JPH0767314A - Linear motor - Google Patents

Abstract

PURPOSE: To extend the movement path of a linear motor by a method, wherein a primary side which has a core-forming spaces, windings placed in the spaces and a secondary side, which surrounds the primary side so as to be apart from the primary side with an air gap therebetween, are provided. CONSTITUTION: A linear motor 10 has a cylindrical primary side 20 made of a magnetic material, and the primary side 20 is separated from a pipe-type hollow fixed secondary side 30 made of conductive material with an approximately uniform air gap 25 therebetween. The primary side 20 has a plurality of ferromagnetic plates or layer-built units 22a and 22b. The ferromagnetic plates 22a and 22b are layered and bonded to each other to form slots 23. A number of conductive windings 24 are wound in the slots 23. The air gap 25 is kept approximately uniform. The primary side 20 can be easily moved in the secondary side 30 by using a known guide mechanism, such as various types of rollers, a sliding mechanism, etc.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a linear motor,
More specifically, it relates to a linear induction motor having a first movable member and a second fixed member.

[0002]

The principle of operation of linear induction motors is well known in the art, and the principle of operation is the same as that of rotary motors. A mobile electromagnetic field is created by the primary side (core and windings) of the multiphase winding. A voltage and a current are generated on the secondary side by this electromagnetic field, and a linear thrust is generated by the interaction between the generated current and the mobile electromagnetic field. Generally, the primary side is movable,
It has a ferromagnetic core with conductive windings in which the slots are embedded, while the secondary side is fixed and fixedly attached to an isometric ferromagnetic material, of fixed length. It has a conductor. There is a substantially constant air space between the primary side and the secondary side, which space separates them. The winding is electrically connected to a power source, such as an AC power source, connected to the winding via an inverter and a mobile power cable. For various types of linear motors and their working principles, see Pre, 1987.
nice-Hall, Inc. "Linear electric motors: theory, design and practical application (Linea
r Electric Motors: Theory,
Design, and Practical Appl
ications) "(SA Nasar and IB
oldea).

[0003]

According to the idea of the present inventor, it is the length of the secondary side that most restricts the traveling path of the linear motor. This point is, for example, a tubular linear motor. When works, ie vertical (up and down)
It can be a drawback when moving in the direction. For example, U.S. Pat. No. 4,402,386 (self-powered elevator using a linear electric motor as a counterweight) and U.S. Pat. No. 5,062,501 (elevator equipped with a linear motor counterweight assembly). ) And 5,090,516 (linear motor busbar for elevators). When the primary side surrounds the secondary side, it is not easy to support the secondary side with a fixing element (for example, a bracket) at a place other than a place beyond the boundary of the traveling path of the primary side, The inventor has discovered that. Therefore, in this respect, further improvements to the linear motor are considered possible. A first object of the present invention is to promote lengthening the traveling path of a linear motor. A second object of the invention is to facilitate fixing the linear motor to other surfaces.

A third object of the present invention is to protect the primary side of the linear motor from external factors without providing a protection mechanism other than the secondary side of the linear motor.

[0005]

A linear motor according to the present invention has a primary side having a core forming a plurality of spaces for conductive windings, a winding arranged in the space, and a primary side A secondary side surrounding the primary side so as to be separated from the secondary side via an air gap. It is preferable that the primary side has a substantially cylindrical shape and the secondary side is tubular and hollow. Alternatively, the primary side may be in the form of a generally parallel pipe, the secondary side may be a tube adapted to enclose another object, or the primary side may have a suitable air gap inside. It may also be another member adapted to enclose another object, which can accommodate the side. Of course, the primary and secondary sides could have other magnetically and electrically suitable shapes. Also, the outer surface of the primary side and its corresponding secondary side may be different. In a preferred embodiment, the secondary side comprises a plurality of fixed secondary sections, which are, for example, laminated and mechanically and electrically coupled to one another. ing. During operation of the linear motor, the primary side travels linearly (eg, up and down) within the secondary side, for example, according to conventional methods of controlling electrical energy applied to the windings.

