KR200451159Y1 - Ultrasonic Spray Which has a Pressure Buffer - Google Patents

Abstract

The present invention relates to a nebulizer for spraying a solution contained in a container, and more particularly, the solution is sprayed by the pressure pulled by the finger, the sprayed solution is atomized into fine particles while passing through the metal vibrating part to spray the solution The present invention relates to an ultrasonic nebulizer equipped with a pressure buffer for buffering the pressure so that the pressure applied to the ejected solution is even.
Ultrasonic nebulizer equipped with a pressure buffer according to the present invention and a solution reservoir for receiving a solution for spraying 141; An ultrasonic vibrator 301 which vibrates by ultrasonic waves; It is coupled to the ultrasonic vibrator 301, there are formed a plurality of fine micropaths 201 in the resin direction in the longitudinal direction so that the solution can pass, and when the solution passes through the micropath 201, the ultrasonic vibrator ( A metal vibration part 111 for atomizing the solution into fine particles by vibration of 301; It is made in the 'b' shape, the top of the inside is formed with a spray through hole 157 through the front and rear direction, the spray through hole 157 is accommodated in the metal vibrating portion 111 is the spray A main body 101 which discharges a finely atomized solution to the front surface of the through part 157 and has a solution storage part 141 coupled to a lower end thereof; It is attached to the rear of the spray through hole 157 formed in the main body 101, the outside air is sucked into the spray through hole 157 to suck the air discharged to the front of the spray through hole 157 A blowing fan 105; A fan motor 107 for rotating the blowing fan 105; A solution filter 135 which prevents inflow of mixed debris into the solution when the solution is sprayed; A solution suction stand 137 connected to the bottom of the solution filter 135 and standing vertically inside the solution reservoir 141; A solution sensor 115 which is perforated inside and senses whether there is a solution therein; A solution pump 153 for discharging the solution by the pressing force of a finger; It is formed in a 'T' shape and is connected to the solution pump 153 on one side of the 'T', the lower end of the 'T' is connected to the solution reservoir 141, the upper end of the 'T' The first connection pipe 151 is connected to the lower end of the solution sensor 115; The inside is through, the upper side is connected to the solution inlet 302 of the metal vibrating unit 111, the lower one side is connected to the solution sensor 115 and the second connector (149); One side of the main body 101 is mounted to protrude downward obliquely in the form of a trigger, the pressing shaft 123 for pressing the solution pump 153 is connected in the middle, the upper body of the main body 101 A first push knob 127 which is pivotally fixed to the lower end; The second push knob 127 is provided on the outside of the first push knob 127 and is mounted at an angle similar to that of the first push knob 127 so that an upper side thereof is pivotally fixed to one side of the main body 101. 129); It is provided on the outside of the first push knob 127, when the second push knob 129 is pulled by a finger is pressed by the second push knob 129, the switch is turned on so that the ultrasonic vibrator 301 A push switch 131 for actuating; It is provided between the first push handle 127 and the second push handle 129, and if not pulled with a finger, the second push handle 129 maintains a predetermined distance from the first push handle 129 A first spring 132 to turn off the push switch 131; An ultrasonic vibrator driver 503 for driving the ultrasonic vibrator 301; A fan motor driver 509 for driving the fan motor 107; A control unit 501 for reading the state of the push switch 131 and driving the ultrasonic vibrator driver 503 and the fan motor driver 509; And a memory 507 in which the control program of the controller 501 is stored.
Ultrasonic nebulizer equipped with a pressure buffer according to the present invention made as described above is convenient to adjust the amount of spraying sensibly by adjusting the force to pull the finger while looking at the situation at that time, and the pressure due to the imbalance of the force to pull the finger The strength of the buffer can be buffered, so that the solution is evenly sprayed, and the air is sucked out by the blower fan, so that the spraying effect can be maximized.

