TH42120B - Drive machine Exposure regulator And lens drives - Google Patents

Abstract

DC60 (24/10/46) The drive unit includes a rotor that rotates around a spindle and has a magnetic part. a cylindrical shape with a surface along the perimeter The outer part is directionally divided into a number of different magnetized parts, the outer magnetic pole at least. One of the most Form it so that it is directed in a direction parallel to the axis of rotation of this rotor and towards the outer periphery surface of this magnetic segment. The magnetic pole part is set in which has been formed. come up opposite to this outer magnetic pole and facing surface around the inside of this magnetic part and coil for Magnetically excites the outer and inner magnetic poles. This winding is arranged in the direction of the axis of rotation of this rotor. Retained selectively at one of the three stop positions. and will satisfy the condition of -0.3X+0.72 < Y where Y is the ratio. of the angle at the center of each outer magnetic pole segment with respect to the angle at the center of the treated pole each magnet in this magnetic segment, and X is the ratio. of the perimeter of the mothered pole steel each pole in This magnetic segment is relative to the thickness of the parent segment. steel in the radial direction of this section. The drive unit includes a rotor that rotates around the axis of rotation and has a magnetic section. a cylindrical shape with a surface along the perimeter The outer part is divided along the periphery into magnetically different parts with a certain number of parts, at least the outer magnetic poles. One of the most Form it so that it is directed in a direction parallel to the axis of rotation of this rotor and towards the outer periphery surface of this magnetic segment. The magnetic pole part is set in which has been formed. come up opposite to this outer magnetic pole and facing surface around the inside of this magnetic part and coil for Magnetically excites the outer and inner magnetic poles. This winding is arranged in the direction of the axis of rotation of this rotor. Retained selectively at one of the three stop positions. and will satisfy the condition of -0.3X+0.72 < Y where Y is the ratio. of the angle at the center of each outer magnetic pole segment with respect to the angle at the center of the treated pole each magnet in this magnetic segment, and X is the ratio. of the perimeter of the mothered pole steel each pole in This magnetic segment is relative to the thickness of the parent segment. steel in the radial direction of this section.

Claims (9)