Since the movement or advance of the primary side is performed while being enclosed inside the secondary side, it is possible to fix the secondary side to another supporting structure (for example, a wall) at an appropriate interval. It will be possible. The secondary side need not be supported only at its ends. Other objects of the present invention will be readily apparent in view of the following detailed description with reference to the drawings.

[0007]

1 shows a linear motor 10 as an embodiment of the present invention. The linear motor 10 comprises a cylindrical primary side 20 made of magnetic material, which primary side 20 is made of an electrically conductive material via a substantially constant air gap 25 and is a fixed, generally tubular and hollow secondary side. It is separated from the next side 30. The primary side may be, for example, a plurality of ferromagnetic (eg, steel) plates or stacks 22.
a and 22b. This ferromagnetic plate 22a,
22b are stacked and joined together to form a plurality of spaces or slots 23. This slot 2
A large number of conductive windings 24 are wound around 3. The winding wire 24 is electrically connected to a power source 50 (for example, an AC power source) via an inverter 40 by a three-phase AC power source 26, for example. The control of the power to the winding 24 is effected in a known manner, by means of which the primary side 20 electromagnetically cooperates with the secondary side 30 and, if desired, the primary side 20.
In either the first linear direction (arrow A1) or the second linear direction (arrow A2). Air gap 25
Is kept substantially constant, and the primary side 20 can be easily moved inside the secondary side 30 by using a well-known guide mechanism such as various rollers and slide mechanisms. For example, U.S. Pat. No. 4,949,815,
No. 5,005,672 and No. 5,014,
See 826. In addition, this specification refers to these US patents, and the contents of these US patents are described in this specification. As the guide mechanism, for example, there are a plurality of guide rollers 21 fixed to the primary side 20 by a known method (for example, arm 21a). See the side view of FIG. The roller 21 is attached to the outer periphery of the top surface and the bottom surface of the primary side 20, for example, at an angle of 90 degrees to the primary side 20. Of course, it is possible to mount the roller 21 at other angles.

Secondary side 30 comprises a plurality of identical secondary side sections 30 (FIGS. 1 and 7), with adjacent section 3
The 0s are preferably connected to each other using brackets 31 in a known manner. Since the primary side 20 moves inside the hollow space H of the secondary side 30, the secondary side 30 can be mounted on a desired mounting surface along the length direction of the secondary side 30. To secure the secondary side 30 to the wall W, a bracket 31 is used in combination with a bolt and a rigid connecting member 34, as shown in FIG. To increase the efficiency of the present linear motor, as shown in the cross-sectional view of FIG. 3, the secondary side 30 is surrounded by a conductive material (eg, aluminum or the like) that is closely surrounded by a layer of ferromagnetic material (eg, iron). It may have an inner layer of copper or the like. The shapes of the primary side and the corresponding secondary side are as desired as long as the primary side and the secondary side are in proper electromagnetic cooperation, as will be readily understood by those skilled in the art in light of the present specification. Can be changed. For example, the primary side 20 ', 20 "and the secondary side 30a', 30b ', 30 as shown in FIGS.
Please refer to the cross section of a variant of a ", 30b" and air gaps 25 ', 25 ". Alternatively, the primary side 20 has a channel or hollow C (Fig. 6) extending through the interior of the primary side 20. (Indicated by a broken line in FIG. 2) A fan 60 having a motor connected to a blade
The fan 60 is provided with, for example, the fixed screen 3
The size is determined so that air is sent into the inside of the secondary side 30 via 2. This allows air to pass through the interior of channel C and draw heat from the primary side 20 when the primary side 20 is operating with the secondary side 30. Of course, the fan 60 can also be placed in any other suitable position in order to blow air into the hollow H. If desired, it is possible not to form the channel C.
Of course, the air also passes through the gap 25.

