TW201128071A - Frequency variable circuit for changing operation mode of electromagnetic pump and electromagnetic pump - Google Patents

Abstract

The present invention provides a frequency variable circuit for changing operation mode of an electromagnetic pump and an electromagnetic pump having the frequency variable circuit. The frequency variable circuit at least includes an oscillation circuit unit, a dual stable state circuit unit, and a push-pull circuit unit. The oscillation circuit unit oscillates an input DC power source to a single-phase oscillation signal. The dual stable state circuit unit divides the single-phase oscillation signal into a N-phase excitation signal and a S-phase excitation signal. The push-pull circuit unit amplifies the N-phase excitation signal and a S-phase excitation signal, then output to the electromagnetic pump for being used, so a rocker arm of the electromagnetic pump can effectively swing. By adjusting the oscillation frequency of the oscillation circuit unit, the speed, numbers and oscillation width of the reciprocal swing in the time per se of the rocker arm of the electromagnetic pump can be changed, thereby increasing or decreasing the suction pressure and discharge pressure of the electromagnetic pump. The frequency variable circuit further includes an adjustment circuit unit for change the speed of the inward or outward unidirectional swing of the rocker arm, for controlling the suction pressure or the discharge pressure of the electromagnetic pump to be increased or decreased.

Description

201128071 VI. Description of the Invention: [Technical Field] The present invention provides an inverter circuit for changing an electromagnetic pump actuation mode and an electromagnetic pump provided with the same, in particular, a laser that can change the electromagnetic pump The arm unit _ reciprocating crane speed, the number of times, the swing width and the frequency conversion circuit for changing the electromagnetic pumping force I or the dust power, and the electromagnetic pump provided with the frequency conversion circuit. [First technology]

Please refer to 09 22 171 83 "Nasal cleaning spray treatment multi-function machine" (hereinafter referred to as the "f-know case"), the actual function of the conventional case can be poured into the nasal cavity (four), hiding from the nasal cavity, sprinkling nose The medicine-containing water mist is used for treating diseases of the nose and throat, and has a gas chamber structure and a rubber cap. The reciprocating contraction of the rubber cap allows the inlet end of the gas chamber to absorb gas, and the gas chamber is discharged at the π end (4). 'If a suction device is connected to the inlet end, it becomes a function of sucking the nose, or connecting an atomizer, it becomes a function of atomizing spray. · Of course, the power source used in the conventional case is Generally, the motor with the rotor can rotate the reciprocating displacement of the outer shaft of the motor at the same time when the rotor rotates. The rotation age--the distance between the Wei and the Weiwei is set to be faster. The faster the rotor of the motor rotates, the suction force or the discharge generated by the thief chamber. The greater the strength, the pressure generated by it is proportional to the flow rate. Since the first case is - Sweater Wei, it is not dangerous when it is sprayed, but it is absorbed in the nose. There will be too much suction and injury The shortcomings of the nasal cavity, or when used to clean the nasal cavity 201128071 with a cleaning solution, there will be excessive impulse and the power consumption of the nose is large, and the volume is large. The motor of this type is still hot and cannot be used for a long time. When the force is too large, it is easy to produce high-contact medical equipment, and the shortcomings are applied to the human body. The electric surface is ^ _ _ force source. Low, not easy to produce high heat, in and out of the tube::, low noise In the case of power consumption short circuit, based on the above 4;:: the power of electronic circuit and human body redeeming will not occur when plugging ^' (4) County Pu applied to Leli source, can be described as an excellent choice, ginseng Read 〇9 2 2 1 8 1 4 祙 尸 尸 尸 尸 尸 尸 尸 尸 尸 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁 电磁Specialized 2 gas is used to inflate the gas boring machine. It is applied for by the applicant in ^2 years. Please refer to No. 93〇7116 "The pumping chamber structure of the pumping and exhausting direction" 』(hereinafter referred to as the third custom case) = 09321731 No. 2 "Electric suction for easy cleaning" 』 (hereinafter referred to as the fourth custom case), the application of the electromagnetic pump is at this time, because of the continuous improvement of the creator, it has entered the era of gas and liquid use; please refer to Figure 1 for the electromagnetic pump 2 The power consumption characteristic of 0 must be supplied by alternating current, and its shaking #2 5 can reciprocate and swing, and it is limited by the power supply of households in the world, which is nothing more than a power supply of 1 10V or 220V, such as supplied by Taiwan. The power supply is a single-phase power supply of 1 〇V. The frequency of the voltage is fixed at 60 Hz. Therefore, when 交流v, 6 〇 Hz AC is used as the power source for electromagnetic pumping, it is limited by The electromagnet device 27 produces the magnetic field strength of 201128071, the length and width of the rocker arm 25, the magnetic strength of the magnet 26, and the elasticity of the rubber cap 24, etc., so that the electromagnetic pump is shaken. The swing speed of the arm 25, the number of swings per unit time, the swing size, etc. are constant and cannot be adjusted. As shown in Fig. 1, the rocker arm 25 swings to the swing width W4, the swing speed, and the swing per unit time. The number of times, after the electromagnetic pump 20 is shipped, it is kept constant Change, and the reciprocating swing speed, the number of times, and the swing amplitude of the rocker arm 25 affect the suction pressure, the suction flow rate, the discharge pressure, and the discharge flow rate of the electromagnetic pump 20, that is, due to the limitation of the aforementioned power supply conditions, the current electromagnetic Pump suction pressure, suction flow or discharge pressure, and discharge flow rate cannot be adjusted according to the pressure conditions and flow conditions of the required function. However, the use of composite medical equipment is the future trend. The liquid dual-purpose electromagnetic pump needs to be further improved, so that the suction pressure, the suction flow rate or the discharge pressure, and the discharge flow rate can be adjusted to an appropriate pressure and flow according to the required function. SUMMARY OF THE INVENTION Human body medical equipment such as a nasal suction device, a breast pump, a nasal washer, a sprayer, a washing machine, a tongue cleaner, etc., must have low power consumption, low power consumption, low noise, and small volume. It does not produce high heat, waterproof and other advantages. The creator is based on the experience of electromagnetic pumping