1. Drive unit, which consists of: a rotating rotor and a shaped magnetic part. cylinder, which has a surface along the The outer circumference has been divided according to orients around a figure to a number of different magnetized sections; at least one set of outer magnetic poles which have been Formation is up to be horizontal. in the direction parallel to the spindle said of the rotor and facing the outer periphery surface. such of the aforementioned magnetic section; The inner magnetic pole, which has been formed opposite to the magnetic pole The outer set said and turned in. Find the surface around the inside of the magnetic segment; and the coil for excitation of the outer magnetic pole part and Magnetic pole part set in such as magnetically, the windings are arranged along the direction of the spindle of the said rotor. where such a rotor can be selectively maintained at one of the positions stop three positions and will be consistent Under the condition of -0.3X+0.72 < Y, where Y is the ratio of the angles at the center of each outer magnetic pole segment. with respect to the angle at the center of each magnetized pole in that magnetic segment, and X is the ratio of the length along the around the shape of the terminal that has been made into Each pole of the magnet in the aforementioned magnetic segment is relative to the thickness of such magnetic section in the radial direction of this section 2. Motor driven according to claim 1, which also consists of further included with the value control component, which the control component This value controls the rotational range of the rotor. in such a way that This rotational range includes the region where The direction of attraction due to the magnetic force acting between the said magnetic part of the rotor and the parent pole part. Such outer irons are opposite each other, but do not include zones. The area where the center of the pole is mated. such steel in The magnetic segment is facing the center of the The outer magnetic pole 3. Light dosing regulator which consists of: a rotatable rotor and a shaped magnetic part. freckles which have a surface along The outer circumference has been divided along the lines. Orienting the figure to a number of different magnetized sections; outer assembly which the components of the output has been driven in characteristic corresponds to the rotation of the rotor as mentioned; at least one set of outer magnetic poles which have been Formation is up to be horizontal. In the direction that the size with the spindle is loud. said of the rotor and facing the outer periphery surface. such of the aforementioned magnetic section; As for the inner magnetic stage, which is still being formed opposite to the magnetic pole The outer set said and turned in. Find the surface around the inside of the magnetic segment; coils for excitation of the aforementioned magnetic pole parts and Magnetic pole part set in such magnetically, the windings are arranged along the direction of the spindle of the said rotor; plate which has a slot section; and Exposure control element for changing the amount of light. that moves through the channel section, in which the control component Such a driven amount of light is driven by the aforementioned exit assembly for movement. forward to the slot section or retract from the slot section of the sheet. where such exposure control components can receive Selective retention is possible at one of the three stop positions and will satisfy the condition of -0.3X+0.72 < Y, where Y is the ratio of the angle at the center of the parent pole. The outer set of each part is compared with The angle at the center of the pole Each pole is magnetized in that magnetic segment, and X is the ratio of the perimeter of the pole to has been magnetized for each pole in loud magnetic part compared with the thickness of the magnetic segment in the direction along radial line of this section 4. Exposure regulator pursuant to Claim 3, where such plates will be provided. come up with a guide which will be related to the components of the output for limited range The excitation drive of such exit components and the guide grooves are formed in such a way that the rotation range includes the region where The direction of attraction is due to The magnetic force acting between The aforementioned magnetic part of the rotor and the aforementioned magnetic pole part are opposite each other. but does not include districts The area in which the center of the magnetized pole in the magnetic segment faces the center of the outer magnetic part. 5. The light meter pursuant to Claim 3, where the rotor is rotated smoothly. selectable in the direction one of the opposite directions in such a way as to correspond to the direction of the current supplied to that winding with the stop position. of such rotor at the time when no current is supplied to such windings as a boundary. 6. The light meter according to claim 3, where the outer magnetic pole will be get photoshopped The body is a tooth-shaped structure aligned in a parallel direction. A notch leading from the tip of the barrel 7. The light meter according to claim 3, where one end of the spindle is of such rotor will Rotatingly interlocked with a hole formed at a certain position on the plate. away from the slot part of such plate, and the other end of the spindle of such rotor shall be rotatively interlocked with the hole formed at the center of the The magnetic pole part is set in the aforementioned 8. Lens drive unit, which includes: a rotatable rotor and a shaped magnetic part. cylinder, which has a surface along the The outer circumference has been divided according to Orienting the figure to a number of different magnetized sections; outer assembly which the components of the output will has been driven in The characteristics are consistent with the rotation of the rotor as mentioned; at least one set of outer magnetic poles which have been Formation is up to be horizontal. in the direction parallel to the spindle said of the rotor and facing the outer periphery surface. such of the aforementioned magnetic section; The inner magnetic pole, which has been formed opposite to the magnetic pole The outer set said and turned in. find another surface around the inside of the magnetic segment; coils for excitation of the aforementioned magnetic pole parts and Magnetic pole part set in magnetically such windings are arranged in the direction of the axis of rotation of such rotor; plate, which has a channel section; and a lens for changing the focal length of the passing beam. The channel, which the lens is driven by. Assembled parts on the exit to move forward to the slot section or to retract from the slot section of the plate, where the lens can be selectively maintained at one of the three stop positions and will correspond conditionally -0.3X+0.72 < Y, where Y is the ratio of the angle at the center of each of the outer magnetic pole segments. with the angle at the center of each magnetized pole in that magnetic segment, and X is the ratio. of the length along the around the figure of the mothered terminal Each pole in the magnetic section is compared with the thickness of such magnetic section in the radial direction of this section 9. Lens drive according to claim 8, where such plates will be provided. come up with a guide which will be related to the components of the output for limited range The excitation drive of such exit components and such guide grooves is formed in such a way that the rotational range includes the region in which the direction of attraction due to The magnetic force acting between the parent parts The iron of the aforementioned rotor with the outer magnetic pole part. They are opposite each other. but does not include areas where The center of the terminal that has been made is such a magnet in The magnetic segment faces the center of the parent pole segment. The outer set of steel