The linear motor according to the present invention, when used as a drive mechanism for an elevator system, is
It is useful. See FIG. 7. When used in this manner, the primary side 20 is, for example, a known rope having ropes R and pulleys P that can be readily understood by those skilled in the elevator art in light of the description herein. It is mechanically attached to the box (car) via the mechanism. See, eg, US Pat. No. 5,090,516. In addition, this specification refers to this US patent, and the contents of this US patent are described in this specification. Finally, if necessary, one or both ends E of the secondary side 30
Can also be closed, i.e., covered, with a cover adapted to pass the rope R, cable 26, etc. (see Figure 7). Although what has been described is considered to be a preferred embodiment of the present invention at this stage, various changes and modifications can be made without departing from the spirit and scope of the present invention.

[Brief description of drawings]

FIG. 1 is a side sectional view of a reverse linear motor according to the present invention.

FIG. 2 is a schematic circuit diagram showing an inverter connected to a three-phase AC power supply.

FIG. 3 is a conductive layer 30 surrounded and surrounded by a ferromagnetic layer 30a.
It is the sectional view seen from the upper side of the primary side arranged inside secondary side 30 of the multilayer structure provided with b.

FIG. 4 is a cross-sectional view of a primary side having another shape and a secondary side corresponding to the primary side as viewed from above.

FIG. 5 is a cross-sectional view of a primary side having another shape and a corresponding secondary side as seen from above.

FIG. 6 is a schematic side view of the present invention, including a partial cross-sectional view, showing the primary side 2 inside the secondary side 30 fixed to the wall W.
The roller mechanisms 21 and 21a for guiding 0 are shown. The primary side is provided with a channel C penetrating the primary side so that the air blown by the fan 60 cools the primary side 20 during the operation of the linear motor.

FIG. 7 is a schematic circuit diagram of an elevator system to which the present invention is applied.

[Explanation of symbols]

10 primary side 20 secondary side 20 ', 20 "modification of primary side 21 guide roller 21a arm 22a, 22b ferromagnetic plate 23 slot 24 winding wire 25 air gap 25', 25" modification of air gap 26 power cable 30 Secondary Side 30a ', 30b', 30a ", 30b" Secondary Side Modification 31 Bracket 32 Fixed Screen 34 Connection Member 40 Inverter 50 Power Supply 60 Fan

Claims (13)

[Claims] 1. A primary side forming a plurality of winding spaces, a winding arranged in the space, and a secondary side surrounding the primary side and forming an elongated channel. And the primary side is located inside the channel and is spaced from the secondary side via an air gap, whereby the primary side is the secondary side in the longitudinal direction of the secondary side. A linear motor that can move inside the secondary side. 2. The linear motor according to claim 1, wherein the air gap is substantially constant. 3. The linear motor according to claim 1, wherein the primary side has an integral core of a metal laminate that forms the space. 4. The linear motor according to claim 1, wherein the primary side is made of steel. 5. The linear motor according to claim 1, wherein the secondary side is provided with an inner peripheral layer of a conductive material that is surrounded by an outer peripheral layer of a ferromagnetic material. 6. The linear motor according to claim 5, wherein the conductive material is copper. 7. The linear motor according to claim 5, wherein the conductive material is aluminum. 8. The linear motor according to claim 5, wherein the ferromagnetic material is iron. 9. The linear motor of claim 5, wherein the secondary side has a plurality of sections that are stacked to form an integral secondary side. 10. The linear motor according to claim 9, wherein the secondary side is attached to a surface of a wall. 11. A linear motor having a primary side disposed inside a secondary side, a box, and the box mechanically coupled to the primary side so that the box moves by the movement of the primary side. Elevator system with a rope mechanism. 12. The elevator system according to claim 11, wherein the primary side comprises a channel extending longitudinally therethrough. 13. A fan further comprising:
12. The secondary hollow part is communicated with the hollow part of the secondary side so as to move the air so as to cause an air flow to the primary side by the operation of the fan. Elevator system described.