CN102410183B - Dual moving magnet type thin cavity micro-stroke booster pump - Google Patents

Abstract

Translated fromChinese

对偶动磁式薄腔微行程增压泵，属机电领域：针对近70年的增压器历史中形成的；双螺旋移积式，活塞式及离心式以及汽波式等的缺陷，它们无法兼顾：长寿性/效率/噪音及启动滞后时间等要素；本发明给出的动磁技术具有极高效率，小的启动功率的气/流体泵，技术关键就在于：其核心部件是多个对偶分布摆放的，旋转永磁驱动的薄腔微行程的变容空间，具有自抵消无功转动势垒力矩的特点，可广泛用于汽车增压器等领域。

Dual-moving magnetic thin-cavity micro-stroke booster pump belongs to the electromechanical field: for the defects of double-screw displacement type, piston type, centrifugal type, and steam wave type formed in the history of nearly 70 years of superchargers, they cannot Taking into account factors such as longevity/efficiency/noise and start-up lag time; the moving magnet technology provided by the present invention has extremely high efficiency, and the key technology of the air/fluid pump with small start-up power lies in: its core components are multiple dual Distributed, rotating permanent magnet-driven thin-cavity micro-stroke variable volume space has the characteristics of self-offseting reactive rotational barrier torque, and can be widely used in automotive superchargers and other fields.

Description

Translated fromChinese

对偶动磁式薄腔微行程增压泵Dual moving magnet thin cavity micro stroke booster pump

本发明属机电领域：确切地讲是一种用旋转(动磁或其它)驱动的多个薄型风箱对偶放置，并行输出高压(流/气体)的一种集成装置。The invention belongs to the electromechanical field: specifically, it is an integrated device that uses a plurality of thin bellows driven by rotation (moving magnet or other) to place in pairs, and outputs high pressure (flow/gas) in parallel.

一种高效的流体泵的设计需要考虑多种因素：诸如；长寿性，效率，噪音及启动滞后时间等；但是许多方案都只满足上述部分性能，往往满足不了需要。例如：汽车增压器就是其一；在近70年的增压器历史中形成了；双螺旋移积式(含压缩移积及非压缩移积2种)，活塞式及离心式以及汽波式(废气助推方式)以及曲轴及直线电机活塞式等6种；诸方法各有仲伯：双螺旋移积式特点是排气量大，效率低下，组件惯量质量巨大，(动磁或其它)驱动下无法迅捷反应；离心式效率最高，但转速奇高，寿命及迅捷性无从谈起；汽波式(废气助推方式)属于废气驱动类，主要是嘈音及寿命问题；曲轴及直线电机活塞式的特点是效率(直线电机除外)较佳，体积较大且无法迅速响应；目前就获得迅速响应性能的方式而言：直联发动机曲轴动力是唯一的方式，但代价在于付出高昂的效率代价及高冲击下的磨损代价；另一方面，无论任何单一完成机械往复运动的实现方式，都将导致往复传动部件的强度的要求，而导致寿命及相应速度问题；使得增压器仅作为少量场合使用。The design of an efficient fluid pump needs to consider many factors: such as; longevity, efficiency, noise and start-up lag time; but many solutions only meet the above-mentioned part of the performance, often can not meet the needs. For example: automobile supercharger is one of them; it has been formed in the history of nearly 70 years of supercharger; double-screw displacement product (including two types of compression displacement and non-compression displacement), piston type and centrifugal type, and steam wave There are 6 types, such as exhaust gas boosting method, crankshaft and linear motor piston type, etc.; each method has its own advantages: the double-screw shift product type is characterized by large displacement, low efficiency, and huge component inertia mass, (moving magnet or other ) cannot respond quickly; the centrifugal type has the highest efficiency, but the speed is extremely high, and life and agility are out of the question; The motor piston type is characterized by better efficiency (except for linear motors), larger size and inability to respond quickly; currently, in terms of ways to obtain quick response performance: direct-connected engine crankshaft power is the only way, but the price is to pay high Efficiency cost and wear cost under high impact; on the other hand, regardless of any single realization of mechanical reciprocating motion, it will lead to the requirement of the strength of the reciprocating transmission parts, which will lead to life and corresponding speed problems; making the supercharger only as a Use in a small amount of occasions.