Description

Ultrasonic nebulizer with pressure buffer {Ultrasonic Spray Which has a Pressure Buffer}

The present invention relates to a nebulizer for spraying a solution contained in a container, and more particularly, the solution is sprayed by the pressure pulled by the finger, the sprayed solution is atomized into fine particles while passing through the metal vibrating part to spray the solution The present invention relates to an ultrasonic nebulizer equipped with a pressure buffer for buffering the pressure so that the pressure applied to the ejected solution is even.

The ultrasonic vibrator used in the ultrasonic nebulizer uses a piezoelectric element that converts electrical energy into mechanical vibration. The piezoelectric element, which is an oscillating element that generates ultrasonic waves, has a structure in which a metal vibrating part is joined to the ultrasonic vibration applied to a solution. This causes the solution to atomize to a fine size and to be sprayed into the air. The ultrasonic vibrator is used for a humidifier for dividing the solution into fine molecules using fine ultrasonic vibrations and generating water fog.

Conventional nebulizers according to the prior art use a method of spraying using a high pressure, but the nebulizer sprayed by pressure is uneven because the size of the solution particles is uneven, there is a problem that the size of the sprayed solution particles is very large have. In addition, since the spray is sprayed by the pressure injected from the nozzle at a high speed, there is another problem that the waste of the drug is severe when applying expensive medicines and the like because it is possible only to have a flow rate of a certain speed or more. Therefore, the ultrasonic nebulizer has been proposed to apply the particles evenly and finely, and the ultrasonic nebulizer according to the prior art has to be freely and sensibly adjusted to the spray intensity at that time while looking at a position to apply a solution such as a dye. There is a problem that it is inconvenient, and when manually adjusting the pressure there is another problem that the pressure strength is uneven, there is a need for improvement.

Ultrasonic nebulizer equipped with a pressure buffer according to the present invention for solving the above problems is provided with a pressure buffer so that the pressure intensity is even, while allowing the finger to sensibly adjust the amount and intensity of the solution to be sprayed manually. The purpose of the present invention is to provide an ultrasonic nebulizer in which the driving of the ultrasonic vibrator is stopped when the ultrasonic vibrator is not protected.

Ultrasonic nebulizer equipped with a pressure buffer according to the present invention for achieving the above object and a solution reservoir for receiving a solution for spraying (141); An ultrasonic vibrator 301 which vibrates by ultrasonic waves; It is coupled to the ultrasonic vibrator 301, there are formed a plurality of fine micropaths 201 in the resin direction in the longitudinal direction so that the solution can pass, and when the solution passes through the micropath 201, the ultrasonic vibrator ( A metal vibration part 111 for atomizing the solution into fine particles by vibration of 301; It is made in the 'b' shape, the top of the inside is formed with a spray through hole 157 through the front and rear direction, the spray through hole 157 is accommodated in the metal vibrating portion 111 is the spray A main body 101 which discharges a finely atomized solution to the front surface of the through part 157 and has a solution storage part 141 coupled to a lower end thereof; It is attached to the rear of the spray through hole 157 formed in the main body 101, the outside air is sucked into the spray through hole 157 to suck the air discharged to the front of the spray through hole 157 A blowing fan 105; A fan motor 107 for rotating the blowing fan 105; A solution filter 135 which prevents inflow of mixed debris into the solution when the solution is sprayed; A solution suction stand 137 connected to the bottom of the solution filter 135 and standing vertically inside the solution reservoir 141; A solution sensor 115 which is perforated inside and senses whether there is a solution therein; A solution pump 153 for discharging the solution by the pressing force of a finger; It is formed in a 'T' shape and is connected to the solution pump 153 on one side of the 'T', the lower end of the 'T' is connected to the solution reservoir 141, the upper end of the 'T' The first connection pipe 151 is connected to the lower end of the solution sensor 115; The inside is through, the upper side is connected to the solution inlet 302 of the metal vibrating unit 111, the lower one side is connected to the solution sensor 115 and the second connector (149); One side of the main body 101 is mounted to protrude downward obliquely in the form of a trigger, the pressing shaft 123 for pressing the solution pump 153 is connected in the middle, the upper body of the main body 101 A first push knob 127 which is pivotally fixed to the lower end; The second push knob 127 is provided on the outside of the first push knob 127 and is mounted at an angle similar to that of the first push knob 127 so that an upper side thereof is pivotally fixed to one side of the main body 101. 129); It is provided on the outside of the first push knob 127, when the second push knob 129 is pulled by a finger is pressed by the second push knob 129, the switch is turned on so that the ultrasonic vibrator 301 A push switch 131 for actuating; It is provided between the first push handle 127 and the second push handle 129, and if not pulled with a finger, the second push handle 129 maintains a predetermined distance from the first push handle 129 A first spring 132 to turn off the push switch 131; An ultrasonic vibrator driver 503 for driving the ultrasonic vibrator 301; A fan motor driver 509 for driving the fan motor 107; A control unit 501 for reading the state of the push switch 131 and driving the ultrasonic vibrator driver 503 and the fan motor driver 509; And a memory 507 in which the control program of the controller 501 is stored.

