JP2006329190A - Magnetic force-driven pump unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a magnetic force-driven pump unit which allows fluid to flow by a small amount of member. <P>SOLUTION: A body 11 is provided with one accommodation space thereinside, wherein at least the outside is a magnetic conductive material. A block 12 has a constant length and the outer peripheral shape corresponding to the inner peripheral shape in the accommodation space, and is made freely rockable in the accommodation space and driven by magnetic force. The coil 13 is wound around the outer peripheral surface of the body 11 and connected with an electronic circuit for supplying current, and drives the block 12. By driving the block 12, fluid disposed on one side or both sides of the block 12 can be fluidized. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an apparatus for flowing a fluid, and more particularly to a pump unit driven by magnetic force.

In a conventional pump for pumping fluid, an impeller or a piston is attached in the middle of the tube, and the impeller is rotated by a motor, or the piston is reciprocated, whereby the fluid circulates and flows in the tube. Or transported elsewhere.
Conventional pumps require the use of high cost and high volume motors. In general, a single pump system may be provided with one pump device, or two tube systems may be connected to a single pump device. It is necessary to install a valve or check valve, which is expensive and very inconvenient to use.

  The applicant of the present invention has proposed Patent Document 1, but this apparatus is provided with five magnets in one chamber, and a few through holes are opened in the chamber. One of the magnets is moved back and forth by means of a possible coil, so that two fluids are alternately pumped, which can be applied to a liquid refrigerant type or phase change type cooling system, especially the cold drawn from the environment Air can be an endothermic refrigerant, and when installing the device, care must be taken that the five magnets face each other with the same polarity.

US Pat. No. 6,364,003

A main object of the present invention is to provide a magnetically driven pump unit capable of flowing a fluid with a small amount of member such as a magnet.
The next object of the present invention is to provide a magnetically driven pump unit capable of flowing fluid within one line system or two independent line systems.
Another object of the present invention is to provide a magnetically driven pump unit that does not require the installation of multiple shut-off valves or multiple check valves in a connected external line system.

  The present invention, which has been made to achieve the above object, has a housing space inside, a main body having at least an outer side made of a magnetic conductive material, a fixed length, and an outer peripheral shape within the housing space Corresponding to the circumferential shape, swingable inside the accommodation space, connected to a magnetically driven block and an electronic circuit that wraps around the outer peripheral surface of the body and provides current, and drives the block The gist of the invention is that it is a magnetically driven pump unit including a coil.

The magnetic drive pump unit according to the present invention has the following effects.
(A) Since the fluid can be flowed by a small amount of member such as a magnet, the pump can be miniaturized.
(B) Assembly work is extremely convenient.
(C) It is not necessary to install a large number of shut-off valves or a large number of check valves in a connected external pipeline system.

DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
First, refer to FIG. The magnetic drive pump unit according to the first embodiment of the present invention includes at least one main body 11, one block 12, and one coil 13.
The main body 11 may have a certain length, and may have one accommodating space inside, and the accommodating space may be provided in a tubular shape.

The block 12 has a certain length, the outer peripheral shape corresponds to the inner peripheral shape of the accommodating space, is swingable inside the accommodating space, and is driven by a magnetic force. It may be made of a superconductor.
The coil 13 is wound around the outer peripheral surface of the main body 11 and connected to an electronic circuit that provides a current (for example, a current whose flow direction can be changed or a current whose flow direction changes periodically). By driving, the fluid located on one side or both sides of the block 12 is caused to flow.

  Further, the outer peripheral surface of the main body 11 is made of any one of silicon steel, iron, amorphous material (eg, amorphous silicon), permanent magnet, or superconductor. In addition, the main body 11 may be a tubular body having a circular cross section formed by winding a sheet, or a circular structure configured by fitting a plurality of sleeves having different diameters to each other. It may be a tube having a cross section.

  Reference is now made to FIG. The structure of the main body 11 of the magnetically driven pump unit according to the second embodiment of the present invention includes a tube body 111 having a circular cross section and having an accommodating space, and a magnetic conductor 112 covering the outer peripheral surface of the tube body 111. The magnetic conductor 112 is made of any one of silicon steel, iron, amorphous material, permanent magnet, or superconductor, and the magnetic conductor 112 is a sheet. A tube having a circular cross section formed by winding a tube, a tube having a circular cross section configured by fitting a plurality of sleeves having different diameters to each other, and the tube Covers the outer peripheral surface of the tubular body 111.

