JP2006144362A - Blind - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent interception of a shielding material, by miniaturizing the size of a driving part and a driven part, in a blind for operating when a rotary shaft rotates by transmitting motion of the driving part to the driven part, by respectively constituting the driving part and the driven part of a plurality of magnets. <P>SOLUTION: The magnets 20N, 20S, 24N and 24S alternately different in polarity in the peripheral direction to these rotational centers, are respectively arranged in the driving part 20 and the driven part 24. The plurality of magnets 20N and 20S of the driving part 20 are arranged in parallel to an outside surface 12a of a head box 12. The rotational center of the driving part 20 and the rotational center of the driven part 24 are mutually orthogonal, and are arranged in the same height. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a blind in which a drive unit and a driven unit each have a plurality of magnets, and the movement of the drive unit is transmitted to the driven unit by a magnetic force so that a rotating shaft rotates.

  Conventionally, what was described in patent document 1 is known as this kind of blind. According to Patent Document 1, a plurality of magnetic peripheral surface portions in which N poles and S poles are alternately provided on the end surface along the circumferential direction are arranged side by side along the axial direction, and the phase of each magnetic peripheral surface portion is axially centered. A driving body having a magnetic deflection plane portion formed by providing a driven shaft that is deviated around the shaft so as to be rotatable around the axis and alternately providing N and S poles along the circumferential direction on the end face. It is provided so that it can rotate freely. The driving body is rotatable about a rotation axis along a direction in which the magnetic flat portion is directed to the driven shaft and is orthogonal to the axis of the driven shaft.

Japanese Patent Laid-Open No. 5-214882

  However, in the conventional blind described above, a plurality of magnetic peripheral surface portions are arranged in parallel along the axial direction, so that the magnetic flat surface portions in which N poles and S poles are alternately provided on the end surfaces along the circumferential direction are provided. In order to face a plurality of magnetic peripheral surface portions arranged in parallel, it is necessary to shift the height of the axis of the driven shaft and the axis of the drive body. It is necessary to arrange below the axis. If it does so, the drive body used as an operation part will be located in the shielding material side of a blind, and will conceal a shielding material, and there exists a problem that the function as a blind is impaired and an appearance deteriorates.

  In the conventional blind, a plurality of magnetic peripheral surface portions of the driven shaft are arranged in parallel along the axial direction, so that the length of the driven shaft becomes long, and the area where the driven shaft occupies the space in the head box There is a problem that becomes larger.

  This invention is made | formed in view of this subject, and it aims at providing the blind which can reduce the magnitude | size of a drive part and a driven part.

In order to achieve the above-described object, according to the first aspect of the present invention, a drive unit is rotatably provided on the outside of the head box, and a driven shaft that rotationally drives a rotary shaft in the head box facing the drive unit. In the blind in which the drive unit and the driven unit each have a plurality of magnets, the motion of the drive unit is transmitted to the driven unit, and the rotary shaft rotates to operate.
The driving unit and the driven unit are arranged with magnets having different polarities alternately in the circumferential direction with respect to the rotation center thereof, and a plurality of magnets of the driving unit are arranged in parallel with the outer surface of the head box. And the rotation center of the follower are orthogonal to each other and arranged at the same height.

  The invention described in claim 2 is characterized in that the number of magnets of the driving unit and the driven unit of claim 1 are different, and the rotational speed of the rotary shaft is increased or decreased with respect to the operation speed in the driving unit. And

  According to a third aspect of the present invention, in the one according to the first or second aspect, the arrangement of the magnets that exerts a magnetic force on the driven portion of the drive unit is oriented in a direction orthogonal to the rotation axis of the driven unit. Features.

According to a fourth aspect of the present invention, a head box is disposed between the glass plates of the sash, an operation unit is disposed outside the glass plate, and the operation unit has a drive unit disposed so as to be rotatable with respect to the sash. In the head box, a driven unit that rotationally drives the rotation shaft in the head box is disposed opposite to the driving unit, and each of the driving unit and the driven unit has a plurality of magnets, and the movement of the driving unit is the driven unit. In a blind that is transmitted to
The plurality of magnets of the drive unit are arranged in parallel with the outer surface of the head box, and the projecting dimension of the operation unit from the glass plate surface is set to a dimension that allows the sash to be drawn.

  According to the first aspect of the present invention, since the magnets of the drive units arranged so that the polarities are alternately different in the circumferential direction are moved by the rotation of the drive unit, the same is performed according to the change in the polarity. Then, the magnets of the driven parts arranged so as to have different magnetism alternately in the circumferential direction move, and the rotation of the driving part is transmitted to the driven parts.

