembly.

According to the present invention, since the suction opening and the discharge space are formed with engagement openings on the opposite side of the diaphragm, and the sealing openings of the rubber material are hermetically coupled to the engagement openings, air in the suction space and the discharge space of the pump room unit When the air is sucked and discharged, the sealing panel is elastically deformed so that more smooth air supply can be induced.

1 is a perspective view showing an electromagnetic air pump according to the present invention.
2 is a partially exploded perspective view showing an electromagnetic air pump according to the present invention.
3 is an overall exploded perspective view showing an electromagnetic air pump according to the present invention.
Figure 4 is an exploded perspective view of some of the major components in Figure 3;
5 is a longitudinal sectional view showing an electromagnetic air pump according to the present invention.

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

1 to 5, an electromagnetic air pump 1000 according to the present invention includes: a housing body 100 having an opening 110 formed therein; A pair of electromagnets (not shown) which are fixed to the inside of the housing main body 100 and are formed of iron cores 210 and coils 220 wound around the iron cores 210, A generating unit 200; A permanent magnet holder 400 of a plastic material provided between the pair of the electromagnetic force generators 200 and reciprocating along the guide portion 230 and the permanent magnet 300; The diaphragm 510 is installed at both longitudinal ends of the permanent magnet holder 400 and has a fixing hole 521 for supporting the diaphragm 510 in a state of being fixed to the housing main body 100, A diaphragm assembly (500) including a diaphragm fixing part (520); The diaphragm 510 is fixed to the diaphragm fixing part 520 and a fluid space 650 through which air is sucked and discharged is formed at a portion opposed to the diaphragm 510. A suction valve 610 A pump chamber unit 600 having a suction hole 630 and a discharge hole 640 for communicating the flow space 650 with the interior of the housing body 100 through a discharge valve 620; And an inlet 710 and an outlet 720 are formed to connect the flow path and the outside of the housing 100. A surface of the housing main body 100 facing the opening 110 A pair of first connection holes 730 connected to the outlet 720 and connected to the discharge hole 640 of the pump chamber unit 600 and a pair of first connection holes 730 connected to the inlet 710, And a distribution unit 700 in which second connection holes 740 are formed to face each other.

2 to 4, since the coil 220 is connected to an AC power source (not shown) through a lead wire 250, alternating electromagnetic force is generated when the AC power is supplied by the AC power source, 300 and the permanent magnet holder 400 are reciprocated through the guide portion 230 so that the diaphragm 510 installed in the permanent magnet holder 400 is reciprocated inside the pump chamber unit 600 And the external air is supplied to the aquarium, the septic tank, and the like through the suction valve 610 and the discharge valve 620 while expanding and contracting the flow space 650.

The permanent magnet holder 400 includes a holder body 410 having two or more magnet pockets 411 formed at one side thereof to receive the permanent magnet 300 and an opening portion of the magnet pocket 410, And a cap member 420 fixed to the holder body 410 in a closed state.

The holder body 410 and the cap member 420 may be coupled to each other by a fastening member 430 such as a screw or a bolt.

According to this configuration, since the permanent magnet 300 to be inserted into the magnet pocket 411 can be variously selected, the magnitude of the magnetic force can be freely adjusted according to the use place.

That is, since the permanent magnet 300 can be separated from the magnet pocket 411, the air pump used in any one of the applications can be replaced with the permanent magnet 300 having a different magnetic force, and then used in other applications.

In addition, the permanent magnet 300 can be coupled to only a part of the plurality of the magnet pockets 411, so that the strength of the magnet can be easily adjusted.

As the magnetic force of the permanent magnet 300 is stronger, the flow rate and the pressure become larger as the deformation of the diaphragm 510 increases.

Further, in the bonding method according to the related art, it is difficult to directly use the air pump because the adhesive is hardened immediately, while the electromagnetic air pump according to the present invention is configured as a prefabricated type so that it can be used immediately after the bonding.

 Also, since the permanent magnet and the permanent magnet holder can be coupled through the simple assembly, the magnetic force of the permanent magnet can be prevented from being lost during manufacturing.

4, the diaphragm assembly 500 includes a first retaining piece 540, a diaphragm 510 made of a rubber material, a second retaining piece 550, and a metallic washer 560, And are sequentially connected to the screw member 530 from both ends of the magnet holder 400. [

A first installation hole 541 through which the screw member 530 passes is formed on the first retaining member 540 and a second installation hole 542 is formed on a surface of the first retaining member 540, And a second locking protrusion 543 protrudes from the other surface of the first locking protrusion 542.

The diaphragm 510 is formed with a first through hole 511 through which the screw member 530 and the second engaging protrusion 543 pass.