本发明的目的就在于克服已有技术的不足之处，其重要依据是英国李约瑟博士所考察的导致300年前瓦特产生蒸汽机灵感的中国古代风箱的原理(核心在于单向风门)出发；设计出集重要优点于一身的流/气体泵，结合磁力(或磁力结合计机械传动)的无源力场的特点，以(动磁或其它)的方式驱动，适用于诸如汽车及大型运动工具等重要行业。The purpose of the present invention is to overcome the deficiencies of the prior art. Its important basis is the principle of the ancient Chinese bellows (the core is the one-way damper) that was investigated by Dr. Needham of England, which led to Watt's steam engine inspiration 300 years ago; A flow/gas pump that combines important advantages, combined with the characteristics of the passive force field of magnetic force (or magnetic force combined with mechanical transmission), driven by (moving magnet or other), suitable for important vehicles such as automobiles and large sports tools industry.

本发明的特点在于；以驱动旋转磁体为动力，可配合机械滑道进行力的分担，更重要的是为了严格限定对偶运动，以确保产生极小的振动及嘈音；由于永磁间的力的传输不用机械部件，可以允许很高的频率，这样可产生较大的排气量，因而给出一种集高寿命，高效率，低噪音及极小的启动滞后时间于一身的，并加之较小的重量及体积；这5项重要优点于一身的流体泵；汽车增压器只是其应用之一。The feature of the present invention is that the driving force of the rotating magnet can be used to share the force with the mechanical slideway, and more importantly, the dual movement is strictly limited to ensure the generation of extremely small vibration and noise; due to the force between the permanent magnets The transmission does not use mechanical parts, which can allow very high frequency, which can produce a large exhaust volume, thus giving a combination of high life, high efficiency, low noise and extremely small start-up lag time, and in addition Smaller weight and volume; fluid pump with these five important advantages; automotive supercharger is just one of its applications.

本发明的技术关键就在于：其核心部件是多个分布摆放的薄腔微行程流体泵；The technical key of the present invention lies in that its core component is a plurality of distributed thin-cavity micro-stroke fluid pumps;

具有自抵消无功转动势垒力矩的特点，It has the characteristics of self-cancellation reactive rotational barrier moment,

在消除噪音方面可采取了声波干涉方法，是将诸流体泵或环形/或对称/或基本对称摆放；另一核心技术是分是供电方式，就是将诸流体泵分成多组，分时供电，使电流平稳，有利于减少电磁辐射；其基本构造为：由挠性边围板区(1)，簧片气门片(2)及(4)，永磁体(5)，过气孔(6)，支撑件(7)及(12)，线圈(8)，紧固铆钉(9)，型腔空间围板(11)及(14)，行腔空间(16)，线圈引出导线(17)等组成；核心部件的基本工作过程为：对于行腔空间(16)来说；簧片气门片(2)是用于进气的，而(4)则是用于排气的；当线圈(8)被电流驱动时，永磁体(5)将对线圈产生作用力，由于线圈(8)与型腔空间围板(14)是固定在一起的；在挠性边围板区(1)的可变性的特性支持下，(14)将产生移动，而形成了行腔空间(16)的变容；当驱动电流周期性改变时，行腔空间(16)的容积将被周期性改变；簧片气门片(2)及(4)也将轮流开闭，从簧片气门的安装状态来看，当行腔空间(16)的容积变小时排气门(2)将开启而排气；当行腔空间(16)的容积变大时进气门(4)将开启而进气。In terms of noise elimination, the method of acoustic wave interference can be adopted, which is to place the fluid pumps in a ring or symmetrically/or basically symmetrically; another core technology is the power supply method, which is to divide the fluid pumps into multiple groups and supply power in time-sharing , so that the current is stable, which is conducive to reducing electromagnetic radiation; its basic structure is: a flexible side panel area (1), a reed valve (2) and (4), a permanent magnet (5), and an air hole (6) , supports (7) and (12), coils (8), fastening rivets (9), cavity space coamings (11) and (14), cavity space (16), coil lead wires (17), etc. ; The basic working process of the core components is: for the cavity space (16); the reed valve sheet (2) is used for intake air, and (4) is used for exhaust; When the current is driven, the permanent magnet (5) will exert a force on the coil, because the coil (8) and the cavity space coaming (14) are fixed together; the variability in the flexible side coaming area (1) Under the support of the characteristics, (14) will move and form the variable capacity of the cavity space (16); when the driving current changes periodically, the volume of the cavity space (16) will be changed periodically; the reed valve (2 ) and (4) will also open and close in turn. From the installation state of the reed valve, when the volume of the cavity space (16) becomes smaller, the exhaust valve (2) will open and exhaust; when the cavity space (16) When the volume becomes larger, the intake valve (4) will be opened to take in air.

