JP2014205992A - Solar radiation shading device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a solar radiation shading device whose width can be narrowed.SOLUTION: A solar radiation shading device 10 comprises: an operation unit 26 for advancing/pulling a lifting cord C2 by operation; a support member 40 for guiding the lifting cord C2 drawn down in the forward or backward side; and a stopper device 50 capable of performing switching between a drop prevention state for preventing the lifting cord C2 from moving in a direction of a slat 30 dropping, and a drop permission state for permitting the lifting cord C2 to move, on the contrary. The stopper device 50 is arranged between support members 40 adjacent to each other. A cord turning member 70 is provided on the opposite side of the operation unit inside a head box 20 so that the stopper device 50 is sandwiched between the operation unit and the cord turning member 70. A lifting cord C2 guided by a support member 40 positioned closer to the operation unit 26 side than the stopper device 50 is introduced to the stopper device 50 after being turned through the cord turning member 70.

Description

  The present invention relates to a solar radiation shielding device.

  A horizontal blind, which is a type of solar shading device, generally has a configuration in which a large number of slats can be suspended from a head box via a lifting cord. Some of the horizontal blinds include a self-weight drop prevention device for preventing the slats from dropping due to their own weight. An example of a horizontal blind provided with such a self-weight drop prevention device is disclosed in Patent Document 1.

  In the configuration shown in Patent Literature 1, a plurality of support members are provided in the head box, and the direction of the lifting / lowering cord is turned by the support members so as to go from the vertical direction into the head box. Here, when going from the support member to the operation portion where the gear box and the operation rod are arranged, the lifting / lowering cord passes through the inside of the weight falling prevention device.

Japanese Patent No. 3479038

  As described above, in the configuration shown in Patent Document 1, the self-weight drop prevention device is disposed between the support member and the operation unit. That is, in the configuration shown in Patent Document 1, the operation unit, the self-weight drop prevention device, and the support member are arranged side by side from one end side to the other end side. In that case, there are the following problems.

  That is, some of the attachment parts such as windows to which the horizontal blind is attached have a narrow width, and it is preferable that the horizontal blind is attached even to such an attachment part with a narrow width. However, there is a problem that the width of the horizontal blind cannot be reduced when the self-weight drop prevention device exists between the operation unit and the support member.

  Here, the self-weight fall prevention device prevents the slats from dropping due to their own weight by holding all the lifting cords with stopper cams or the like. Therefore, the part where the own weight drop prevention device is attached is in the vicinity of the operation unit which is a part where all the lifting / lowering cords are gathered at present. For this reason, a space for installing the self-weight drop prevention device is required between the operation unit and the support member, and the presence of the space hinders the reduction of the width of the horizontal blind.

  The present invention has been made based on the above circumstances, and an object of the present invention is to provide a solar shading device capable of narrowing the width.

  In order to solve the above-described problem, according to the first aspect of the present invention, there is provided a solar shading device that lifts and lowers a shielding material by advancing and retracting a lifting / lowering cord with respect to the inside of a head box. In an aggregated state, an operation unit that moves the lifting / lowering cord by operation and a plurality of the lifting / lowering cords are arranged in the head box, and the lifting / lowering cords are suspended from either the front side or the rear side of the shielding material. While supporting the guiding member and allowing the lifting / lowering cord to move in the direction in which the shielding material is pulled up, the regulation state for restricting the movement of the lifting / lowering cord in the direction in which the shielding material is lowered and the direction in which the shielding material is lowered A stopper device that is switchable between a release state that releases the movement restriction of the lifting / lowering cord, and the stopper device is disposed between adjacent support members Inside the head box, a cord turning member is provided on the side opposite to the operation portion across the stopper device in the longitudinal direction of the head box, and is guided by a support member positioned closer to the operation portion than the stopper device. The elevating cord to be moved is turned through the cord turning member and then introduced into the stopper device, so that a solar radiation shielding device is provided.

  According to another aspect of the present invention, in the above-described invention, it is preferable that the lifting / lowering cord is turned from the outer side in the front-rear direction of the head box toward the center side.