Due to the above structure, a power source of a reciprocating pump is formed, and the coil 13 is wound around the magnetic conductive material or the magnetic conductor 112, so that the magnetic flux driving the block 12 is increased, and the coil 13 The temperature also drops.
Reference is also made to FIG. The present embodiment further includes one magnetic path portion 14 which covers the outer peripheral surface of the coil 13 and effectively guides the magnetic field generated by the coil 13 to drive the block 12. However, it may be made of a metal material, and openings are opened at both ends of the main body 11, and the magnetic path portion 14 extends along the peripheral surface of the coil 13 to the center of the back surface of the coil 13. Another magnetic path portion that is folded or overlapped with a part of the magnetic path portion 14 extends to the center of the back surface of the coil 13, thereby effectively guiding the magnetic field to drive the block 12, When the main body 11 includes a magnetic conductive material, the end of the magnetic path 14 or the end of another magnetic path overlapped with a part of the magnetic path 14 is in contact with the magnetic conductive material. Without this, the magnetic path other than scheduled Formed longer, electromagnetic effect is better.

  Reference is also made to FIGS. The present embodiment further includes at least a limiting portion 15 provided in the housing space and positioned on one side of the block 12 to limit the stroke of the block 12, whereby the block 12 is brought to a predetermined position. When positioned, a larger electromagnetic force is applied to the block 12 because the resultant magnetic force at the predetermined position is greater.

  Reference is also made to FIGS. The housing space communicates with openings at both ends of the main body 11, and this embodiment further includes two pairs of check valve portions 16, and a pair of the check valve portions 16 are provided at both ends of the main body 11. Each is provided, so that the fluid is allowed to flow only in one direction from the first position to the second position. Therefore, this embodiment has an effect of causing the fluid to flow by reciprocation.

  Reference is also made to FIGS. In the magnetic drive pump unit according to the third embodiment or the fourth embodiment of the present invention, the first position and the second position are located outside the pump unit, and a pair of non-returns located on one side of the block 12 One of the valve portions 16 and one of the pair of check valve portions 16 located on the other side of the block 12 communicate with the first position, and the remaining two check valve portions 16 are the first ones. In this embodiment, in addition to the two positions, a covering 17 that covers the outer peripheral surface of the coil 13 and the outer peripheral surfaces of the four check valve portions 16 is formed at the first position. A pair of check valve portions 16 having a passage 171 and a pair of check valve portions 16 having a second flow path 172 formed at the second position, and both ends of the covering device 17 are respectively fluidic. The inlet end and the outlet end, i.e. the fluid is the first end A road 171, and the accommodating space, is passed to flow between the second passage 172 in this order.

In addition, each check valve portion 16 of the magnetically driven pump unit according to the present embodiment includes a third flow path 62 and a universal valve membrane 64, and the cross-sectional area of the middle portion of the third flow path 62 is the both ends thereof. One stop portion 66 is further provided in the middle portion.
The universal valve membrane 64 is movable in the middle part of the third flow path 62, and is located between the stopper 66 and one end of the third flow path 62, and has a cross-sectional area of the third flow path. 62 is smaller than the cross-sectional area of the middle part of the 62 and larger than the cross-sectional area of both ends of the third flow path 62, and when the free valve membrane 64 moves to the stopper 66, The fluid flow is not blocked, and the fluid flow in the third flow path 62 is blocked when the universal valve membrane 64 moves away from the stop portion 66, so that only in one direction. A flowable valve is formed.

  In addition, the magnetic drive pump unit according to the present embodiment further includes another coil that is connected to the coil 13 along the moving direction of the block 12 and is wound around the outer peripheral surface of the main body 11. May be connected to one electronic circuit separately, or may be connected to one electronic circuit after being connected to each other, and the magnetic lines of force of the two coils are different. The electromagnetic force for driving is improved.