for many years, painstaking research, continuous design improvement, and production of sample tests, after repeated tests, and then improved, and finally achieved The creation of the following creative purposes was born. 201128071 p, the main purpose of the month is to borrow - the frequency conversion circuit can convert the DC power to AC power, to supply to the electricity county Puzuo to use, and to change the frequency conversion circuit (4), so that the gas and liquid dual-use mt is sucking f When the emission operation is performed, it is necessary to adjust or switch the function mode such as the equal flow rate or the high flow rate or the low pressure flow. The secondary purpose of the present invention is to provide an N-phase or phase-to-phase modulation in the frequency conversion circuit, and to change the speed of the swing arm to the outside (the fourth) _ county Puzhi recording, or unilaterally accelerate the rocker arm The speed of swinging inward, and thus the electromagnetic (four) discharge, allows the electromagnetic pump to be able to absorb the force or discharge the luke according to the required demand. Another object of the present invention is to provide a 1^ phase modulation circuit and a -S phase f path in the frequency conversion circuit, and the (10) circuit can unilaterally accelerate the swinging speed of the rocker arm, thereby enhancing the power. County Puzhi suction house force 'The S phase modulation circuit system can unilaterally accelerate the swinging speed of the rocker arm, thereby enhancing the discharge pressure of the electromagnetic pump, by the N-phase modulation circuit and S phase modulation and transformation The setting of the road is made by the electromagnetic pump with the medical equipment of the composite Wei, which can be switched to adjust the suction pressure or discharge pressure of the electromagnetic pump. Another object of the present invention is to make the electromagnetic pump use a more selective power source, which includes a DC power supply provided by a battery, a cigarette lighter of a car, a transformer rectifier, and the like, so that the electromagnetic pump is used as a power source. Medical equipment can be selected for use in any location. 201128071 In order to achieve the above object, an improved feature of the present invention is that the frequency conversion circuit can oscillate a DC power source into an AC power supply for use in an electromagnetic pump, and the electromagnetic pump is disposed on the side of the electromagnetic pump. The other side is tied. The outer side of the I-seat of the pump base is provided with at least an elastically stretchable rubber middle eye, a rubber cap, and a rocker arm. The end of the rocker arm is disposed on the outer side of the fruit seat. - a magnet opposite to the electromagnet device and spaced from the door gap. The chest seat is divided into two chambers, one of which is in communication with one to several suction ports, and the other chamber is connected to the number of discharge ports Each of the air chambers and the opposite rubber caps are respectively provided with a backstop. The electromagnetic pump is reciprocally oscillated by the rocker arm, and the fluid can be sucked into the pump seat from the suction nozzle, and then discharged from the discharge nozzle; The circuit system comprises at least an oscillating unit circuit, a bistable unit circuit and a push-pull unit circuit, wherein the oscillating unit circuit can oscillate the input DC power supply into a single-phase oscillating signal, and the bistable unit circuit can be single The phase oscillation signal is phase-divided into a phase excitation signal and an s phase excitation signal, so that the magnetic poles of the magnetic poles on both sides of the electromagnet device and the magnetic properties of the intermediate magnetic poles are alternately switched by the Ν phase and the $ phase, and the magnets on the rocker arm are generated. Same sex, resentment, opposite sex Interaction, and driving the rocker arm to swing back and forth, the higher the oscillation frequency of the oscillating unit circuit is adjusted, the faster the Ν phase and S phase magnetic switching speed of the electromagnet device is, and the lower the oscillation frequency of the oscillating unit circuit is adjusted, The slower the speed of the S phase and S phase magnetic switching of the electromagnet device, the push-pull unit circuit can amplify the Ν phase excitation signal and an S phase excitation signal and then send it to the electromagnetic pump to make the electromagnetic pump 201128071 The swing arm can be effectively oscillated; the setting of the frequency conversion circuit can make the swing of the electromagnetic pump to reciprocate by the DC power supply, and by adjusting the oscillation frequency of the oscillating unit circuit, the electromagnetic pump can be changed. The swinging degree of the arm, the number of reciprocating swings per unit time, and the swing amplitude, thereby changing the suction pressure, the suction flow rate, the discharge pressure, and the discharge flow rate; the oscillating unit circuit can be connected to a knob or a button group, and can directly The knob or the button group activates and adjusts the oscillation frequency of the oscillating unit circuit; another embodiment of the frequency conversion circuit may further include a tone a unit circuit, the modulation unit circuit can generate a single-phase oscillation signal to mix with the N-phase excitation signal and the s-phase excitation signal generated by the bistable unit circuit to relatively increase the N-phase excitation signal and simultaneously cancel s The phase excitation signal, or relatively increase the s phase excitation signal and simultaneously cancel the N phase excitation signal, so as to increase the strength and speed of the rocker arm outward expansion, and relatively reduce the strength and speed of the rocker arm to contract inward, or increase the rocker arm The strength and speed of the inward contraction and the relative reduction of the strength and speed of the expansion of the rocker arm can only increase the pressure of the electromagnetic pump suction, and at the same time reduce the pressure of the discharge, or only increase the pressure of the electromagnetic pump discharge. And simultaneously reducing the pressure of the suction; the modulation unit circuit can be connected to a knob or a button group, and the modulation circuit can be directly activated and adjusted by the knob or the button group; The circuit has a -N phase modulation unit circuit and a -3 phase modulation unit circuit, and the accessory modulation unit circuit and the S phase modulation unit circuit are coupled together to a switching circuit. The switching circuit is connected to - press _ for convenience. · The input DC power supply of 201128071 to the inverter circuit includes the DC power supply supplied by the cigarette lighter on the car, or the DC power supply supplied by the battery, or the rectifier. DC power supply. [Embodiment] For a more detailed understanding of the present invention, a preferred embodiment of the present invention will be described in detail below.