A second fitting hole 551 through which the screw member 530 passes is formed in the second fitting part 550 and a first fitting hole 552 through which the second fitting protrusion 543 is fitted is formed.

The metal washer 560 is formed with a second through hole 561 through which the screw member 530 passes.

Since the nut 570 is screwed to one side of the metal washer 560 from the end of the screw member 530, the first latching piece 540, the rubber diaphragm 510, 2 engaging piece 550 and the metal washer 560 can be easily separated.

With this configuration, since the weight of the metal washer 560 can be freely adjusted, it is possible to adjust the flow rate and the suction and discharge pressures.

As the metal washer 560 is heavier, the deformation of the diaphragm 510 due to the inertia increases, so that the flow rate and the pressure become larger.

One end of the permanent magnet holder 400 has a rectangular cross section. The first locking protrusions 542 are spaced apart from each other at the upper and lower sides of the screw member 530 so as to be caught by opposite sides of the rectangle, Respectively.

Therefore, even when the permanent magnet 300 and the permanent magnet holder 400 are reciprocated, the first engaging piece 540 does not come off or shake from the permanent magnet holder 400.

Particularly, a magnetic material 542a is applied to the inner surface of the first locking protrusion 542 so that the first locking protrusion 542 is firmly coupled to the permanent magnet holder 400 by the magnetic force of the permanent magnet 300 So that the permanent magnet 300 and the permanent magnet holder 400 are firmly fixed without being shaken during reciprocal movement.

A plurality of second locking protrusions 543 are formed at equal intervals around the first installation hole 541 in the circumferential direction of the first locking piece 540, It is preferable that the bonding force of the adhesive is uniformly dispersed.

A plurality of radially extending fixing grooves 522 are formed at equal intervals in the circumferential direction of the fixing hole 521 of the diaphragm fixing part 520. A plurality of fixing grooves 522 are formed around the diaphragm 510, A plurality of third locking protrusions 512 to be fitted in the grooves 522 are formed so that the surface of the diaphragm fixing part 520 on the pump chamber unit 600 side is flush with the surface of the diaphragm 510 .

With this configuration, it is possible to reliably prevent the diaphragm 510 from being damaged by moving or shaking in the circumferential direction around the screw member 530 when the permanent magnet 300 reciprocates.

In addition, since the flange around the flow space 650 of the pump chamber unit 600 and the diaphragm 510 and the diaphragm fixing part 520 can be engaged without any gap, leakage of air can be reliably prevented.

A fourth locking protrusion 553 is formed on one side of the second locking piece 550 formed on the opposite side of the permanent magnet 300 and the metal washer 560 contacting the second locking piece 550 The second fitting hole 564 may be formed in the fourth locking protrusion 553.

According to this configuration, when the permanent magnet 300 reciprocates, the rotation of the metallic washer 560 relative to the second retaining piece 550 is prevented, and the wear of the diaphragm 510 due to the metallic washer 560 Damage can be prevented.

In addition, the metal washer 560 may be provided in two or more layers, and protrusions and grooves (not shown) that are mutually fixedly coupled to the contact surfaces of the adjacent metal washers 560 may be formed in a complementary manner.

Accordingly, the weight of the metal washer 560 can be easily adjusted and the relative rotational movement about the screw member 530 can be prevented.

3 and 5, a fluid space 650 is formed in the pump chamber unit 600 and is closed by a diaphragm 510. A suction valve (not shown) The suction space 631 and the discharge space 641 are formed with the partition 610 and the discharge valve 620 interposed therebetween and the suction space 631 and the discharge space 641 are separated by the partition 670 The suction hole 630 is connected to the suction space 631 and the discharge hole 640 is connected to the discharge space 641.

Since the fluid space 650 and the suction and discharge spaces 631 and 641 are integrally formed with the suction valve 610 and the discharge valve 620 interposed therebetween, the pump chamber unit 600 can be separated from the housing body 100 It is easier to assemble into the frame assembly 500.

An engaging opening 680 is formed on a surface of the suction space 631 opposite to the diaphragm 510 of the discharge space 641 and a sealing panel 690 of rubber is hermetically coupled to the engaging opening 680 .

According to this configuration, when the air is sucked and discharged from the suction space 631 and the discharge space 641 of the pump room unit 600, the sealing panel 690 elastically deforms to induce more smooth air movement and supply can do.

That is, when the air is sucked in the suction space 631, the sealing panel 690 partially shrinks and partially expands from the discharge space 641 to allow air to flow elastically, Lt; / RTI >

Fig. 5 shows in detail the structure in which air is introduced and discharged from the electromagnetic air pump according to the present invention.

The air introduced into the inlet 710 of the distribution unit 700 is supplied into the interior of the housing body 100 through the second connection hole 740 and flows in accordance with the reciprocating movement of the diaphragm 510 And is introduced into the suction space 631 through the suction hole 630 of the pump chamber unit 600.