由于实际上单独的(动磁或其它)薄腔微行程流体泵单一工作时只产生有限的气流量，往往需要多只薄腔式短行程气泵并联工作，并排布在一起，适当的控制每一个的同步性，就能使各流体泵的产生的气压的大部分相互抵消，而减小大部分噪音输出。Because in fact, a single (moving magnet or other) thin-cavity micro-stroke fluid pump only produces a limited air flow when it works alone, it is often necessary to work in parallel with multiple thin-cavity short-stroke air pumps and arrange them together to properly control each The synchronization can make most of the air pressures generated by the fluid pumps cancel each other, and reduce most of the noise output.

简要来讲：由进气口进入的空气先经空气滤清网过滤，经过度区后，当泵扩容式再进入诸薄腔式短行程气泵的内部空间(压缩区)，在该泵的内部空间将空气压缩，当压力大于等于排气空间的压力时，排气簧片开启，压缩空气进入排放区。Briefly speaking: the air entering from the air inlet is first filtered by the air filter, and after passing through the degree zone, when the pump expands, it enters the inner space (compression zone) of the thin-cavity short-stroke air pumps. The space compresses the air. When the pressure is greater than or equal to the pressure of the exhaust space, the exhaust reed opens and the compressed air enters the discharge area.

需要强调的是：在本增压泵中使用了多个具有独立空间的(动磁或其它)薄腔微行程子泵；而多个(动磁或其它)薄腔微行程子泵的摆放方式可以是伞形排布，柱面排布，一字排布，球面排布，以进气口为基准的曲面排布及平面排布；空气滤清网即可以独立的滤清器构件的方式放置(作为进入改泵的前级使用)，也可以放置在(动磁或其它)薄腔微行程子泵的进气端前方，与之交织排布，共同安排在一个一体化的紧凑空间内；对于诸(动磁或其它)薄腔微行程子泵的供电方式即可以是同步方式也可以是异步分时方式；对于(动磁或其它)薄腔微行程子泵的单向导气的气门方式，即可以是机械式的簧片，胶片，梯形塞这些机械的气门方式，也可以是电控的电磁气门构件。上述的使用了多个具有独立空间的(动磁或其它)薄腔微行程子泵，是指范围在同一个分布干涉式薄腔微行程增压泵中使用了2到20000个(动磁或其它)薄腔微行程子泵；独立空间是指：每一个(动磁或其它)薄腔微行程子泵进/排气门所对应的(可变容)空间。It should be emphasized that multiple (moving magnet or other) thin-cavity micro-stroke subpumps with independent space are used in this booster pump; The way can be umbrella arrangement, cylindrical arrangement, line arrangement, spherical arrangement, curved surface arrangement and plane arrangement based on the air inlet; the air filter can be an independent filter component It can be placed in the same way (as the front stage of the modified pump), or it can be placed in front of the intake end of the (moving magnet or other) thin-cavity micro-stroke sub-pump, interwoven with it, and arranged together in an integrated compact space Inside; the power supply mode for all (moving magnet or other) thin-cavity micro-stroke sub-pumps can be either synchronous or asynchronous time-sharing; The valve mode can be a mechanical valve mode such as a mechanical reed, a film, or a trapezoidal plug, or an electronically controlled electromagnetic valve component. The above-mentioned use of multiple (moving magnet or other) thin-cavity micro-stroke subpumps with independent space means that 2 to 20,000 (moving magnet or other) thin-cavity micro-stroke booster pumps are used in the same distributed interference type booster pump. Other) thin-cavity micro-stroke subpump; independent space refers to the (variable capacity) space corresponding to the intake/exhaust valve of each (moving magnet or other) thin-cavity micro-stroke sub-pump.