  At this time, since the rotation center of the drive unit and the rotation center of the driven unit are orthogonal to each other and arranged at the same height, the drive unit is not lowered to the blind shielding material side. Is not concealed, and it is possible to prevent the blind function from being impaired.

  In addition, the drive unit and the driven unit can be configured in a compact manner, and the protruding height of the drive unit to the outside of the head box can be suppressed, and the occupied volume of the driven unit in the head box can be reduced.

  According to the second aspect of the present invention, the rotation of the drive unit is transmitted to the driven unit at a different number of rotations by making the number of magnets of the drive unit and the driven unit different from each other. The rotational speed of the rotary shaft can be increased or decreased with respect to the speed.

  According to the invention described in claim 3, the rotation center of the driving unit and the driven unit are further arranged such that the arrangement of the magnets that exerts a magnetic force on the driven unit of the driving unit faces a direction orthogonal to the rotation axis of the driven unit. The rotation centers can be orthogonal to each other and arranged at the same height, and the driven portion can be configured compactly.

  According to the fourth aspect of the present invention, the plurality of magnets of the drive unit are arranged in parallel with the outer surface of the head box so that the projecting dimension from the glass surface of the operation unit is less than or equal to the dimension that allows the sash to be drawn. As a result, it is possible to draw a difference from the adjacent sash and to easily clean the glass plate surface.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is an overall view of a blind according to a first embodiment of the present invention. In the figure, the blind 10 is disposed inside a sash 30 having a frame 32, a multi-layer glass composed of a pair of glass plates 34 supported by the frame 32, and a window frame (not shown). A head box 12 and a slat 14 as a shielding material supported by the head box 12 are disposed between a pair of glass plates 34 inside the sash 30, and an operation is performed outside the glass plate 34 outside the sash 30. A unit 16 is provided.

  A rotating shaft 18 extending in the longitudinal direction of the head box 12 and a take-up drum connected to the rotating shaft 18 are disposed in the head box 12. When the rotating shaft 18 is rotated, the rotating shaft 18 is integrated. Thus, the winding drum is rotated, and by this rotation, the slat 14 can be moved up and down and rotated by the operation code such as the lifting and lowering cord 26 and / or the ladder cord 28 connected to the winding drum. It has become.

  The operation unit 16 includes a disk-shaped pulley drive unit 20 that is rotatably supported with respect to the sash 30, and an operation cord 22 that is wound around the drive unit 20 to rotate the drive unit 20. . As shown in FIGS. 3 and 4, the drive unit 20 is disposed in parallel to the front surface 12 a of the head box 12, and its rotation axis is perpendicular to the front surface 12 a, the glass plate 34 surface, and the rotation shaft 18. Facing. The disk-shaped drive unit 20 is formed by alternately arranging a plurality of magnets 20N and 20S magnetized in N and S poles in the circumferential direction. The magnets 20N and 20S in this example are configured such that each magnetized portion is disposed in a fan-shaped portion having a central angle of 45 degrees of the disk, and is disposed in parallel to the front surface 12a of the head box 12. The forward projecting dimension of 12 from the front surface 12a is limited to a small size.

  In the head box 12, a cylindrical follower 24 is provided at the end of the rotary shaft 18 and opposed to the drive unit 20. As shown in FIG. 3 and FIG. 4, the driven portion 24 is on the extension line of the rotation shaft 18, and therefore the rotation axis is common to the rotation shaft 18. The cylindrical follower 24 is formed by alternately arranging a plurality of magnets 24N and 24S magnetized in N and S poles in the circumferential direction. The arrangement of the magnets in this example is such that the polarity is switched every 90 degrees.

  As described above, the relationship between the rotation center of the drive unit 20 and the rotation centers of the driven unit 24 and the rotation shaft 18 is orthogonal to each other and the same height.

  Further, as described above, the number of magnets of the driving unit 20 and the driven unit 24 is different, and in this example, the number of magnets of the driving unit 20 is twice the number of the driven units 24. Furthermore, the operating range in which the magnet of the drive unit 20 and the magnet of the driven unit 24 can exert a magnetic force on each other is that the operating range of the drive unit 20 is the range of two upper and lower magnets positioned on the leftmost side in FIG. On the other hand, the operating range of the driven unit 24 is a range of two magnets positioned on the front side, and the range in which the magnetic force of one magnet of the drive unit 20 is applied corresponds to one magnet of the driven unit 24. It is supposed to be.

  In the blind configured as described above, if the holding cord is pulled downward by holding any one of the front and rear portions of the operation cord 22, as shown in FIG. 5, the driving unit 20 may rotate to exert the magnetic force. The vertical relationship between the polarities of the two magnets in the operating range alternately changes between the N pole and the S pole. In response to this change, the magnet in the operating range of the driven portion 24 also changes due to the magnetic force, and rotation is transmitted to the driven portion 24.