Ultrasonic nebulizer equipped with a pressure buffer according to the present invention made as described above is convenient to adjust the amount of spraying sensibly by adjusting the force of pulling the finger while watching the situation at that time, and the pressure due to the imbalance of the force of pulling the finger The strength of the buffer can be buffered, so that the solution is evenly sprayed, and the air is sucked out by the blower fan, so that the spraying effect can be maximized.

1 is a cross-sectional view of the ultrasonic nebulizer equipped with a pressure buffer according to the present invention,
2 is a front view of the metal vibrating unit,
3 is a side cross-sectional view of the metal vibrating unit,
4 is a cross-sectional view of the first blocked bead site and the second blocked bead site;
5 is a block circuit diagram,
6 is a cross-sectional view of the solution pump.

Hereinafter, an embodiment of an ultrasonic nebulizer equipped with a pressure buffer according to the present invention will be described in detail with reference to the accompanying drawings.

Ultrasonic nebulizer equipped with a pressure buffer according to the present invention and a solution reservoir for receiving a solution for spraying 141; An ultrasonic vibrator 301 which vibrates by ultrasonic waves; It is coupled to the ultrasonic vibrator 301, there are formed a plurality of fine micropaths 201 in the resin direction in the longitudinal direction so that the solution can pass, and when the solution passes through the micropath 201, the ultrasonic vibrator ( A metal vibration part 111 for atomizing the solution into fine particles by vibration of 301; It is made in the 'b' shape, the top of the inside is formed with a spray through hole 157 through the front and rear direction, the spray through hole 157 is accommodated in the metal vibrating portion 111 is the spray A main body 101 which discharges a finely atomized solution to the front surface of the through part 157 and has a solution storage part 141 coupled to a lower end thereof; It is attached to the rear of the spray through hole 157 formed in the main body 101, the outside air is sucked into the spray through hole 157 to suck the air discharged to the front of the spray through hole 157 A blowing fan 105; A fan motor 107 for rotating the blowing fan 105; A solution filter 135 which prevents inflow of mixed debris into the solution when the solution is sprayed; A solution suction stand 137 connected to the bottom of the solution filter 135 and standing vertically inside the solution reservoir 141; A solution sensor 115 which is perforated inside and senses whether there is a solution therein; A solution pump 153 for discharging the solution by the pressing force of a finger; It is formed in a 'T' shape and is connected to the solution pump 153 on one side of the 'T', the lower end of the 'T' is connected to the solution reservoir 141, the upper end of the 'T' The first connection pipe 151 is connected to the lower end of the solution sensor 115; The inside is through, the upper side is connected to the solution inlet 302 of the metal vibrating unit 111, the lower one side is connected to the solution sensor 115 and the second connector (149); One side of the main body 101 is mounted to protrude downward obliquely in the form of a trigger, the pressing shaft 123 for pressing the solution pump 153 is connected in the middle, the upper body of the main body 101 A first push knob 127 which is pivotally fixed to the lower end; The second push knob 127 is provided on the outside of the first push knob 127 and is mounted at an angle similar to that of the first push knob 127 so that an upper side thereof is pivotally fixed to one side of the main body 101. 129); It is provided on the outside of the first push knob 127, when the second push knob 129 is pulled by a finger is pressed by the second push knob 129, the switch is turned on so that the ultrasonic vibrator 301 A push switch 131 for actuating; It is provided between the first push handle 127 and the second push handle 129, and if not pulled with a finger, the second push handle 129 maintains a predetermined distance from the first push handle 129 A first spring 132 to turn off the push switch 131; An ultrasonic vibrator driver 503 for driving the ultrasonic vibrator 301; A fan motor driver 509 for driving the fan motor 107; A control unit 501 for reading the state of the push switch 131 and driving the ultrasonic vibrator driver 503 and the fan motor driver 509; And a memory 507 in which the control program of the controller 501 is stored.