需要加以重点强调的是：在本增压泵中使用了多个具有独立空间的薄腔微行程子泵；而多个薄腔微行程子泵的摆放方式可以是伞形排布，柱面排布，一字排布，球面排布，以进气口为基准的曲面排布及平面排布；空气滤清网即可以独立的滤清器构件的方式放置(作为进入改泵的前级使用)，也可以放置在薄腔微行程子泵的进气端前方，与之交织排布，共同安排在一个一体化的紧凑空间内；对于薄腔微行程子泵的单向导气的气门，即可以是机械式的簧片，胶片，梯形塞这些机械的气门方式，也可以是电控的电磁气门构件；各薄腔微行程子泵的组合方式为对偶方式；对泵体的驱动即可以用(动磁或其它)方式也可以用电磁直线驱动方式。It needs to be emphasized that multiple thin-cavity micro-stroke sub-pumps with independent space are used in this booster pump; and the placement of multiple thin-cavity micro-stroke sub-pumps can be arranged in an umbrella shape, cylindrical Arrangement, one-line arrangement, spherical arrangement, curved surface arrangement and plane arrangement based on the air inlet; the air filter can be placed in the form of an independent filter component (as the front stage of the modified pump) ), it can also be placed in front of the intake end of the thin-cavity micro-stroke sub-pump, interlaced with it, and arranged together in an integrated compact space; for the one-way air-guiding valve of the thin-cavity micro-stroke sub-pump, It can be mechanical valves such as mechanical reeds, films, and trapezoidal plugs, or electronically controlled electromagnetic valve components; the combination of thin-cavity micro-stroke sub-pumps is a dual mode; the drive of the pump body can be The electromagnetic linear drive mode can also be used in a (moving magnet or other) way.

而文中提及的：多个具有独立空间的薄腔微行程子泵，是指范围在同一个分布干涉式薄腔微行程增压泵中使用了2到20000个(动磁或其它)薄腔微行程子泵；独立空间是指：每一个薄腔微行程子泵进/排气门所对应的(可变容)空间。As mentioned in the article: multiple thin-cavity micro-stroke sub-pumps with independent spaces refer to the use of 2 to 20,000 (moving magnet or other) thin-cavities in the same distributed interference type thin-cavity micro-stroke booster pump. Micro-stroke sub-pump; independent space refers to: the (variable capacity) space corresponding to the intake/exhaust valve of each thin-cavity micro-stroke sub-pump.

以下结合附图就本发明的基本实施例，对本发明作进一步说明：Below in conjunction with accompanying drawing with regard to basic embodiment of the present invention, the present invention will be further described:

图1(轴向)对偶(动磁或其它)驱动方式原理示意图Figure 1 Schematic diagram of (axial) dual (moving magnet or other) drive mode

图2(轴向兼径向)对偶(动磁或其它)驱动方式原理示意图Figure 2 (axial and radial) dual (moving magnet or other) schematic diagram of the drive mode

图3(动磁或其它)薄腔微行程流/气体泵结构剖面示意图Figure 3 (moving magnet or other) thin-cavity microstroke flow/gas pump structure cross-sectional schematic diagram

图4一种对偶(动磁或其它)式薄腔微行程增压泵示意图Figure 4 Schematic diagram of a dual (moving magnet or other) type thin-cavity micro-stroke booster pump