The present embodiment is intended to be illustrative only, and the present invention is not limited thereto, and any improvement made by the technical features of the present invention is bound by the present invention. Referring to FIG. 2 to FIG. 6 , the operation principle of the electromagnetic pump 2 本 of the present embodiment is provided on the side of the electromagnet device 2 7 ' on the side thereof and the pump seat 2 is provided on the other side. 1. The outer sides of the pump base 2 have a stretchable elastic rubber napkin 2, and each of the rubber caps 4 4 is combined with a rocking mountain. The shaking ends are set at the end of the shaft. Outside the pump base 21, the end is coupled with a magnet 26 and a gap with the electromagnet device 27, and the fresh seat 21 is divided into two air chambers 2ΐι, 2ι“the gas to the 2 1 1 system and the two suctions The second pipe 2 is connected to the discharge pipe 23, and the first air chamber 211 is located at the upper part. The second air chamber 212 is located at the lower part. Please refer to the drawing.

4 and 5, when the electromagnet device _ 1 Z 7 is energized, the magnetic properties of the magnetic poles 2 7 1 on both sides and the magnetic poles of the intermediate magnetic poles 2 7 ^ ^ 系 are N phase and S are each other < On the other hand, the opposite side of the two magnets 6 is set to N 201128071. The inner side is set to the s phase. As shown in the figure, when the magnetic poles 2 7 of the electromagnet device 2 are switched to the s phase When the magnetic pole 14 of the middle magnetic pole 2 1 is switched to the N phase, the two magnets 26 are rejected by the N phase of the intermediate magnetic pole 2 7 2 of the electromagnet device 27 and simultaneously by the magnetic poles 2 7 1 The S phase is magnetized to drive the rocker arm 2 5 - to yaw outward; otherwise, as shown in Figure 5, when the magnetic poles of the magnetic poles 2 7 on both sides of the electromagnet device 27 are switched to the N phase, the middle magnetic pole The magnetic property of 2 7 2 is the s phase, and the two magnets 26 are magnetically attracted by the S phase of the intermediate magnetic pole 2 7 2 of the electromagnet device 27 and are simultaneously repelled by the magnetic poles 2 7 1 of both sides. Drive the rocker arm 2 5 - to the middle yaw, please continue to refer to Figure 3 to Figure 6. If the rocker arm 25 swings outward, it can drive the rubber cap 24 to extend outward, and is placed on the pump base 2 1 And the two of the two of the two A check valve 2 41 is in an open state (as shown in FIG. 4), so that the fluid can be taken from the suction nozzle 2 2 on the outer side of the pump housing 2 into the first air chamber 2 1 1 and then transferred into the two rubber caps 2 The fluid entering the two rubber caps 4 is restricted by the two second check valves 24 (the two second check valves 24 4 are closed) and cannot enter the first air chamber 2 1 2; when the two rocker arms 25 are biased toward the middle, the two rubber caps 24 are compressed, and the two second check valves 2 4 2 are opened. The first check valve 2 41 is closed. The fluid entering the two rubber caps 24 can only flow to the second air chamber 2丄2 without flowing back to the first air chamber 2 1 1 ' and the fluid flowing to the second air chamber 212 is transferred from the two The discharge nozzle 2 3 is discharged to the outside of the pump base 2 1 , and by such a design, the pump seat 201128071 2 1 can suck the fluid from the suction nozzle 2 2 end and discharge from the discharge nozzle 2 3 to achieve the function of transferring the fluid. In the present embodiment, the rocker arm 25, the rubber cap 24, and the like are provided with two groups of left and right, and may be set to only one group as needed, or the two rocker arms 25 are designed to be simultaneously in this embodiment. Going out The method of swinging in and out at the same time 'The two rocker arms 25 can be alternately alternated while swinging to the left and swinging to the right at the same time, and the flow system transmitted includes gas or liquid or gas and liquid mixing. body. Referring to FIG. 7 and FIG. 8 , the electromagnetic system of the present embodiment is coupled to a circuit board 2 8 , and the circuit board 28 is provided with a frequency conversion circuit 40 , and the frequency conversion circuit 4 includes a The step-down unit circuit 4 2, an oscillating unit circuit 433, a bistable unit circuit 4 4, a push-pull unit circuit 4 6; wherein the oscillating unit circuit 43 is a Schmitt oscillating circuit; The voltage unit circuit 42 is a DC power source that converts 1 2 V DC power input to the external DC power source 4 to 5 V for supply to the electronic components, and has a voltage regulator. The political effect of the eye is shown in Figure 20- to Twenty-three. The DC power can be supplied by a variable voltage rectifier 5 , or by a rechargeable battery 6 ' or by a car. The connection is provided by the special electric line 7 of the cigarette holder. The invention can be used in the home or in the car or in the suburbs. The oscillation unit circuit 43 can be a Schmidt unit oscillating electric ft 201128071 road. The system can oscillate the 12v DC power supply out of a single-phase oscillating signal by the time difference of charging and discharging, and change the charging and discharging time difference. Length and length, the mouth adjusts the frequency of the vibration. The oscillation frequency is between 4 3 η z and 6 6 Η ;; please refer to Figure 25 and 26, the electromagnetic chestnut 2 〇 and the circuit board 2 8 series can be stored in a body 3 ,, the oscillating unit circuit 43 can be connected to a button group 38 and the number of buttons 3 8 1 , 3 8 2 , 3 8 3 can be used to start and adjust the oscillating unit circuit 4 3 oscillation frequency; another 'please refer to Figure 27, the vibration unit circuit 43 can also use a knob 3 7 to start and adjust the oscillation frequency of the oscillation unit circuit 43; The steady-state unit circuit 4 4 separates the single-phase oscillation signal into a phase excitation signal and an S-phase excitation signal, so that the DC power source is converted into an AC power source, and the magnetic poles 2 71 on both sides