  According to another aspect of the present invention, in the above-described invention, the cord turning member is supported by the cord turning spacer attached to the inside of the head box, and is rotatably supported by the cord turning spacer. It is preferable to include a turning roller that guides the advance and retreat of the cord.

  Further, according to another aspect of the present invention, in the above-described invention, the cord turning spacer is provided with a pair of side support portions, and the pair of side support portions surrounds an insertion hole through which the lifting / lowering cord is inserted. And it is preferable that the base part which supports the raising / lowering cord guided with the support member is provided in the outer side of the side support part.

  According to another aspect of the present invention, in the above-described invention, the cord turning member is preferably provided adjacent to the stopper device.

  Further, according to another aspect of the present invention, in the above-described invention, the cord turning member includes a cord turning spacer attached to the inside of the head box, and the cord turning spacer slides the lifting cord and is guided by the support member. It is preferable that a sliding portion for turning the direction of the raised / lowered cord is provided.

  Moreover, according to the second aspect of the present invention, it is a solar radiation shielding device that raises and lowers the shielding material by advancing and retracting the elevating cord with respect to the inside of the head box, and in a state where a plurality of elevating cords are aggregated, An operation unit that moves the lifting cord forward and backward by operation, a support member that is arranged in the head box and guides the lifting cord to be hung down either on the front side or the rear side of the shielding material, While the lifting / lowering cord is allowed to move in the direction in which the shielding material is pulled up, the restricted state that restricts the movement of the lifting / lowering cord in the direction in which the shielding material is lowered and the movement restriction of the lifting / lowering cord in the direction in which the shielding material is lowered A stopper device that can be switched between a release state and a release state in which the stopper device is released. On the opposite side of the operation unit, a cord turning member is provided, and the lifting cord has a first lifting cord that is turned toward the operation unit by the support member closest to the stopper device, The first elevating cord is directed from the position suspended from the side of the shielding member toward the cord turning member in a state where the angle is steeper with respect to the longitudinal direction than after being bent, and is then guided by the cord turning member. After being guided by the cord turning member, a solar radiation shielding device is provided, which is bent so as to be directed toward the operation unit in a state where the angle relative to the longitudinal direction of the head box is shallower than that before the guide. The

  According to the present invention, it is possible to reduce the width in the solar radiation shielding device.

It is a side view showing the whole horizontal blind composition concerning a 1st embodiment of the present invention. It is a top view of the horizontal blind of FIG. 1, and is a figure which shows the state which looked at the head box transparently. It is a perspective view which shows the structure of the stopper apparatus used with the horizontal blind of FIG. It is a figure which shows arrangement | positioning of the support member in the head box of the horizontal blind of FIG. 1, a stopper apparatus, and a code | symbol rolling member, (A) shows conventional arrangement | positioning, (B) is a figure which shows arrangement | positioning of this Embodiment. It is. It is a perspective view which shows the structure of the cord turning member in the horizontal blind of FIG. It is front sectional drawing which shows the structure of the cord turning member in the horizontal blind of FIG. It is a perspective view which shows the state which looked at the cord turning member in the horizontal blind of FIG. 1 from the downward side. It is a figure which shows arrangement | positioning of the support member in the head box of the horizontal blind which concerns on 2nd Embodiment, a stopper apparatus, and a code | cord turning member, (A) shows the conventional arrangement | positioning, (B) is 2nd implementation. It is a figure which shows arrangement | positioning of the form.

(First embodiment)
Hereinafter, a horizontal blind 10 as a solar shading device according to a first embodiment of the present invention will be described with reference to the drawings. In the following description, the XYZ orthogonal coordinate system may be used for explanation, the X direction is the width direction (longitudinal direction) of the horizontal blind 10, the X1 side is the right end side in FIG. 1, and the X2 side is The left end side in FIG. The Z direction is the hanging direction (vertical direction) of the horizontal blind 10, the Z1 side is the upper side, and the Z2 side is the lower side. The Y direction is a direction orthogonal to the X direction and the Y direction, the Y1 side is the inside of the room where the operation pole 33 is located, and the Y2 side is the opposite side of the room.