图示说明：Graphical description:

(1)挠性边围板区(1) Flexible side panel area

(2)(4)簧片气门片(2)(4) reed valve plate

(3)弯曲状态的簧片气门片(3) Reed valve in bent state

(5)永磁体(5) Permanent magnet

(6)过气孔(6) Air holes

(7)(12)支撑件(7)(12) supports

(8)线圈(8) Coil

(9)紧固铆钉(9) fastening rivets

(10)运动指示箭头(10) Motion indicator arrow

(11)(14)型腔空间围板(11)(14) Cavity space coaming

(13)进气指示箭头(13) Intake indicator arrow

(15)出气指示箭头(15) Air outlet indicator arrow

(16)行腔空间(16) cavity space

(17)线圈引出导线(17) Coil lead wire

(30)(31)活动永磁块(30)(31) Movable permanent magnet block

(32)中心轴(32) Central axis

(33)固定磁块(33) Fixed magnet

(34)(35)固定磁块磁力方向(34)(35) Fixed magnetic direction of magnetic block

(36)固定磁块所受磁力矩方向(36) The direction of the magnetic moment on the fixed magnetic block

(37)固定磁块减小了的轴向磁力方向(37) The axial magnetic force direction of the fixed magnetic block is reduced

(38)转(动磁或其它)块所受磁力矩方向(38) The direction of the magnetic moment on the rotating (moving magnet or other) block

(40)(41)活动永磁体的磁力矩(40)(41) Magnetic moment of movable permanent magnet

(42)转动轴(42) Rotation shaft

(43)固定永磁体(43) fixed permanent magnet

(44)转动轴合力矩(44) Total torque of rotating shaft

(50)电机转轴(50) motor shaft

(51)外壳体(51) Outer shell

(52)活(动磁或其它)体(52) active (moving magnetic or other) body

(53)(54)通气孔(53)(54) Vents

(55)薄腔微泵驱动板(55) Thin-cavity micropump driver board

(56)密封环(56)Sealing ring

(57)电动机(57) Electric motor

(58)转动磁或其它体(58) rotating magnet or other body

(59)转动磁或其它体壁滑槽(59) Rotating magnetic or other body wall chute

(60)空气过滤网(60) Air filter

(61)(62)进气口及进气流(61)(62) Air inlet and air flow

(63)(64)排气口及高压排气流(63)(64) Exhaust port and high-pressure exhaust flow

(65)进排气空间隔离罩(65) Inlet and exhaust space isolation cover

(66)薄腔泵活动板(66) Thin cavity pump movable plate

(67)凹槽滑动销(67) Grooved slide pin

(70)高压排气气流(70) High pressure exhaust gas flow

如图1所示：As shown in Figure 1:

(30)及(31)是2块独立的条形磁铁块粘接在一起的，2块的磁化方向相反；粘接后组成统一的活动永磁块；且与中心轴(32)固定连接。(30) and (31) are 2 independent bar-shaped magnet blocks bonded together, and the magnetization direction of 2 blocks is opposite; Form unified movable permanent magnet block after bonding; And be fixedly connected with central axis (32).

固定磁块(33)不可转动，中心轴(32)穿过其中孔，不妨碍其相互自由转动。The fixed magnetic block (33) is non-rotatable, and the center shaft (32) passes through the hole therein, which does not hinder its mutual free rotation.

当外力转动中心轴时，(30)及(31)将一起转动；将产生相互作用的磁力矩：如固定磁块所受磁力矩方向(36)及转(动磁或其它)块所受磁力矩方向(38)。When the external force rotates the central shaft, (30) and (31) will rotate together; will produce an interactive magnetic moment: such as the magnetic moment direction (36) of the fixed magnetic block and the magnetic force of the rotating (moving magnet or other) block Moment direction (38).