of the electromagnet device 27 are The magnetic properties of the magnetic and intermediate magnetic poles 2 7 2 can be continuously switched to Phase or s phase, and the two magnets 26 generate the same-sex repulsive, opposite-sex interaction, while the rocker arm 25 continuously reciprocates to drive the corresponding rubber cap 24 to shrink; the push-pull unit circuit The 4 6 series can amplify the Ν phase excitation signal and the s phase excitation signal, so that the swing arm 2 of the electromagnetic system can effectively swing, thereby increasing the power of the electromagnetic pump 20 . Please refer to FIG. 9 to FIG. 11 again, and the oscillation frequency value of the Schmitt unit oscillating circuit 43 in the frequency conversion circuit 4 of the embodiment is adjusted to 201128071. The more the time, the N phase and the S of the electromagnet device 2 7 The faster the phase magnetic switching speed is, that is, the speed and the number of reciprocating oscillations of the rocker arm are increased in 25 units, and the swing width is reduced. As shown in Figure 9, please refer to Figure 12. As shown in the thirteenth, because the rocker arm 25 reciprocates and swings at a high speed, the number of times is 'i', the number of times the electromagnetic pumping 2 〇 is sucked up per unit time increases the pressure (negative pressure) of the suction greatly, and The width of each reciprocating swing of the arm is small, so the flow rate can be absorbed less each time. Similarly, the greater the force of the discharge, the smaller the discharge flow rate; when the oscillation frequency of the Schmidt vibrating circuit 4 3 is adjusted When reducing (4 3 Η z ), the speed of the magnetic phase switching between the Ν phase and the s phase of the electromagnet device 2 7 is slower, that is, the speed, the number of times, and the swing width of the reciprocating oscillation of the rocker arm for 25 units are reduced. Large, as shown in Figure 11 W3, the rocker arm 25 swing speed The decrease in the degree causes the suction pressure of the electromagnetic pump to drop 20, and the width of the reciprocating swing of the rocker arm 25 becomes larger. The flow rate of the electromagnetic pump 2 〇 is greatly increased, and the discharge pressure is also smaller, and the discharge is also reduced. The flow rate is also greatly increased, and so on. When the oscillation frequency of the Schmidt oscillation unit circuit 43 is centered (5 5 ΗΖ ), the speed of the reciprocating oscillation of the rocker arm for 25 units, the number of undershoots, and the swing The width is in the middle value, as shown in Fig. 10, W 2, at this time, the suction pressure and suction flow rate of the electromagnetic pump 2, the discharge pressure and the discharge system are in the state of medium pressure and medium flow; It can be found that the electromagnetic system Pu 2 〇 by adjusting the Schmitt oscillation unit circuit 4 3 the higher the oscillation frequency 'is that the electromagnetic pump 20 can exhibit high suction pressure, 201128071 low absorption of the heart, the butterfly cut Material element circuit. The lower the rate, the lower the absorption pressure and the higher the flow rate of the electric recording. The use of this electromagnetic exhibition is especially suitable for medical treatment. The second specific function 'such as in the nose ridge family, more than the nose (4), the Schmitt unit circuit 4 3 vibration _ rate will adjust it (four) low _ mode, that is, the low pressure high flow mode, the most suitable The needs of the patient, ^ for patients with runny nose or with a nose #, the vibration frequency must be adjusted to the frequency, that is, the mode of high pressure and low flow, in order to smoothly absorb nasal pus or nasal genus; 'If you help the nasal cavity cleaning device, you can also set the frequency tank to the lower one, so that the outflowing liquid breaks the force (4) and slows down, so that there will be no nasal or chronic patient H, which will make the financial sense insufficient. The frequency of the oscillation is difficult to be high in order, so that the liquid flowing out is a symbol. The $, in addition, if applied to the spray therapy device, the vibration frequency can be adjusted to the highest, so that the electromagnetic pump discharges the highest gas pressure, and the agent can be atomized to the most detailed effect for the body to absorb. Referring to FIG. 14 again, it is another embodiment of the frequency conversion circuit 4 of the present invention, which is provided with a phase modulation unit circuit 45 in the frequency conversion circuit 4 ,, the N phase modulation The unit circuit 45 can generate an N-phase oscillation signal, and the N-phase oscillation signal is mixed with the N-phase excitation signal and the s-phase excitation signal generated by the bistable unit circuit 44 to enhance the N-phase excitation signal and simultaneously Offset 3-phase excitation signal 201128071 'that' can unilaterally enhance the field strength of the 2 N phase of the electromagnet device, while offsetting the magnetic strength of the S phase, please refer to Figure 15 as shown in Figure 15 When the unit circuit 4 5 is changed, the magnetic properties of the magnetic poles 2 7 1 on both sides of the electromagnet device 2 7 are switched to the N phase, and the magnetic properties of the intermediate magnetic pole 2 72 are switched to the S phase. It is assumed that the N phase and the inner side surface are three phases, and the two magnets 26 are subjected to the electromagnet device 27, and the magnetic force of the magnetic phase of the intermediate s phase magnetic pole 2 7 2 is smaller than the speed at which the rocker arm 25 is swung in the middle and The strength is small, and the rocker arm 25 to (10) moving swing width is in the case of stealing, sometimes Will be reduced, and the reaction pressure is less than the discharge pressure of the electromagnetic pump 2 乃, so that the discharge pressure is small, please refer to the figure shown in Figure 16, when the electromagnet is placed 2 7 of the inter-magnetic pole 2 7 2 When the magnetic switching to the N phase and the magnetic poles 2 71 of the two sides are switched to the s phase, the N-phase excitation signal is subjected to the effect of increasing the single-phase oscillation signal generated by the modulation unit circuit 45, and the electromagnet device 27 The magnetic force of the intermediate N-phase magnetic pole 2 7 2 is strong, and the magnet 26 is subjected to the repulsive action of the large magnetic strength of the intermediate N-phase magnetic pole 2 7 2, and the speed and strength of the expansion of the rocker arm 25 are instantaneously increased, and The swing width of the rocker arm 25 swinging outward is sometimes expanded under the coupling condition, and the suction pressure is increased when the electromagnetic pumping pressure is 2 ,, so that when the N phase is activated When the unit circuit 45 is modulated, the speed, the force and the swing width of the rocker arm 25 are constantly expanded, and the speed, the force and the swing width of the swinging arm are constant at 201128071. 