The air supplied to the flow space 650 through the suction valve 610 is then directed to the discharge space 641 through the discharge valve 620 and then through the discharge hole 640 1 connection hole 730 to the outlet 720 and pumped to a necessary place such as an aquarium or a septic tank.

It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention as defined by the appended claims.

100 ... housing body
200 ... Electromagnetic force generating unit
300 ... permanent magnet
400 ... permanent magnet holder
410 ... holder body
420 ... cap member
500 ... diaphragm assembly
510 ... diaphragm
520 ... diaphragm fixing portion
530 ... screw member
540 ... first latching piece
550 ... second latching piece
560 ... metal washer
570 ... nut
600 ... pump chamber unit
610 ... suction valve
620 ... discharge valve
630 ... suction ball
631 ... suction space
640 ... Exhaust ball
641 ... discharge space
650 ... fluid space
700 ... distribution unit
710 ... Inlet
720 ... outlet
730 ... first connection hole
740 ... second connection hole
1000 ... Electromagnetic air pump

Claims (8)

A housing main body having an opening formed at an upper portion thereof;
A pair of electromagnetic force generating units fixed to the inside of the housing main body and made up of an iron core and a coil wound around the iron core and being spaced apart from each other to form a guide portion;
A permanent magnet holder disposed between the pair of the electromagnetic force generating portions and made of a plastic material and provided with a permanent magnet reciprocating along the guide portion and the permanent magnet;
A diaphragm assembly including a diaphragm installed at both longitudinal ends of the permanent magnet holder and having a fixing hole formed therein to support a periphery of the diaphragm while being fixed to the housing main body;
The diaphragm is fixed to the diaphragm fixing part and a fluid space is formed in which a portion of the diaphragm opposite to the diaphragm is sucked and exhausted, and the flow space and the inside of the housing main body are connected through a suction valve and a discharge valve A pump chamber unit having a suction hole and a discharge hole communicating therewith; And
And a pair of first and second openings communicating with the outlet and connected to the discharge hole of the pump chamber unit are formed on a surface of the housing body opposite to the opening of the housing body, And a distribution unit connected to the inlet and formed with a second connection hole facing the inside of the housing main body,
The permanent magnet holder includes a holder body having two or more magnet pockets formed at one side thereof with an opening formed therein to receive the permanent magnet, and a cap member fixed to the holder body in a state of closing the opening of the magnet pocket In addition,
The diaphragm assembly comprising:
A screw member protruding in the longitudinal direction from both ends of the permanent magnet holder;
A first engaging piece protruding from a first engaging protrusion formed on one end of the permanent magnet holder and protruding from a second engaging protrusion formed on the other surface of the first engaging piece;
A diaphragm made of a rubber material having a first through hole through which the screw member and the second engaging projection penetrate;
A second engaging piece formed with a second fitting hole through which the screw member penetrates and having a first fitting hole into which the second engaging protrusion is fitted; And
A metal washer having a second through-hole through which the screw member passes; And
And a nut located at one side of the metallic washer and screwed to the screw member.
delete The method according to claim 1,
Wherein one end of the permanent magnet holder is formed to have a rectangular cross section and the first engaging protrusion is formed so as to be spaced apart from each other on the upper and lower sides with respect to the screw member so as to be caught by opposite sides of the rectangle, Pump.
The method of claim 3,
And a magnetic substance is applied to the inner side surface of the first locking protrusion.
The method according to claim 1,
Wherein a plurality of radially extending fixing grooves are formed at regular intervals in the circumferential direction of the fixing hole of the diaphragm fixing portion, a plurality of third locking protrusions are formed around the diaphragm, And the surface of the diaphragm fixing part facing the pump chamber unit is disposed on the same plane as the surface of the diaphragm.
6. The method of claim 5,
A fourth engaging projection is formed on one side of the second engaging piece formed on the opposite side of the permanent magnet and a second fitting hole is formed on one side of the metal washer in contact with the second engaging piece,
Wherein two or more metal washers are stacked, and protrusions and grooves that are mutually fixedly engaged with each other are formed on the contact surfaces of adjacent metal washers in a complementary manner.
7. The method according to any one of claims 1 to 6,
A suction space and a discharge space are formed in the pump chamber unit on the opposite side of the flow space with a suction valve and a discharge valve interposed therebetween and the suction space and the discharge space are formed in a state separated by a partition, Wherein the suction hole is connected and the discharge hole is connected to the discharge space.
8. The method of claim 7,
Wherein an engaging opening is formed in a surface of the suction space opposite to the diaphragm of the discharge space, and a sealing panel made of a rubber material is hermetically coupled to the engaging opening.

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