(34)及(35)为固定磁块磁力方向；与活动永磁块(30)(31)；的力矩方向相反。随着转动角度的增加；各自所受的力矩渐渐增大，轴向方向的磁力将减小：如(37)所指示。如果转轴不断地转动下去，力及力矩将进行周期性的变化。(34) and (35) are fixed magnet block magnetic force direction; With movable permanent magnet block (30) (31); The direction of moment of moment is opposite. With the increase of the rotation angle, the respective torques gradually increase, and the magnetic force in the axial direction will decrease: as indicated by (37). If the rotating shaft continues to rotate, the force and moment will change periodically.

图1中B表示在A指示的状态下，轴受有外力时的各磁体的受力状态。B in Fig. 1 shows the force state of each magnet when the shaft is subjected to an external force under the state indicated by A.

如图2所示：as shown in picture 2:

该图具有自抵消无功转动势垒力矩的特点：(40)及(41)为2个活动永磁体的磁力矩，转动轴(42)是2者的共同轴且刚性固定，其他磁块为固定永磁体；如(43)所示。This figure has the characteristics of self-cancelling reactive rotational barrier moment: (40) and (41) are the magnetic moments of two movable permanent magnets, the rotating shaft (42) is the common axis of the two and is rigidly fixed, and the other magnetic blocks are Fix the permanent magnet; as shown in (43).

2个活动永磁块的磁力矩方向相反，呈抵消趋势；因而转动轴合力矩(44)将是一个相对于各自力矩而言的小量值。The directions of the magnetic torques of the two movable permanent magnet blocks are opposite, showing a tendency of offsetting; thus the resultant torque (44) of the rotating shaft will be a small value relative to the respective torques.

图2中C和D两部分分别代表2组共轴的磁体组；C与D之间也是对偶关系(它们之间抵消大部分力矩)，每一组自身(如C或者D自身)也还是对偶关系(他们抵消的是轴向的磁力)。The two parts C and D in Figure 2 represent two sets of coaxial magnet groups respectively; C and D are also in a dual relationship (they cancel most of the torque between them), and each group itself (such as C or D itself) is also a dual relationship (they counteract the axial magnetic force).

如图3所示：As shown in Figure 3:

核心部件的基本工作过程原理为：当线圈(8)被电流驱动时，永磁体(5)将对线圈产生作用力，由于线圈(8)与型腔空间围板(14)是固定在一起的；在挠性边围板区(1)的可变性的特性支持下，(14)将产生移动，而形成了行腔空间(16)的变容；当驱动电流周期性改变时，行腔空间(16)的容积将被周期性改变；簧片气门片(2)及(4)也将轮流开闭(开启时；就像弯曲状态的簧片气门片(3)一样)，从簧片气门的安装状态来看，当行腔空间(16)的容积变小时排气门(2)将开启而排气；当行腔空间(16)的容积变大时进气门(4)将开启而进气。简而言之；对于行腔空间(16)来说；当扩容时；簧片气门片(2)张开，是用于进气过程(此时簧片(4)处于关闭状态)，当行腔空间(16)缩小容积时，此时(4)张开进行排气(此时簧片(2)处于关闭状态)；过气孔(6)开在支撑件(7)及(12)上，以使空气自由流通，紧固铆钉(9)可用来固定各个簧片；(11)及(14)是用于形成变容空间的型腔空间围板；是刚性安装的，不会发生位移。运动指示箭头(10)代表着(14)可沿着此方向或反方向位移；(13)及(15)分别代表着进气指示箭头及出气指示箭头(表征着簧片开启时的运动方向)。(17)是线圈引出导线，用以接入驱动电流。The basic working process principle of the core components is: when the coil (8) is driven by current, the permanent magnet (5) will exert force on the coil, because the coil (8) and the cavity space enclosure (14) are fixed together ; Under the characteristic support of the variability of the flexible side panel area (1), (14) will produce movement, and formed the varactor of the cavity space (16); when the driving current changes periodically, the cavity space (16) ) will be changed periodically; the reed valves (2) and (4) will also open and close in turn (when open; just like the reed valve (3) in the bent state), from the installation of the reed valve From the point of view of the state, when the volume of the row cavity space (16) becomes smaller, the exhaust valve (2) will open and exhaust; when the volume of the row cavity space (16) becomes larger, the intake valve (4) will open and intake air. In short; for the cavity space (16); when expanding; the reed valve (2) is opened for the intake process (at this time the reed (4) is in a closed state), when the cavity space (16) When the volume is reduced, (4) is opened to exhaust (at this time, the reed (2) is in a closed state); the air hole (6) is opened on the supports (7) and (12), so that The air circulates freely, and the fastening rivets (9) can be used to fix each reed; (11) and (14) are cavity space coaming plates used to form the variable capacity space; they are rigidly installed and cannot be displaced. The movement indicator arrow (10) represents that (14) can be displaced in this direction or in the opposite direction; (13) and (15) respectively represent the air intake indicator arrow and the air outlet indicator arrow (representing the movement direction when the reed is opened) . (17) is coil lead wire, in order to insert driving current.