'That is, by the above-mentioned setting of the N-phase modulation unit circuit 45, the electromagnetic pump 2 The suction pressure is increased, and the discharge pressure is reduced, and the characteristics can be applied to medical equipment. For example, when applied to a nasal suction device, N-phase modulation can be initiated for nasal pus or nasal discharge that is not easily absorbed. The unit circuit 45' instantaneously increases the suction pressure of the electromagnetic pump 2 to smoothly suck the nasal pus or the nose; as shown in Fig. 26, the modulation circuit 4 5 can be connected to the The external button 35 is activated by the button 35. Referring to FIG. 17, which is another embodiment of the frequency conversion circuit 4 of the present invention, an 8-phase modulation unit circuit 4 7 is added to the frequency conversion circuit 4 〇, and the S-phase modulation unit circuit is added. The 4 7 system can generate an S-phase oscillation signal, which is mixed with the N-phase excitation signal and the 5-phase excitation signal generated by the bistable unit circuit 44 to enhance the S-phase excitation signal and simultaneously cancel the signal. The N-phase excitation signal, that is, it can unilaterally enhance the magnetic strength of the electromagnet for the 27 s phase while canceling the magnetic strength of the N phase, please refer to Figure 18 for the start of the S phase modulation. In the case of the unit circuit 47, when the magnetic poles of the magnetic poles 2 71 on both sides of the electromagnet device 27 are switched to the N phase, and the magnetic properties of the intermediate magnetic poles 2 7 2 are switched to the S phase, the magnetic configuration of the two magnets 26 is externally configured. The N-phase and the inner side are set to 3 phases, and the s-phase excitation signal is subjected to the S phase modulation signal of the S-phase modulation unit circuit 47, and the electromagnet device 27 has an intermediate S-phase magnetic pole 2 7 2 The magnetic force is strong, magnetic 201128071 iron 2 6 is the phase of the larger magnetic strength of the intermediate magnetic pole 2 7 2 The action 'instantly increases the speed and force of swinging the rocker arm 25 to the middle, and the lung width of the swing arm 25 (4) swings sometimes increases under the coupling condition, and the reaction is in the electromagnetic pump 2〇 When the discharge pressure is increased, the discharge pressure is increased. Please refer to the reference 19, when the magnetic pole of the electromagnet device 27 is switched to the magnetic phase of the N phase and the magnetic poles of the two sides 2 # 71. When switching to the s phase, the two magnets 6 are subjected to the repulsive action of the smaller magnetic force of the Μ phase magnetic pole 272 in the middle of the electromagnet device 27, so that the speed and force of swinging the rocker arm 25 are small, and the The swing width of the rocker arm 25 swinging outward is sometimes reduced under the condition of the twisting, and the reaction force is less in the suction force of the electric county Pu 2, so when starting the When the s phase modulation unit circuit 4 7 swings, the speed, the strength and the swing width of the rocker arm 25 are kept larger, and the speed, the force and the swing width of the φ material are kept small. That is, 'by the above-mentioned S-phase modulation unit circuit 47, the pressure of the electromagnetic recording 20 is increased, and the suction pressure is increased. Anti-(4) is small, and this feature can also benefit the medical series. For example, when applied to the reading treatment device, the atomization effect of the tilting can be improved; please refer to Figure 26, Ma, Lai (4) Road 4 7 is connected to the external button 3 5, and the modulation circuit 47 is activated by the button 3 5 . Please cooperate with the reference to the twenty-fourth, which is the embodiment of the present invention. The variable frequency circuit 4 Q includes the commission phase 201128071 modulation unit circuit 4 5 and an S phase modulation. The unit circuit 4 7 'the N-phase modulation unit circuit 45 and the S-phase modulation unit circuit 47 are connected together with a switching circuit 48. The switching circuit 48 is switchable to select an N-phase modulation unit circuit. For the use of 4 5 or S phase modulation unit circuit 47, please refer to Figure 25 and 26, this implementation is for some multifunctional medical equipment, which must have both suction and discharge functions. The electromagnetic pump 2 〇 and the circuit board 2 8 series can be stored in a body 3 ,, please refer to FIG. 27, the switching circuit 48 can be connected to a body 3 〇 button 3 6 Alternatively, the n-phase modulation unit circuit 45 or the S-phase modulation unit circuit 4γ can be switched by pressing the button 36, and after the selection is made, the N-phase modulation unit circuit 4 5 or 3-phase modulation unit is started by the button 3 5 . The circuit 4 7 is provided with the ribs by the frequency conversion circuit 4 q of the present embodiment. The configuration of the peripheral unit circuit 45 and the S-phase modulation unit circuit 47 makes the selection of the suction pressure or the discharge pressure of the multifunctional medical device more diverse, and is more suitable for the multi-function medical operation sheet. Specific