<About the structure of the horizontal blind 10>
FIG. 1 is a side view showing a configuration of a horizontal blind 10 according to the first embodiment. FIG. 2 is a plan view of the horizontal blind 10 and shows a state in which the head box 20 is seen transparently. As shown in FIGS. 1 and 2, the horizontal blind 10 includes a head box 20 fixed to a ceiling or the like, and a plurality of slats 30 (corresponding to shielding materials) from the head box 20 via a plurality of ladder cords C1. ) Are hung at predetermined pitches. The lower end side (Z2 side) of the ladder cord C1 is attached to the bottom rail 32 via the holder 31.

  To the bottom rail 32, the lower end side (Z2 side) of each lifting / lowering cord C2 is fixed. The lifting / lowering cord C2 hangs down along the side edge of each slat 30 on the inside or outside of the room, and further passes through the head box 20 and then is located on one end side (X1 side) in the width direction. It hangs down from 20a. Accordingly, when the lifting / lowering cord C2 is grasped and moved up and down, it is possible to easily realize a storage state in which a large number of slats 30 are stacked and a deployed state in which the slats 30 are arranged at a predetermined pitch.

  Here, a rotatable guide roller 21 is provided in the head box 20 so as to reach the upper side of the hole 20a. The rotation of the guide roller 21 can favorably guide the movement of the lifting / lowering cord C2 suspended from the hole 20a. The hole 20a and the guide roller 21 constitute an operation unit 26 described later.

  As shown in FIGS. 1 and 2, a support member 40 is provided inside the head box 20. In the configuration shown in FIGS. 1 and 2, three support members 40 are provided. The support member 40 on one end side (X1 side) and the other end side (X2 side) guides the lifting / lowering cord C2 to the outside of the room (Y2 side). (Y1 side). In the following description, if necessary, the support member 40 on one end side (X1 side) is a support member 40a, the support member 40 on the center side is a support member 40b, and the support member 40 on the other end side (X2 side). This is referred to as a support member 40c.

  A support drum 42 is rotatably attached to the housing 41 of the support member 40. The upper end side (Z1 side) of the ladder cord C1 is attached to the support drum 42, and the ladder cord C1 can be taken up. A fitting hole (not shown) is provided on the radial center side of the support drum 42, and the rotation shaft 25 is inserted into the fitting hole so that the support drum 42 and the rotation shaft 25 rotate integrally. It has been.

  The rotary shaft 25 is provided in, for example, a hexagonal outer peripheral shape, and the above-described fitting hole is also provided in a hexagonal hole shape. Thereby, the support drum 42 and the rotating shaft 25 are provided so as to rotate integrally.

  A gear box 27 constituting the operation unit 26 is provided on one end side of the rotation shaft 25 (long X1 side in FIG. 1). The gear box 27 is provided with a gear (not shown) such as a worm wheel, and the worm wheel is directly or indirectly connected to the rotating shaft 25. The gear box 27 is provided with a worm (not shown) that meshes with the worm wheel, and the worm is directly or indirectly connected to the operation pole 33. Accordingly, when the operation pole 33 is rotated, the rotational force is applied to the support drum 42 via the worm, the worm wheel, and the rotation shaft 25.

<About the stopper device 50>
Next, the stopper device 50 will be described. FIG. 3 is a perspective view showing the configuration of the stopper device 50. As shown in FIG. 1, a stopper device 50 as shown in FIG. 3 is attached inside the head box 20. The lifting code C2 described above passes through the stopper device 50.

  In the present embodiment, the stopper device 50 is located between the support member 40a on the one end side (X1 side) and the support member 40b on the center side, not between the operation unit 26 and the support member 40 as in the prior art. Yes. The stopper device 50 may be positioned between the support member 40c on the other end side (X2 side) and the support member 40b on the center side.

  Although this stopper device 50 is a known device, the following operation can be realized. That is, it is possible to realize a restriction state that restricts the lifting / lowering cord C2 passing through the stopper device 50 from being lowered by the weight of the slat 30. Further, by slightly returning the lifting / lowering cord C2 to the X1 side from the restricted state, the lowering movement restriction is released. As a result, the slat 30 is automatically lowered by the weight of the slat 30.