图3的下方的图是俯视图。The lower figure of FIG. 3 is a plan view.

如图4所示：As shown in Figure 4:

本结构中含有4个独立的薄腔泵(每个薄腔泵为环形结构)；(50)为电动机(57)的转轴，直接驱动2个转(动磁或其它)体(58)转动；4个活(动磁或其它)体(52)与4个薄腔微泵驱动板(55)刚性连接；驱动板(55)与各自的薄腔泵活动板(66)刚性连接；密封环(56)粘接于4个薄腔泵活动板(66)与固定板之间，进行4个独立空间的边界密封；(51)为外壳体，(53)及(54)通气孔，(60)为空气过滤网，(65)为进排气空间隔离罩。This structure contains 4 independent thin-cavity pumps (each thin-cavity pump is an annular structure); (50) is the rotating shaft of the motor (57), which directly drives 2 rotating (moving magnet or other) bodies (58) to rotate; 4 movable (moving magnetic or other) bodies (52) are rigidly connected with 4 thin-cavity micropump drive plates (55); the drive plate (55) is rigidly connected with respective thin-cavity pump movable plates (66); the sealing ring ( 56) It is bonded between the movable plates (66) and the fixed plates of the four thin-cavity pumps, and the boundaries of four independent spaces are sealed; (51) is the outer casing, (53) and (54) air holes, (60) For the air filter, (65) is an air intake and exhaust space isolation cover.

本结构的工作原理基本上是图1/图2及图3的综合；2个转(动磁或其它)体(58)的转动将带动4个活(动磁或其它)体(52)轴向往复移动；因而使4个薄腔微泵驱动板(55)作同样的往复移动；最终4个驱动板(55)带动各自的薄腔泵活动板(66)也完成同样的往复移动，形成4个薄腔泵的变容，而单向输送气流。The working principle of this structure is basically the synthesis of Fig. 1/Fig. 2 and Fig. 3; the rotation of 2 rotating (moving magnet or other) bodies (58) will drive 4 movable (moving magnet or other) body (52) shafts To reciprocate; thus make 4 thin-cavity micropump driving plates (55) do the same reciprocating movement; finally 4 driving plates (55) drive their respective thin-cavity pump movable plates (66) to complete the same reciprocating movement, forming Variable displacement of 4 thin cavity pumps, while unidirectional delivery of air flow.

凹槽滑动销(67)插于加工在转(动磁或其它)体(58)柱面上的转(动磁或其它)体壁滑槽(59)内，随着转(动磁或其它)体的转动，将与磁力一起带动4个驱动板(55)往复运动，由于槽位的约束，将使泵的驱动更加对称一致，进而减少震动及嘈音。Groove sliding pin (67) is inserted in the turning (moving magnet or other) body wall chute (59) that is processed on turning (moving magnet or other) body (58) cylindrical surface, along with turning (moving magnet or other) ) body will drive the four drive plates (55) to reciprocate together with the magnetic force. Due to the constraints of the slots, the drive of the pump will be more symmetrical and consistent, thereby reducing vibration and noise.