  Since the number of magnets of the driving unit 20 is twice that of the driven unit 24 and the range of the magnetic force of one magnet of the driving unit 20 corresponds to one magnet of the driven unit 24, While the drive unit 20 rotates once, the driven unit 24 rotates twice, and the rotation is accelerated and transmitted.

  Thus, the speed can be increased only with the magnet, the speed increasing gear such as the planetary gear can be made unnecessary, and the magnet of the driving unit 20 is arranged in parallel to the front surface 12a of the head box 12. Therefore, the thickness of the portion of the operation unit 16 can be made thin, which is almost determined only by the thickness with which the projecting dimension of the disk-like drive unit 20 is limited. In this way, since the protrusion dimension which the operation unit 16 protrudes from the glass plate 34 becomes small, it can be made below into the largest dimension which can be drawn with another adjacent sash 30. Since it is possible to make a difference with another adjacent sash 30, the surface of the glass plate 34 can be easily cleaned.

  Since the height of the rotation center of the drive unit 20 and the height of the rotation center of the driven unit 24 are the same height, the height of the drive unit 20 should be approximately the same as the height of the head box 12. Therefore, the drive unit 20 does not overlap the slat 14, the drive unit 20 does not hide the slat 14, and the function as a blind is not impaired.

  Moreover, the length along the rotation center axis of the driven portion 24 can be configured to be short, and a compact configuration can be achieved.

  In the above example, the number of magnets of the driving unit 20 is larger than the number of magnets of the driven unit 24, and as a result, the speed increasing effect can be obtained. However, the driving unit 20 is not limited to this. The number of magnets can be made smaller than the number of magnets in the driven portion 24, resulting in a deceleration effect.

It is a whole front view of the blind of this invention. It is the figure seen along 2-2 line of the blind of FIG. It is the figure seen from the front of the principal part containing a drive part and a driven part. It is sectional drawing of the principal part containing a drive part and a driven part. (A)-(e) is explanatory drawing which represents sequentially the operation | movement of a drive part and a driven part.

Explanation of symbols

10 Blind 12 Head box 12a Head box outer surface 14 Slat (shielding material)
16 Operation unit 18 Rotating shaft 20 Drive unit 20N, 20S Magnet 24 Drive unit 24N, 24S Magnet 30 Sash 34 Glass plate

Claims (4)

A drive unit (20) is rotatably provided on the outside of the head box (12), and a driven unit (rotatingly driving the rotation shaft (18) in the head box (12) facing the drive unit (20)). 24), the drive unit (20) and the driven unit (24) each have a plurality of magnets (20N, 20S, 24N, 24S), and the movement of the drive unit (20) is transferred to the driven unit (24). In the blind which is transmitted and the rotary shaft (18) rotates and operates,
Magnets (20N, 20S, 24N, 24S) having different polarities alternately in the circumferential direction with respect to the center of rotation are arranged in the drive unit (20) and the driven unit (24), respectively. Magnets (20N, 20S) are arranged in parallel with the outer surface (12a) of the head box (12), and the rotation center of the drive unit (20) and the rotation center of the driven unit (24) are orthogonal to each other and at the same height. Blinds characterized in that they are arranged in.   The number of magnets (20N, 20S) in the drive unit (20) and the number of magnets (24N, 24S) in the driven unit (24) are different, and the rotational speed of the rotary shaft (18) is different from the operation speed in the drive unit (20). The blind according to claim 1, wherein the blind is accelerated or decelerated.   The arrangement of the magnets (20N, 20S) exerting a magnetic force on the driven portion (24) of the drive portion (20) is oriented in a direction orthogonal to the rotation axis (18) of the driven portion (24). The blind according to claim 1 or 2. A head box (12) is disposed between the glass plates (34) of the sash (30), an operation unit (16) is disposed outside the glass plate (34), and the operation unit (16) is disposed in the sash (30). The drive unit (20) is arranged so as to be rotatable with respect to the drive unit (20), and the rotary shaft (18) in the head box (12) is driven to rotate in the head box (12) facing the drive unit (20). The driven portion (24) is arranged, the driving portion (20) and the driven portion (24) each have a plurality of magnets (20N, 20S, 24N, 24S), and the movement of the driving portion (20) is the driven portion ( 24) in a blind that is transmitted to 24) and rotates and rotates (18).
A plurality of magnets (20N, 20S) of the drive unit (20) are arranged in parallel to the outer surface (12a) of the head box (12), and the protruding dimension from the glass plate (34) surface of the operation unit (16) is sash ( A blind characterized in that 30) is set to a dimension that can be drawn.

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