  As shown in FIG. 3, the stopper device 50 includes a case 51 whose outer appearance is a rectangular parallelepiped shape. The other end side (X2 side) of the case 51 is an open introduction port 52, and the lifting / lowering cord C <b> 2 is introduced into the case 51 through the introduction port 52. A guide roller 53 is rotatably supported on the other end side of the case 51. The guide roller 53 guides the movement of the lifting / lowering cord C2, and the lifting / lowering cord C2 is supported from below.

  Here, the stopper device 50 is housed in a spacer 60 as shown in FIG. The spacer 60 includes a rectangular box-shaped main body 61 that is open on the lower side, and the main body 61 is provided with an opening 62 that communicates with the introduction port 52. Further, the spacer 60 includes a leg portion 63 extending from the main body portion 61. The leg part 63 extends in the front-rear direction (Y direction) away from the main body part 61, and the protruding tip end side of the leg part 63 abuts on the inner wall side of the side wall of the head box 20. Thereby, the movement of the spacer 60 in the front-rear direction (Y direction) is restricted.

  As shown in FIG. 3, the leg portion 63 has a pair of plate portions 63a and 63b arranged in the width direction (X direction) of the horizontal blind 10, and a pair of bottom portions 63c connecting the pair of plate portions 63a and 63b. Also have. Thereby, a portion surrounded by the plate portions 63a and 63b and the bottom portion 63c is a fitting concave portion 64 into which a fitting convex portion 833 described later is fitted.

  4A and 4B are diagrams showing the arrangement of the support member 40, the stopper device 50, and the cord turning member 70 in the head box 20. FIG. 4A shows a conventional arrangement, and FIG. 4B shows the arrangement of the present embodiment. FIG. As shown in FIGS. 1, 2, and 4 (B), a cord turning member 70 is disposed inside the head box 20 adjacent to the stopper device 50. The cord turning member 70 turns the extending direction of the lifting / lowering cord C2. In the configuration shown in FIG. 2, the lifting / lowering cord C2 extending from the support member 40a on one end side is the other end side in the width direction. Although it progresses toward (X2 side), after passing the cord turning member 70, the direction of travel of the lifting / lowering cord C2 is turned so as to go to one end side (X1 side) in the width direction.

  As shown in FIG. 4A, in the conventional arrangement, the stopper device 50 is located between the support member 40a and the operation unit 26. However, in the present embodiment, as shown in FIG. 4B, the stopper device 50 is located between the support member 40a and the support member 40b. Thereby, in the arrangement configuration according to the present embodiment, it is possible to shorten the dimension L as compared with the conventional arrangement configuration.

  FIG. 5 is a perspective view showing the configuration of the cord turning member 70. FIG. 6 is a front sectional view showing the configuration of the cord turning member 70. As shown in FIGS. 5 and 6, the cord turning member 70 includes a cord turning spacer 80 and a turning roller 90. The cord turning spacer 80 includes an upper support portion 81, a lower support portion 82, and a side support portion 83. The upper support portion 81 rotatably supports the shaft portion 91a on the upper side of the turning roller 90. Similarly, the lower support portion 82 rotatably supports a shaft portion 91b on the lower side of the turning roller 90.

  In order to perform such support, the upper support portion 81 and the lower support portion 82 are provided with shaft support holes 81a and 82a as shown in FIG. 6, respectively, and are turned around the shaft support holes 81a and 82a. The shaft portions 91a and 91b of the roller 90 are respectively inserted. At this time, the shaft portions 91a and 91b may be configured to be attached with stoppers that prevent the shaft portions 91a and 91b from coming off from the shaft support holes 81a and 82a. In the present embodiment, two turning rollers 90 are provided along the front-rear direction (Y direction). Therefore, two shaft support holes 81 a and 82 a in the upper support portion 81 and the lower support portion 82 are also provided.

  The upper support portion 81 is provided with an escape recess 81b. The relief recess 81b is provided on the center side in the front-rear direction of the cord turning spacer 80, and is provided in a concave shape that curves upward from the lower side. Thereby, it is possible to prevent the rotating shaft 25 from interfering with the upper support portion 81 by positioning the rotating shaft 25 in the escape recess 81b.