In addition, the ultrasonic nebulizer equipped with a pressure buffer according to the present invention is provided with a first coupling part 145 to which the lower end of the solution suction table 137 and the first connecting pipe 151 are coupled, and the first The inside of the coupling portion 145 is larger than the inner diameter of the solution suction table 137 through the hole is made of a spherical shape, by pulling the second push knob 129 and the first push knob 127 with a finger to the solution pump When 153 causes the solution to be discharged, the solution suction stand 137 is blocked to prevent the solution from returning back to the solution reservoir 141, and the second push knob 129 and the first push knob ( When the solution pump 153 returns by releasing 127, a first blocking bead 113 is provided to open the hole of the solution suction stand 137 to suck up the solution from the solution reservoir 141. , The solution sensor 115 and the second connection A second coupling part 147 is provided to which the lower end of the pipe 149 is coupled, and the solution pump 153 sucks the solution from the solution reservoir 141 inside the second coupling part 147. When raised, it is larger than the inner diameter of the solution sensor 115 so that the air is sucked in the second connecting pipe 149 and the suction force is not reduced, it is made of a spherical shape, the second push knob 129 and the first by a finger It opens when the push knob 127 is pulled, and when it is pulled and released, the solution pump 153 returns, and prevents the lower end of the solution sensor 115 from being able to suck up the solution from the solution reservoir 141. 2 clogging beads (117); further comprises.

In addition, one side of the second connecting pipe 149 of the ultrasonic nebulizer equipped with a pressure buffer according to the present invention is to be temporarily discharged from the solution pump 153 by the solution discharged from the solution pump 153 It is further provided with a pressure buffer unit 109 that is a predetermined size or more so as to equalize the pressure of the solution, and the entire portion of the portion except for the portion connected to the second connecting pipe 149 through the connection is sealed.

In addition, the solution pump 153 of the ultrasonic nebulizer equipped with a pressure buffer according to the present invention is a through-hole in the form of a pipe, one side of the solution pump body 601 is connected to the first connecting pipe; A compression plate 119 accommodated in the solution pump main body 601 and configured to pressurize the solution by reciprocating motion or generate suction force in the solution; A push shaft 123 for pushing or pulling the compression plate 119; A second spring 121 which pulls up when the pressing shaft 123 is pressed to accumulate restoring force; When the second spring 121 is pressed by the pressing of the pressing shaft 123, a second spring to fix one side of the second spring 121 so that the second spring 121 is not pushed A blocking plate 605 is formed.

In addition, the ultrasonic nebulizer having a pressure buffer according to the present invention is characterized in that the main body 101 and the solution reservoir 141 is coupled by screw coupling,

1, 2, and 3, the solution reservoir 141 of the ultrasonic nebulizer equipped with a pressure buffer according to the present invention accommodates the solution. The solution reservoir 141 is coupled to the lower end of the main body 101 in the form of a screw, the main body 101 is made of a 'b' shape, the inside of the top is spray opening 157 is formed in the horizontal direction .