It is sectional drawing which shows the magnetic drive pump unit by Example 1 of this invention. It is sectional drawing which shows the magnetic drive pump unit by Example 2 of this invention. It is sectional drawing which shows the magnetic drive pump unit by Example 3 of this invention. It is sectional drawing which shows the magnetic drive pump unit by Example 4 of this invention. It is the schematic which shows the operation | movement of the magnetic drive pump unit by Example 4 of this invention, and the flow of an internal fluid.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 11 Main body, 12 Block, 13 Coil, 14 Magnetic passage part, 15 Restriction part, 16 Check valve part, 17 Cover, 62 3rd flow path, 64 Free valve membrane, 66 Stop part, 111 Tubing body, 112 Magnetic conductor , 171 First flow path, 172 Second flow path

Claims (84)

A main body having one accommodating space inside and at least the outside being a magnetic conductive material;
A block having a certain length, an outer peripheral shape corresponding to an inner peripheral shape of the housing space, swingable inside the housing space, and driven by a magnetic force;
A coil that is wound around the outer peripheral surface of the main body, is connected to an electronic circuit that provides current, and drives the block;
A magnetically driven pump unit comprising:   The magnetic drive pump unit according to claim 1, wherein the main body is made of any one of silicon steel, iron, amorphous material, and permanent magnet.   The magnetic drive pump unit according to claim 1, wherein the main body is a tubular body having a circular cross section formed by winding a sheet.   The magnetic drive pump unit according to claim 2, wherein the main body is a tubular body having a circular cross section formed by winding a sheet.   The magnetic drive pump unit according to claim 1, wherein the main body is a tubular body having a circular cross section configured by fitting a plurality of sleeves having different diameters to each other.   The magnetic drive pump unit according to claim 2, wherein the main body is a tubular body having a circular cross section configured by fitting a plurality of sleeves having different diameters to each other.   The magnetic drive pump unit according to claim 1, wherein the main body includes a tubular body having a circular cross section and a magnetic conductor covering an outer peripheral surface of the tubular body.   8. The magnetic drive pump unit according to claim 7, wherein the magnetic conductor is made of any one of silicon steel, iron, an amorphous material, and a permanent magnet.   8. The magnetic drive pump unit according to claim 7, wherein the magnetic conductor is a tube having a circular cross section formed by winding a sheet.   9. The magnetic drive pump unit according to claim 8, wherein the magnetic conductor is a tube having a circular cross section formed by winding a sheet.   8. The magnetic drive pump unit according to claim 7, wherein the magnetic conductor is a tubular body having a circular cross section formed by fitting a plurality of sleeves having different diameters to each other.   9. The magnetically driven pump unit according to claim 8, wherein the main body is a tubular body having a circular cross section formed by fitting a plurality of sleeves having different diameters to each other. Including one magnetic passage section,
2. The magnetic drive pump unit according to claim 1, wherein the magnetic passage portion covers an outer peripheral surface of the coil and drives the block by effectively guiding a magnetic field generated by the coil. Including one magnetic passage section,
3. The magnetic drive pump unit according to claim 2, wherein the magnetic passage portion covers an outer peripheral surface of the coil and drives the block by effectively guiding a magnetic field generated by the coil. Including one magnetic passage section,
4. The magnetic drive pump unit according to claim 3, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
5. The magnetic drive pump unit according to claim 4, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
6. The magnetically driven pump unit according to claim 5, wherein the magnetic passage portion covers an outer peripheral surface of the coil, and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
7. The magnetic drive pump unit according to claim 6, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
The magnetic drive pump unit according to claim 7, wherein the magnetic passage portion covers an outer peripheral surface of the coil and drives the block by effectively guiding a magnetic field generated by the coil. Including one magnetic passage section,
9. The magnetic drive pump unit according to claim 8, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
The magnetic drive unit according to claim 9, wherein the magnetic passage portion covers an outer peripheral surface of the coil, and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
11. The magnetic drive pump unit according to claim 10, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
12. The magnetic drive pump unit according to claim 11, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