pressure requirements of Wei Shi. Referring to FIG. 20, the electromagnetic circuit 2 of the present invention can be applied to a single-specific medical device, as shown in FIG. 20, 'electromagnetic pump 2 ◦ and circuit board 2 8 series - set in the shell - 3 〇 1 'the line - seed (4) sucking skirt; please refer to Figure 25, Figure 27 to 30 - as shown in the electromagnetic system 2〇 and circuit board 2 8 series can be stored in the body 3 of the body, the body 3 is at least 201128071 has a negative pressure joint 3 3 and a positive pressure joint 3 4, the negative pressure joint 3 3 and the electromagnetic pump The suction pipe 2 of the Pu 2 2 is connected to a negative pressure pipe 3 1 'The positive pressure joint 3 4 and the discharge pipe 2 of the electromagnetic pump 20 are connected with a positive pressure pipe 3 2 , the seat body The outer side of the 30 is provided with a power socket 3 9 for plugging the transformer rectifier 50, the battery 60, and the power cord 70 for the cigarette holder, and the vacuum connector 3 3 is available for a suction device 8 0 is connected to suck the nose (as shown in Fig. 27), or the negative ink connector 3 3 can be connected to a breast pump 84 to absorb breast milk (as shown in Fig. 28); positive The connector 3 4 is connected to a nasal rod 8 1 and can be used for cleaning the nasal cavity (as shown in FIG. 29). The base body 30 is provided with a container 8 for storing cleaning liquid. The joint 3 3 and the container 8 6 are connected to a conduit 8 5, and when the electromagnetic pump 20 is activated, the cleaning liquid in the container 86 can be taken out and discharged from the washing rod 81, or the positive pressure joint 34 A hand-held spray can set 8 2 can be used to atomize the medicament for inhalation of the patient with the breathing (as shown in FIG. 30), or the positive pressure connector 34 can be used for a spray mask. The group 8 3 is also used to atomize the medicament for inhalation by the patient with the breathing (as shown in Figure 31). In summary, the present invention is practical and progressive, and the same as or similar to the domestic and foreign literatures, and the invention is in accordance with the provisions of the (4) invention. Application. 201128071 [Simple description of the diagram] Figure 1 is a schematic diagram of the swinging arm of the electromagnetic pump. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view of an electromagnetic pump in accordance with a preferred embodiment of the present invention. Figure 2 is a schematic view of the c c section of the electromagnetic pump of Figure 2 to indicate the flow direction of the fluid being pumped by the electromagnetic pump. Figure 4 is a schematic cross-sectional view of the A A of the electromagnetic pump of Figure 2 to indicate the flow direction of the fluid by the electromagnetic pump. Figure 5 is a schematic view of the B B section of the electromagnetic pump of Figure 2, showing the flow of fluid discharged by the electric φ magnetic pump. Figure 6 is a schematic view of the C c profile of the electromagnetic pump of Figure 2 to indicate the flow direction of the fluid discharged by the electromagnetic pump. Figure 7 is a perspective view of a preferred embodiment of the electromagnetic pump of the preferred embodiment of the present invention. Figure 8 is a block flow diagram of an inverter circuit in accordance with a preferred embodiment of the present invention. Figure 9 is a schematic diagram of the swinging arm swing of the electromagnetic pump according to the preferred embodiment of the present invention (for indicating the highest swinging frequency of the rocker arm and the minimum width of the swing). Figure 10 is a schematic diagram of a rocker swing of an electromagnetic pump according to a preferred embodiment of the present invention (indicating that the swinging frequency of the rocker arm is medium and the swing is also at a medium width). Figure 11 is a schematic view of a rocker arm swing of an electromagnetic pump according to a preferred embodiment of the present invention (used to indicate the lowest swing frequency of the rocker arm and the maximum width of the swing). Figure 12 is a graph showing the coordinate relationship between the oscillation frequency and the suction pressure in the preferred embodiment of the present invention. 201128071 Figure 12 is a graph showing the coordinate relationship between the oscillation frequency and the suction flow rate in the preferred embodiment of the present invention. Figure 14 is a block flow diagram of a second embodiment of the frequency conversion circuit of the present invention. Fig. 15 is a schematic diagram showing the change of the N-phase modulation unit circuit of the inverter circuit of the present invention, in which the rocker arm is contracted inwardly. Fig. 16 is a schematic diagram showing the change of the N-phase modulation unit circuit of the inverter circuit of the present invention and the expansion of the rocker arm outward. Figure 17 is a block flow diagram of a third embodiment of the present invention. Figure 18 is a schematic diagram showing the change of the s phase modulation unit circuit of the frequency conversion circuit of the present invention and the rocker arm contracting inward. Fig. 19 is a schematic diagram showing the change of the three-phase modulation unit circuit of the inverter circuit of the present invention and the expansion of the rocker arm outward. Figure 20 is a schematic view of the frequency conversion circuit of the present invention taking care of the medical equipment of Wei-Wei. Figure 21 is a schematic diagram of a transformer rectifier. Figure 22 is a schematic diagram of a battery. Figure 23 is a schematic diagram of a dedicated power cord for a car cigarette lighter. Figure 24 is a block diagram showing a fourth embodiment of the frequency conversion circuit of the present invention. Figure 25 is a schematic view showing the electromagnetic pump of the preferred embodiment of the present invention housed in a body. Figure 26 is a schematic diagram of the button group connected to the outer side of the oscillating unit circuit of the frequency. 201128071 Schematic diagram of the early turn circuit connected to the outside of the knob.