The spray through-hole 157 of the main body 101 is provided with an ultrasonic vibrator 301 for generating ultrasonic waves by vibrating by ultrasonic waves, and the ultrasonic vibrator 301 has a plurality of resinous resins in the longitudinal direction so that a solution can pass therein. Two fine micro passages (see FIG. 2, 201) are formed, and the metal body vibrating unit causes the solution to be atomized into fine particles by vibration of the ultrasonic vibrator (see FIG. 3, 301) when the solution passes through the micro passage 201. 111 is screwed to the ultrasonic vibrator 301.

The rear side of the spray through hole 157 formed in the main body 101 is blown fan 105 to suck the outside air into the spray through hole 157 to discharge the sucked air to the front of the spray through hole 157 and A fan motor 107 for rotating the blowing fan 105 is attached to the main body 101.

In addition, the solution stored in the solution storage unit 141 is stored in the solution storage unit 141 is introduced into the solution pump 153 due to the suction force generated when the solution pump 153 is returned after compression. By the suction force, the solution suction table 137, which is perforated in the form of a tube, stands vertically in the solution reservoir 141 so that the solution flows into the solution pump 153. The solution raised along the solution suction table 137 is pushed by the solution pump 153 to be supplied to the metal vibrating unit 111. A solution filter 135 is attached to the lower end of the solution suction table 137 to prevent the incidence of mixed waste in the solution when the solution is sprayed. The upper portion of the solution suction table 137 has a 'T' shape and is provided with a first connecting pipe 151. One side of the first connecting pipe 151 having a 'T' shape is a solution pump 153. ), The lower end of the first connector 151 is connected to the solution reservoir 141, and the upper end of the 'T' is connected to the lower end of the solution sensor 115.

The upper end of the first connection pipe 151 is provided with a solution sensor 115 for detecting whether there is a solution therein, and if the solution is not detected by the solution sensor 115, the control unit 501 in the ultrasonic vibrator 301 The ultrasonic vibrator 301 is not driven for the protection.

A solution pump 153 is provided inside the main body 101 to discharge the solution by a pressing force of the finger. During compression, the solution contained in the cylinder 607 of the solution pump 153 is sprayed. At the time of relaxation, the stored solution of the solution reservoir 141 is sucked and stored in the cylinder 607.

The upper portion of the solution sensor 115 is through the inside, the upper one side is connected to the solution inlet 302 of the metal vibrating unit 111, the lower one side is connected to the solution sensor 115, the second connecting pipe 149 ) Is provided. The second connecting pipe 149 temporarily has a volume of a predetermined size or more to smoothly buffer the solution discharged from the solution pump 153 to maintain the pressure of the solution discharged from the solution pump 153 at a constant pressure. A pressure buffer unit 109 is provided in which the inside is vacant and all parts except the part connected to the second connecting pipe 149 through the second tube 149 are sealed.

On one side of the main body 101, the first push knob 127, which is in the form of a trigger, is mounted to protrude downward and obliquely to the side, and a solution pump 153 is disposed in the middle of the first push knob 127. The pressing push shaft 123 is connected, and the upper side is fixed to the lower end of the main body 101.

In addition, the second pressing handle 129 which is provided on the outside of the first pressing handle 127 and has the same shape as the first pressing handle 127 is doubled at an angle similar to that of the first pressing handle 127. It is fixed to the side surface of 101 by rotation. In addition, it is provided between the first push handle 127 and the second push handle 129, the push switch 131 is provided to be fixed to the outside of the first push handle 127, to spray the solution In order to pull the second push knob 129 with a finger, it is pressed by the second push knob 129 so that the push switch 131 is turned on, and the ultrasonic vibrator 301 is operated by turning on the push switch 131. do.

The first spring 132 is provided between the first push knob 127 and the second push knob 129, so that the second push knob 129 is removed when the second push knob 129 is not pulled by a finger. 1 to maintain a certain distance from the push knob 129 to the push switch 131 is Off.