13. The magnetic drive pump unit according to claim 12, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block.   Openings are opened at both ends of the main body, and the magnetic path portion is folded into the center of the back surface of the coil along the circumferential surface of the coil, and its two end portions are two end portions of the main body. The magnetic drive pump unit according to claim 13, wherein the magnetic drive pump unit is in contact with each other.   Openings are opened at both ends of the main body, and the magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and its two ends and two end portions of the main body The magnetically driven pump unit according to claim 14, wherein predetermined gaps remain between the two.   Openings are opened at both ends of the main body, and the magnetic path portion is folded into the center of the back surface of the coil along the circumferential surface of the coil, and its two end portions are two end portions of the main body. The magnetic drive pump unit according to claim 15, wherein the magnetic drive pump unit is in contact with each other.   Openings are opened at both ends of the main body, and the magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and its two ends and two end portions of the main body 17. The magnetically driven pump unit according to claim 16, wherein predetermined gaps remain between the two.   Openings are opened at both ends of the main body, and the magnetic path portion is folded into the center of the back surface of the coil along the circumferential surface of the coil, and its two end portions are two end portions of the main body. The magnetic drive pump unit according to claim 17, wherein the magnetic drive pump unit is in contact with each other.   Openings are opened at both ends of the main body, and the magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and its two ends and two end portions of the main body 19. The magnetically driven pump unit according to claim 18, wherein predetermined gaps remain between the two.   Openings are opened at both ends of the tubular body having a circular cross section, and the magnetic passage portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and the two ends and the main body 20. The magnetically driven pump unit according to claim 19, wherein a predetermined gap remains between each of the two ends of the magnetically driven pump unit.   Openings are opened at both ends of the tubular body having a circular cross section, and the magnetic passage portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and the two ends and the main body 21. The magnetically driven pump unit according to claim 20, wherein a predetermined gap remains between each of the two end portions.   Openings are opened at both ends of the tubular body having a circular cross section, and the magnetic passage portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and the two ends and the main body The magnetically driven pump unit according to claim 21, wherein a predetermined gap remains between each of the two end portions.   Openings are opened at both ends of the tubular body having a circular cross section, and the magnetic passage portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and the two ends and the main body 23. The magnetically driven pump unit according to claim 22, wherein a predetermined gap remains between each of the two ends of the magnetically driven pump unit.   Openings are opened at both ends of the tubular body having a circular cross section, and the magnetic passage portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and the two ends and the main body 24. The magnetically driven pump unit according to claim 23, wherein a predetermined gap remains between each of the two end portions.   Openings are opened at both ends of the tubular body having a circular cross section, and the magnetic passage portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and the two ends and the main body 25. The magnetically driven pump unit according to claim 24, wherein a predetermined gap remains between each of the two end portions.   The magnetic drive pump unit according to claim 1, further comprising a limiting portion that is provided in the housing space and limits a stroke of the block.   The magnetic drive pump unit according to claim 7, further comprising a limiting portion that is provided in the housing space and limits a stroke of the block.   The magnetic drive pump unit according to claim 13, further comprising a limiting portion provided in the housing space and limiting a stroke of the block.   The magnetic drive pump unit according to claim 19, further comprising a limiting portion provided in the housing space and limiting a stroke of the block.   26. The magnetic drive pump unit according to claim 25, further comprising a limiting portion provided in the housing space and limiting a stroke of the block.   32. The magnetically driven pump unit according to claim 31, further comprising a limiting portion that is provided in the housing space and limits a stroke of the block. A main body having an accommodation space communicating with the openings at both ends inside;
A block having a certain length, an outer peripheral shape corresponding to an inner peripheral shape of the housing space, swingable inside the housing space, and positioned between both ends of the main body;
A coil wound around the outer peripheral surface of the main body, connected to an electronic circuit for providing a current, and reciprocally drives the block;
A pair of both ends of the main body, including a check valve portion for allowing only one-way flow of fluid from the first position to the second position;