Said Kong Yiwen with < not benefit map. Figure 27 is a schematic view showing the use of an inverter electric washing rod in accordance with a preferred embodiment of the present invention. Figure 30 is a schematic diagram of the hand-held spray can set. Figure 30 - A schematic diagram of the spray mask set of the electric county Pu with a circuit. [Main component symbol description] 20 electromagnetic pump 21 pump base 211 first air chamber 212 second air chamber 22 suction nozzle 23 discharge nozzle 24 rubber cap 241 first check valve 242 second check valve 25 rocker arm 26 magnet 2 7 electromagnet device 2 71 magnetic pole on both sides 2 7 2 intermediate magnetic pole 2 8 circuit board 30 seat body 301 housing 31 negative pressure line 32 positive pressure line 33 negative pressure joint 34 positive pressure joint 35 button 36 button 37 knob 3 8 button group 381, 382, 38 3 button 3 9 socket 201128071 4 0 frequency conversion circuit 41 external DC power supply 42 step-down unit circuit 43 oscillating unit circuit 4 4 bistable unit circuit 4 5 调 phase modulation unit circuit 4 6 push-pull Unit circuit 4 7 S phase modulation unit circuit 4 8 switching circuit 5 0 transformer rectifier 6 0 battery 7 0 point cigarette holder dedicated power cord 8 0 suction nose device 81 wash nose rod 8 2 hand-held spray can group 83 spray Mask set 84 breast pump 85 catheter 8 6 container

Claims (1)

201128071 VII. Patent application scope: 1 · An electromagnetic pump circuit of the electromagnetic pump, the frequency conversion circuit includes at least one oscillating unit circuit, a bistable unit circuit, and a push-pull unit circuit; the oscillating unit circuit is charged and discharged The time difference can oscillate the input DC power supply into a single-phase oscillation signal; the bistable unit circuit can phase-separate the one-way oscillation signal into an N-phase excitation signal and an S-phase excitation signal; the push-pull unit circuit The power of the N-phase excitation signal and the -s phase excitation signal can be amplified and then sent to the electromagnetic pump for use; the setting of the frequency conversion circuit is to enable the DC pump to be used to drive the electromagnetic pump, and the oscillation unit is adjusted The oscillation frequency generated by the circuit is the same as the absorption pressure, the suction flow rate, the discharge pressure and the discharge flow rate of the electromagnetic pump. 2: The electromagnetic pump circuit of the electromagnetic pump according to the scope of claim 2, wherein the frequency conversion circuit comprises a modulation unit circuit, wherein the modulation unit circuit can generate a single-phase oscillation signal and the bistable unit circuit The generated n-phase excitation signal and the S-phase excitation signal are mixed to increase the _ excitation signal and simultaneously cancel the S-phase excitation signal, or to add the 3-phase excitation signal and simultaneously cancel the N-phase excitation signal, so that the electricity county unilaterally Change the suction pressure or discharge pressure. 3. The electromagnetic pumping frequency conversion circuit according to the application of the patent scope, the frequency conversion circuit includes a phase modulation unit circuit and a -s phase modulation single circuit. The electromagnetic pumping frequency conversion circuit described in the first or second or third paragraph of the patent scope includes the (four) unit circuit, and the county unit circuit converts the DC power supply valve of the inverter circuit to a lower electric house. In order to supply the unit circuit (4) to its electronic element, it has the effect of voltage regulation. ,,. σ ^ The electromagnetic pump's inverter circuit described in the work item of the patent scope, the single-turn circuit of the vibration 1 can be connected to one of the external coils, and the frequency of the oscillation can be adjusted. 6 · If you want to use the electromagnetic pump's inverter circuit as described in item 1 of the patent scope, the unit circuit can be connected to one of the external button groups, and the button group can be used to adjust the oscillation frequency. 7 · If. Applying the electromagnetic pumping frequency conversion circuit described in Patent No. 2, the modulation unit circuit is an N-phase modulation unit circuit, which can generate an -N phase oscillation signal to generate a phase excitation signal with the bistable unit circuit. The s phase excitation signal is mixed to increase the N-phase excitation signal and simultaneously cancel the S-phase excitation signal, so that the electromagnetic pump can unilaterally increase the suction pressure. 8. The electromagnetic pumping frequency conversion circuit according to claim 2, wherein the modulation unit circuit is an S-phase modulation unit circuit, which is capable of generating an s-phase oscillation signal to be generated by the bistable unit circuit. The N-phase excitation signal and the s-phase excitation signal are mixed to increase the S-phase excitation signal and simultaneously cancel the N-phase excitation signal to enable the electromagnetic pump to unilaterally increase the discharge pressure. 201128071 9 · The electromagnetic pumping frequency conversion circuit according to claim 3, wherein the N-phase modulation unit circuit and an S-phase modulation unit circuit are commonly connected to a switching circuit, and the switching circuit is connected to the outside One button is pressed to select the N-phase modulation unit circuit or the s-phase modulation unit circuit. 10 .- an electromagnetic pump with a frequency conversion circuit, the electromagnetic pump is an electromagnet device wound with a coil, and the shaft is reciprocally oscillated by at least one rocker arm to bring a rubber cap to reciprocate and contract, and the fluid can be One end of one of the bases is sucked into the chestnut seat, and then discharged from the other end of the pump seat; the frequency conversion circuit includes at least a vibrating unit circuit, a bistable unit circuit, and a push-pull unit circuit; The input DC power source can be oscillated into a single-phase oscillation signal by the time difference of charging and discharging; the bistable single TGf: the road system can phase-separate the one-way oscillation signal into an N-phase excitation signal and an S-phase excitation signal; The push-pull unit circuit can amplify the power of the (4) phase excitation signal and the -s phase excitation signal and then send it to the electricity county; the setting of the 'II frequency circuit enables the DC power source to drive the electromagnetic pump to work, and The oscillation frequency generated by the borrowing unit circuit can relatively adjust the suction pressure and the suction flow rate, the discharge pressure and the discharge flow rate of the electromagnetic pump. 1 1 as claimed in claim 1 of the patent scope of the electromagnetic pump 201128071 with a frequency conversion circuit, the frequency conversion circuit includes a modulation unit circuit, the modulation unit circuit can generate a single phase oscillation signal to The N-phase excitation signal and the s-phase excitation signal generated by the bistable unit circuit are mixed to increase the N-phase excitation signal and simultaneously cancel the S-phase excitation signal, or increase the s-phase excitation signal and simultaneously cancel the N-phase excitation signal. The electromagnetic pump can unilaterally change the suction force or the pressure of the rose. 2, as claimed in claim 1 of the patent scope, the electromagnetic system is provided with an inverter circuit, and the frequency conversion circuit includes an N-phase modulation unit circuit and an s-phase modulation unit circuit', and the (4) side can be selected to be changed. Unit circuit or s phase modulation unit circuit. 