Referring to FIG. 4, a first blocked bead 113 is provided at a coupling portion at which the lower end of the solution suction table 137 and the first connection pipe 151 are coupled to each other, and the first blocked bead 113 is apertured. It has a spherical shape larger than the inner diameter of the solution suction stand 137, and when the solution pump 153 discharges the solution by pulling the second push knob 129 and the first push knob 127 with a finger, the solution suction stand 137 ) To prevent the solution from returning back to the solution reservoir 141, and when the push shaft 123 of the solution pump 153 returns by releasing the second push knob 129 and the first push knob 127. To open the hole of the solution suction table 137 so that the solution can be sucked up from the solution reservoir 141.

Similarly, a second clogged bead 117 is provided at a coupling portion at which the lower end of the solution sensor 115 and the second connector 149 is coupled, and the solution pump 153 draws the solution from the solution reservoir 141. At the time of sucking up, air is sucked from the second connecting pipe 149 and has a spherical shape larger than the inner diameter of the solution sensor 115 so that suction force is not reduced. When the second push knob 129 and the first push knob 127 are pulled with a finger, they are opened, and when the push shaft 123 of the solution pump 153 returns, the solution reservoir 141 removes the solution. Closing the bottom hole of the solution sensor 115 to suck up.

Referring to FIG. 5, the controller 501 controls the ultrasonic vibrator driver 503 to drive the ultrasonic vibrator 301, and the controller 501 controls the ultrasonic vibrator 301 only when the push switch 131 is in an on state. ). The fan motor driver 509 drives the fan motor 107 under the control of the controller 501. The control program of the controller 501 is stored in the memory 507.

Referring to FIG. 6, the solution pump main body 601 of the solution pump 153 forms a cylinder 607 having a through-hole formed in a pipe shape, and one side of the solution pump 153 is connected to the first connector through the solution pump connection part 603. It is connected. Inside the solution pump main body 601, a compression plate 119 is built in which pressure is applied to the solution by reciprocating motion or generates suction force in the solution. One side of the compression plate 119 is connected to the pressing shaft 123 that pushes or pulls the compression plate 119, and when the pressing shaft 123 is pressed, the second spring 121 is compressed to restore the restoring force. In order for the restoring force to accumulate when the pressing shaft 123 presses the second spring 121, a second spring stopping plate 605 fixed to the inner wall of the solution pump main body 601 is provided to push the second spring 121. Do not enter.

101: main body, 103: handle,
105: blower fan, 107: fan motor,
109: pressure buffer, 111: metal body vibration,
113: first clogging beads, 115: solution sensor,
117: second clogging beads, 119: compression plate,
121: second spring, 123: pressing shaft,
125: push shaft fixing pin, 127: first push knob,
129: second push knob, 131: push switch,
132: first spring, 133: push knob fixing pin,
135: solution filter, 137: solution suction stand,
139: screw joint, 141: solution reservoir,
143 a solution, 145 a first binding site,
147: second coupling portion, 149: second connector,
151: first connector, 153: solution pump,
157: spray through hole, 201: fine passage,
301: ultrasonic vibrator, 302: solution inlet,
501: control unit, 503: ultrasonic vibrator drive unit,
507: memory, 509: fan motor drive unit,
601: solution pump body, 603: solution pump connection,
605: second spring blocking plate, 607: cylinder

Claims (4)