A magnetic drive pump unit, wherein the fluid flows only from a first position to a second position.   44. The magnetically driven pump unit according to claim 43, wherein at least the outer side of the main body is made of a magnetic conductive material.   45. The magnetic drive pump unit according to claim 44, wherein the main body is made of any one of silicon steel, iron, amorphous material, and permanent magnet.   The magnetic drive pump unit according to claim 44, wherein the main body is a tubular body having a circular cross section formed by winding a sheet.   The magnetic drive pump unit according to claim 45, wherein the main body is a tubular body having a circular cross section formed by winding a sheet.   45. The magnetically driven pump unit according to claim 44, wherein the main body is a tubular body having a circular cross section configured by fitting a plurality of sleeves having different diameters to each other.   46. The magnetic drive pump unit according to claim 45, wherein the main body is a tubular body having a circular cross section formed by fitting a plurality of sleeves having different diameters to each other.   The magnetic drive pump unit according to claim 44, wherein the main body includes a tubular body having a circular cross section and a magnetic conductor covering an outer peripheral surface of the tubular body.   51. The magnetically driven pump unit according to claim 50, wherein the magnetic conductor is made of any one of silicon steel, iron, an amorphous material, or a permanent magnet.   51. The magnetic drive pump unit according to claim 50, wherein the magnetic conductor is a tubular body having a circular cross section formed by winding a sheet.   52. The magnetic drive pump unit according to claim 51, wherein the magnetic conductor is a tubular body having a circular cross section formed by winding a sheet.   51. The magnetic drive pump unit according to claim 50, wherein the magnetic conductor is a tubular body having a circular cross section configured by fitting a plurality of sleeves having different diameters to each other.   52. The magnetically driven pump unit according to claim 51, wherein the magnetic conductor is a tubular body having a circular cross section configured by fitting a plurality of sleeves having different diameters to each other. Including one magnetic passage section,
44. The magnetic drive pump unit according to claim 43, wherein the magnetic passage portion covers an outer peripheral surface of the coil, and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
45. The magnetic drive pump unit according to claim 44, wherein the magnetic passage portion covers an outer peripheral surface of the coil, and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
47. The magnetically driven pump unit according to claim 46, wherein the magnetic passage portion covers an outer peripheral surface of the coil and drives the block by effectively guiding a magnetic field generated by the coil. Including one magnetic passage section,
49. The magnetic drive pump unit according to claim 48, wherein the magnetic passage portion covers an outer peripheral surface of the coil and drives the block by effectively guiding a magnetic field generated by the coil. Including one magnetic passage section,
51. The magnetically driven pump unit according to claim 50, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block. Including one magnetic passage section,
53. The magnetic drive pump unit according to claim 52, wherein the magnetic passage portion covers an outer peripheral surface of the coil and drives the block by effectively guiding a magnetic field generated by the coil. Including one magnetic passage section,
55. The magnetically driven pump unit according to claim 54, wherein the magnetic passage portion covers an outer peripheral surface of the coil and effectively guides a magnetic field generated by the coil to drive the block.   57. The magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and its two end portions are in contact with the two end portions of the main body, respectively. The magnetic drive pump unit described in 1.   58. The magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and its two ends abut against the two ends of the main body, respectively. The magnetic drive pump unit described in 1.   The magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and a predetermined gap remains between the two end portions and the two end portions of the main body. 59. The magnetically driven pump unit according to claim 58.   The magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and a predetermined gap remains between the two end portions and the two end portions of the main body. 60. The magnetically driven pump unit according to claim 59.   The magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and a predetermined gap remains between the two end portions and the two end portions of the main body. 61. The magnetically driven pump unit according to claim 60, wherein:   The magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and a predetermined gap remains between the two end portions and the two end portions of the main body. 62. The magnetically driven pump unit according to claim 61, wherein:   The magnetic path portion is folded into the center of the back surface of the coil along the peripheral surface of the coil, and a predetermined gap remains between the two end portions and the two end portions of the main body. 63. The magnetically driven pump unit according to claim 62, wherein: The first position and the second position are located outside the pump unit, and one of a pair of check valve portions located on one side of the block and a pair of feet located on the other side of the block One of the check valve portions communicates with the first position, the remaining two check valve portions communicate with the second position,
A covering for covering the outer peripheral surface of the coil and the outer peripheral surfaces of the four check valve portions;
A pair of check valve portions formed in the first position and having a first flow path;
The magnetically driven pump unit according to any one of claims 43 to 69, further comprising a pair of check valve portions formed at the second position and having a second flow path.   65. The magnetically driven pump unit according to claim 43, 44, 50, 56, 57, 63, or 64, further comprising a limiting portion that is provided in the housing space and limits a stroke of the block.   The magnetically driven pump unit according to claim 70, further comprising a limiting portion provided in the housing space and limiting a stroke of the block. Each check valve portion includes a third flow path and a universal valve membrane,