3. The electromagnetic pump provided with the frequency conversion circuit as described in claim 10 of the patent scope, the electromagnetic pump is provided with an electromagnet device wound around the side of the electromagnetic pump, and the side system σ has a squatting seat. At least the outer side of the chestnut seat is provided with a flexible elastic cap, a rubber cap, and a rocker arm. One of the rocker arms is sighed on the outer side of the pump base, and the other end is combined with a magnet. With the electric=iron device, the distance between the needle and the needle is two air chambers, and the medium-gas (four) is connected with the number to the number, and the other chambers are connected to the S, and the air chambers are opposite to each other. The rubber caps are each reversed, and the electromagnetic pump is reciprocally oscillated by the rocker arm, and the body can be self-priming and taking the tubular shape, and is discharged from the main pipe. 2 Applying for a patent (4) 10 or 11 or an electromagnetic pump with a variable circuit as described in item U. The frequency conversion circuit includes a - step-down unit circuit, and the I 201128071 step-down single it Wei scale. It is reduced to a relatively high voltage to be supplied to each unit circuit as an operating voltage of its electronic component' and has a voltage stabilizing effect. 1 5 · The electric forging pump with variable frequency electric power as described in the first part of the patent scope, the electromagnetic pumping and frequency conversion circuit is housed in a body, the temple system has at least a negative pressure joint and - positive pressure joint, the negative pressure _ and the suction pump of the electromagnetic pump, connected to the negative pressure pipeline, the positive pressure joint and the electromagnetic spring of the discharge nozzle are connected - positive pressure pipeline; the oscillation early element circuit The system can be connected to the yang connection of the seat body to adjust the vibration of the fresh-keeping circuit. , ° 16 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' The head of the Wei take over _ connection - negative road, the positive pressure joint and the electromagnetic pump discharge connection between the connection - positive pressure pipeline; the vibration cover unit circuit can be connected with the - button group on the seat body, making available The button group adjusts the oscillation frequency of the oscillation unit circuit. 17 · For example: 帛1 电磁 之 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁 磁Head and electricity county k discharge connection (4) (four) connection pipeline 201128071 The modulation unit circuit can be connected with a knob on the seat body, so that the size of the single-phase oscillation signal generated by the singularity circuit can be used. 8 · For the towel, please refer to the patented u, the electromagnetic pump with the change of the road. The electricity county Puhe County Road (4) Yu-Tai Bencai, the system has at least - negative pressure joints and - Positive pressure joint, the joints It is connected with the electromagnetic (4) recording pipe, which is connected with a positive pressure pipe, and the connection between the positive dust joint and the electromagnetic pump discharge pipe is connected with a positive pressure pipe. , so that the size of the single-phase oscillation signal generated by the Wei (10) and the variable unit circuit can be used. 9. According to Zhongli Lifan (4) i 2, the electromagnetic pump is provided with _ circuit, the electromagnetic pump and the frequency conversion circuit are housed in a body, the seat system has at least a negative pressure joint and - is it? a joint, the negative pressure joint and the electromagnetic pump pick-up take over the county connection - 贞 (four) road, the positive pressure joint and the electromagnetic pump discharge connection is connected to a positive pressure pipeline; the N phase modulation unit circuit and s phase The modulation unit circuit is connected to the switching circuit, and the switching circuit is coupled to the button on the base body, and the button can be used to switch between the N-phase modulation unit circuit and the phase modulation unit circuit. $ For example, please refer to the electromagnetic pump with frequency conversion circuit as described in Item 1 or 11 or 12 or 13 of the patent scope. The electromagnetic pumping and frequency conversion circuit is stored in a body of 201128071. The system has at least one The negative pressure joint and the positive pressure joint 'the negative pressure joint and the electromagnetic pump suction connecting line are connected with a negative pressure pipeline'. The positive pressure joint and the electromagnetic pump discharge joint are connected with a positive pressure pipeline. 21 • Electromagnetic pump with variable frequency circuit as described in Patent Application No. 20 The DC power supply used for the inverter input circuit is provided by a transformer rectifier. 2 2 · The electromagnetic pump with the inverter circuit as described in the second paragraph of the patent application's input DC power supply for the inverter circuit is provided by a rechargeable battery. 2 3 · Electromagnetic pump with variable frequency circuit as described in Section 2 of the patent application. The DC power supply used for the inverter input circuit is provided by a dedicated ignition cord for the car cigarette holder. 2 4 . The electromagnetic pump provided with the inverter circuit as described in claim 2, wherein the vacuum connection is connectable to a nasal suction device. 2 5 · An electromagnetic pump provided with an inverter circuit as described in the second paragraph of the patent application, which is connected to a breast pump. 2 6 · The electromagnetic pump provided with the frequency conversion circuit as described in the second paragraph of the patent application 'the positive pressure joint can be connected with a lancet, and the body of the seat is provided with a container for storing the cleaning liquid, The vacuum connection and the container are connected to a conduit. When the electromagnetic pump is activated, the cleaning liquid of the container can be taken out and discharged from the nozzle. 201128071 2 7 · The electromagnetic pump with variable frequency circuit as described in Patent Application No. 20, which can be connected to a hand-held spray can. 2 8 . The electromagnetic pump provided with the inverter circuit as described in claim 2, wherein the positive pressure connector can be coupled to a spray mask set.