delete delete An ultrasonic nebulizer, comprising: a solution reservoir (141) for receiving a solution for spraying;
An ultrasonic vibrator 301 which vibrates by ultrasonic waves;
It is coupled to the ultrasonic vibrator 301, there are formed a plurality of fine micro-paths 201 made of resin in the longitudinal direction so that the solution can pass, the ultrasonic vibrator when the solution passes through the micro-path 201 A metal vibration part 111 which causes the solution to be atomized into fine particles by vibration of 301;
It is made in the 'b' shape, the top of the inside is formed with a spray through hole 157 through the front and rear direction, the spray through hole 157 is accommodated in the metal vibrating portion 111 is the spray A main body 101 which discharges a finely atomized solution to the front surface of the through part 157 and has a solution storage part 141 coupled to a lower end thereof;
It is attached to the rear of the spray through hole 157 formed in the main body 101, the outside air is sucked into the spray through hole 157 to suck the air discharged to the front of the spray through hole 157 A blowing fan 105;
A fan motor 107 for rotating the blowing fan 105;
A solution filter 135 which prevents inflow of mixed debris into the solution when the solution is sprayed;
A solution suction stand 137 connected to the bottom of the solution filter 135 and standing vertically inside the solution reservoir 141;
A solution sensor 115 which is perforated inside and senses whether there is a solution therein;
A solution pump 153 for discharging the solution by the pressing force of a finger;
It is formed in a 'T' shape and is connected to the solution pump 153 on one side of the 'T', the lower end of the 'T' is connected to the solution reservoir 141, the upper end of the 'T' The first connection pipe 151 is connected to the lower end of the solution sensor 115;
The inside is through, the upper side is connected to the solution inlet 302 of the metal vibrating unit 111, the lower one side is the second connecting pipe 149 to which the solution sensor 115 is connected;
One side of the main body 101 is mounted to protrude downward obliquely in the form of a trigger, the pressing shaft 123 for pressing the solution pump 153 is connected in the middle, the upper body of the main body 101 A first push knob 127 which is pivotally fixed to the lower end;
The second push knob 127 is provided on the outside of the first push knob 127 and is mounted at an angle similar to that of the first push knob 127 so that an upper side thereof is pivotally fixed to one side of the main body 101. 129);
It is provided on the outside of the first push knob 127, when the second push knob 129 is pulled by a finger is pressed by the second push knob 129, the switch is turned on so that the ultrasonic vibrator 301 A push switch 131 for actuating;
It is provided between the first push handle 127 and the second push handle 129, and if not pulled with a finger so that the second push handle 129 to maintain a predetermined distance from the first push handle 129 A first spring 132 to turn off the push switch 131;
An ultrasonic vibrator driver 503 for driving the ultrasonic vibrator 301;
A fan motor driver 509 for driving the fan motor 107;
A control unit 501 for reading the state of the push switch 131 and driving the ultrasonic vibrator driver 503 and the fan motor driver 509;
And a memory 507 in which a control program of the controller 501 is stored.
A first coupling part 145 is provided to which the lower end of the solution suction table 137 and the first connecting pipe 151 are coupled.
The inside of the first coupling portion 145 is larger than the inner diameter of the solution suction table 137 through the spherical shape, and pulls the second push handle 129 and the first push handle 127 with a finger. When the solution pump 153 causes the solution to be discharged, the solution suction stand 137 is blocked to prevent the solution from returning back to the solution reservoir 141, and the second push knob 129 and the first When the solution pump 153 is returned by releasing the push knob 127, the first clogging ball 113 for opening the hole of the solution suction stand 137 to suck up the solution from the solution reservoir 141 is provided. Equipped,
A second coupling part 147 is provided to which the lower end of the solution sensor 115 and the second connection pipe 149 is coupled.
When the solution pump 153 sucks the solution from the solution reservoir 141 inside the second coupling part 147, air is sucked from the second connecting pipe 149 so that the suction force is not reduced. It is larger than the inner diameter of the solution sensor 115 and has a spherical shape. When the second push knob 129 and the first push knob 127 are pulled by a finger, the solution pump 153 is opened when the pull is released. When the return is made, including the second clogged beads 117 to block the lower end of the solution sensor 115 to suck the solution from the solution reservoir 141,
One side of the second connecting pipe 149 allows the solution discharged from the solution pump 153 to temporarily buffer the pressure of the solution discharged from the solution pump 153 and the second connection. Ultrasonic nebulizer provided with a pressure buffer portion, characterized in that the pressure buffer portion 109 further comprises a closed portion of the tube 149, except for the portion connected to the through hole.
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