In the third flow path, the cross-sectional area of the middle stage part is larger than the cross-sectional area of both ends, and one stop part is provided in the middle stage part,
The universal valve membrane is movable at a middle portion of the third flow path, and is located between the stopper and one end of the third flow path, and a cross-sectional area thereof is a crossing of the middle stage portion of the third flow path. Smaller than the area, larger than the cross-sectional area of both ends of the third flow path, and when the universal valve membrane moves to the stopper, the flow of fluid in the third flow path is not blocked, The fluid flow in the third flow path is in a state of being interrupted when the universal valve membrane is separated from the stop portion, 65, 57, 63 or 64. Magnetically driven pump unit. Each check valve portion includes a third flow path and a universal valve membrane,
In the third flow path, the cross-sectional area of the middle stage part is larger than the cross-sectional area of both ends, and one stop part is provided in the middle stage part,
The universal valve membrane is movable at a middle portion of the third flow path, and is located between the stopper and one end of the third flow path, and a cross-sectional area thereof is a crossing of the middle stage portion of the third flow path. Smaller than the area, larger than the cross-sectional area of both ends of the third flow path, and when the universal valve membrane moves to the stopper, the flow of fluid in the third flow path is not blocked, The magnetically driven pump unit according to claim 70, wherein the flow of fluid in the third flow path is blocked when the universal valve membrane is separated from the stop portion. Each check valve portion includes a third flow path and a universal valve membrane,
In the third flow path, the cross-sectional area of the middle stage part is larger than the cross-sectional area of both ends, and one stop part is provided in the middle stage part,
The universal valve membrane is movable at a middle portion of the third flow path, and is located between the stopper and one end of the third flow path, and a cross-sectional area thereof is a crossing of the middle stage portion of the third flow path. Smaller than the area, larger than the cross-sectional area of both ends of the third flow path, and when the universal valve membrane moves to the stopper, the flow of fluid in the third flow path is not blocked, 72. The magnetically driven pump unit according to claim 71, wherein the flow of fluid in the third flow path is blocked when the universal valve membrane leaves the stop. Each check valve portion includes a third flow path and a universal valve membrane,
In the third flow path, the cross-sectional area of the middle stage part is larger than the cross-sectional area of both ends, and one stop part is provided in the middle stage part,
The universal valve membrane is movable in the middle portion of the third flow path, and is located between the stopper and one end of the third flow path, and the cross-sectional area thereof is a crossing of the middle stage portion of the third flow path. Smaller than the area, larger than the cross-sectional area of both ends of the third flow path, and when the universal valve membrane moves to the stopper, the flow of fluid in the third flow path is not blocked, The magnetically driven pump unit according to claim 72, wherein the flow of the fluid in the third flow path is blocked when the universal valve membrane is separated from the stop portion.   The magnetic field lines of the two coils are different from each other, including another coil connected to the coil along the moving direction of the block and wound around the outer peripheral surface of the main body. To a magnetically driven pump unit according to any one of 44 to 50.   71. The coil includes another coil connected to the coil along a moving direction of the block and wound around an outer peripheral surface of the main body, and the lines of magnetic force of the two coils are different from each other. The magnetic drive pump unit described in 1.   72. It includes another coil that is connected to the coil along the moving direction of the block and is wound around the outer peripheral surface of the main body, and the lines of magnetic force of the two coils are different from each other. The magnetic drive pump unit described in 1.   75. The coil includes another coil connected to the coil along a moving direction of the block and wound around an outer peripheral surface of the main body, and the lines of magnetic force of the two coils are different from each other. The magnetic drive pump unit described in 1.   74. The coil includes another coil connected to the coil along a moving direction of the block and wound around an outer peripheral surface of the main body, and the lines of magnetic force of the two coils are different from each other. The magnetic drive pump unit described in 1.   75. The coil according to claim 74, further comprising another coil connected to the coil along a moving direction of the block and wound around an outer peripheral surface of the main body, wherein the magnetic field lines of the two coils are different from each other. The magnetic drive pump unit described in 1.   75. The coil includes another coil connected to the coil along a moving direction of the block and wound around an outer peripheral surface of the main body, and the lines of magnetic force of the two coils are different from each other. The magnetic drive pump unit described in 1.   77. The coil includes another coil connected to the coil along a moving direction of the block and wound around an outer peripheral surface of the main body, and the lines of magnetic force of the two coils are different from each other. The magnetic drive pump unit described in 1.

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