  Here, the turning roller 90 includes the shaft portions 91a and 91b and the roller portion 92 described above. The roller portion 92 is a portion with which the elevating cord C2 comes into contact. In the configuration shown in FIG. 5, the roller portion 92 is provided in a shape having irregularities on the outer peripheral surface by knurling or the like. Thereby, the lifting / lowering cord C2 does not slip with respect to the roller portion 92, and the wear resistance of the lifting / lowering cord C2 is improved. However, the roller portion 92 may not have irregularities on its outer peripheral surface.

  The cord turning spacer 80 is provided with a pair of side support portions 83 with a space in the front-rear direction (Y direction). The side support portions 83 are connected to the upper support portion 81 and the lower support portion 82, respectively. However, the side support portion 83 is one end side in the width direction with respect to the upper support portion 81 and the lower support portion 82 ( X1 side). As shown in FIG. 5, the side support portion 83 is provided with a side wall portion 831 and a pedestal portion 832. The side wall portion 831 is a plate-like portion, and the inner wall side abuts against the side wall of the main body portion 61 of the spacer 60. The side wall portion 831 may be opposed to the side wall of the main body portion 61 with a slight gap without coming into contact therewith.

  The cord turning spacer 80 is provided with an insertion hole 84 surrounded by the upper support portion 81, the lower support portion 82, and the side support portion 83, and all the lifting / lowering cords C2 are inserted into the insertion hole 84. ing.

  The pedestal portion 832 is a pedestal-like portion located on the lower side of the side wall portion 831, and the dimension in the front-rear direction is larger than the thickness of the side wall portion 831. The upper end surface 832a of the pedestal portion 832 can support the lifting / lowering cord C2, and is thereby guided to the turning roller 90 in a state where the position on the lower side of the lifting / lowering cord C2 is defined.

  A fitting convex portion 833 is provided on the lower side of the pedestal portion 832. FIG. 7 is a perspective view of the cord turning member 70 as seen from the lower side of the pedestal portion 832. The fitting convex portion 833 is a portion that fits into the fitting concave portion 64 of the leg portion 62 described above. In the configuration shown in FIG. 7, a recessed groove portion 834 into which the above-described plate portions 62 a and 62 b enter is provided below the pedestal portion 832. For this reason, when the plate portions 62 a and 62 b are positioned in the concave groove portion 834, the fitting convex portion 833 is fitted into the fitting concave portion 64.

  By such fitting, movement of the cord turning spacer 80 in the width direction (X direction) is restricted. In the configuration shown in FIG. 7, the fitting convex portion 833 is provided with a pair of plates 833a and 833b arranged in the width direction (X direction) in a state having a predetermined interval, and the pair of plates 833a and 833b. On the side that does not oppose, the above-mentioned concave groove portion 834 is provided. Further, an inner wall portion 833c is provided so as to connect the pair of plates 833a and 833b on the center side in the front-rear direction (Y direction).

<About the effects>
According to the horizontal blind 10 configured as described above, the cord turning member 70 is disposed on the other end side (X2 side) of the stopper device 50, and all the lifting / lowering cords C <b> 2 are inserted through the cord turning member 70. After passing through the hole 84, it is introduced into the stopper device 50. Here, the lifting / lowering cord C <b> 2 that guides the drooping downward of the head box 20 through the support member 40 a located on one end side (X1 side) from the stopper device 50 is connected to the other end side (X2) from the support member 40 a. ) And guided on the pedestal part 832, and then rotated by the rotation roller 90 toward the X <b> 1 side. Thereby, since the structure which arrange | positions the stopper apparatus 50 between the support member 40a of the one end side (X1 side) and the support member 40b of the center side is realizable, it becomes clear from the comparison of FIG. 4 (A) and FIG. 4 (B). Thus, the width of the horizontal blind 10 can be reduced (the length in the X direction is reduced).

  In the present embodiment, the cord turning member 70 includes a cord turning spacer 80 attached to the inside of the head box 20 and a turning roller 90. For this reason, it is possible to smoothly turn the direction in which the lifting / lowering cord C2 travels by the turning roller 90, and it is possible to realize a smooth lifting / lowering operation of the slat 30.