(61)及(62)为进气口及进气流，(63)及(64)为排气口及高压排气流，(70)为高压排气气流。(61) and (62) are air inlet and air intake, (63) and (64) are exhaust port and high pressure exhaust flow, (70) are high pressure exhaust air flow.

图4中的下方的视图是沿上方图中的水平剖面线剖开后所得到的，俯视图；(66)实际上是一个完整的圆，为节约版面而表示为残缺。The view below in Fig. 4 is obtained after being sectioned along the horizontal section line in the figure above, the top view; (66) is actually a complete circle, which is shown as incomplete for saving layout.

Claims (1)

1. a Dual moving magnet type thin cavity micro-stroke booster pump, basic structure is: containing 4 independent thin chambeiesPump, each thin chamber pump is that loop configuration is referred to as the thin chamber sub-pump of micro travel；The rotating shaft (50) of dynamic magnetomechanical (57) is direct2 rotating magnets (58) are driven to rotate；4 movable magnet (52) drive plate (55) rigidity with 4 thin chamber MicropumpsConnect；Thin chamber Micropump drives plate (55) to be rigidly connected with respective thin chamber pump portable plate (66)；Sealing ring (56)It is adhered between 4 thin chambeies pump portable plate (66) and fixed plate, carries out the border seal of 4 separate space；KnotStructure also includes: shell body (51), passage (53), (54), airstrainer (60), intake and exhaust spatial separationCover (65)；The operation principle of basic structure is substantially the comprehensive of the thin chamber sub-pump of micro travel；2 rotating magnets (58)Rotation 4 movable magnet (52) axial reciprocatings will be driven to move；Thus make 4 thin chamber Micropumps drive plate (55)Make same moving back and forth；Final 4 thin chamber Micropumps drive plate (55) to drive respective thin chamber pump portable plate (66)Also complete same moving back and forth, form the transfiguration of 4 thin chamber pumps, and irreversibly deliver air-flow；Groove sliding pin(67) insert in processing rotating magnet wall chute (59) on rotating magnet (58) cylinder, along with rotating magnetRotate, 4 thin chamber Micropumps will be driven together with magnetic force to drive plate (55) to move back and forth, due to the constraint of groove position,By the most symmetrical unanimously for the driving that makes pump, and then reduce vibrations and noisiness；Structure also includes: air inlet and air inletStream, air vent (63) and high pressure vent gas stream (64), high pressure gas air-flow (70)；Air inlet is first filtered；From enteringGas is divided into 4 separate space to the process of aerofluxus, and they are: air inlet linking district: air inlet pipe road junction is to airThe space of filter gauze；Transition region: the space between air filtering net and cavity space coaming plate；Compressional zone: eachThe inner space of the thin chamber sub-pump of micro travel；Discharge region: the deflation area of the thin chamber sub-pump of micro travel and division board and aerofluxusThe space that pipe is enclosed；The air entered by air inlet is first through air-filtering net filtration, after transition region, when pump expandsThe inner space of all thin chambeies sub-pump of micro travel is entered back into: i.e. compressional zone, at each thin chamber sub-pump of micro travel after appearanceAir is compressed by inner space, and when pressure is more than or equal to the pressure of exhaust space, exhaust reed is opened, compressionAir enters discharge region；Its feature is that；And the disposing way of all thin chambeies sub-pump of micro travel is umbrella shape arrangement,Or cylinder arrangement, or word arrangement, or sphere arrangement；Air filtering net is with the side of independent cleaner componentFormula is placed, and uses as the prime entering booster pump, or to be placed on the inlet end front of the thin chamber sub-pump of micro travel,Interweave arrangement therewith, is jointly arranged in an integrated tight space；The thin chamber sub-pump of micro travel unidirectionalThe intake valve of gas is mechanical valve mode, or automatically controlled electromagnetic air valve component, wherein mechanical valve sideFormula has reed, film, trapezoidal plug；The compound mode of each thin chamber sub-pump of micro travel is dual mode；To the pump housingDriving is by dynamic magnetic mode.