  Further, in the present embodiment, a pedestal portion 832 for supporting the lifting / lowering cord C2 guided by the support member 40a is provided outside the side support portion 83. For this reason, the lower side of the raising / lowering cord C2 can be supported by the base part 832. Thereby, the position of the lifting / lowering cord C2 is lowered, and it is possible to prevent the lifting / lowering cord C2 from being positioned near the shaft portion 91b below the turning roller 90. Therefore, it is possible to prevent the lifting / lowering cord C2 from being bitten on the shaft portion 91b side.

  In the present embodiment, the cord turning member 70 is provided adjacent to the stopper device 50. For this reason, as compared with the case where the cord turning member 70 is not adjacent to the stopper device 50 and is located on the other end side (X2 side), the lift cord C2 that has passed through the support member 40a is within the head box 20. The required length can be shortened.

(Second Embodiment)
Hereinafter, a horizontal blind 10 according to a second embodiment of the present invention will be described with reference to FIG. FIG. 8 is a diagram showing the arrangement of the support member 40, the stopper device 50, and the cord turning member 70 in the head box 20 of the horizontal blind 10 according to the second embodiment, and (A) shows a conventional arrangement. (B) is a figure which shows arrangement | positioning of this Embodiment.

  In the present embodiment, the same members as those in the first embodiment described above will be described using the same reference numerals, and the description of the same members will be omitted.

  As shown in FIG. 8B, in the present embodiment, unlike the configuration in the first embodiment described above (see FIG. 4B), the operation unit 26 is positioned on one end side (X1 side). A stopper device 50 is provided between the support member 40a. This is the same as the configuration shown in FIG. 8A, which is a conventional arrangement.

  However, in the configuration shown in FIG. 8B, the cord turning member 70 is disposed adjacent to the other end side (X2 side) of the stopper device 50. This point is different from the configuration shown in FIG.

  As is apparent from FIG. 8B, in the present embodiment, there are at least two lifting cords C2 (two patterns with different passing positions). First, the lifting / lowering cord C2 includes a first lifting / lowering cord that is turned toward the operation unit 26 by the support member 40a closest to the stopper device 50. In addition, as shown to FIG. 8 (B), this 1st raising / lowering code | cord | chord C2 may include what goes to the operation part 26 side from the support member 40b.

  In addition, the lifting / lowering cord C2 includes a second lifting / lowering cord that is turned toward the operation unit 26 by the support member 40 (support member 40b) farther from the support member 40a. The support member 40b is suspended along the side of the slat 30 in the Y1 direction (inside the room), and the support member 40c is suspended along the side of the slat 30 in the Y2 direction (outside the room). .

  The first elevating cord C2 has a steep angle with respect to the longitudinal direction of the head box 20 from a position where the first elevating cord C2 is suspended along the side of the slat 30 in the Y2 direction (outside the room) by the rolling roller 90a of the cord rolling member 70 In the state, it goes to the center in the Y direction, and is then bent by the cord turning member 70a. Then, after being bent, the head box 20 is guided toward the operation unit 26 in a state of being substantially parallel to the longitudinal direction of the head box 20. Then, it is led out of the head box 20 through the stopper device 50.

  In the case of the configuration shown in FIG. 8B described above, there are the following advantages. That is, in the configuration shown in FIG. 8B, the cord turning member 70 is disposed adjacent to the stopper device 50. Therefore, the lifting / lowering cord C2 derived from the support member 40a can be largely bent (the bending angle is increased). Further, since the bending is performed by the turning roller 90, the increase in resistance can be reduced even if the bending angle is increased. Thereby, the dimension in the width direction (longitudinal direction) of the horizontal blind 10 can be shortened by the dimension L2 as compared with the conventional arrangement as shown in FIG. The second lifting / lowering cord C2 is also guided by the turning roller 90b. Therefore, the resistance in the guide of the 2nd raising / lowering cord C2 can be made small.

<Modification>
As mentioned above, although each embodiment of this invention was described, this invention can be variously deformed besides this. This will be described below.

  In each of the above-described embodiments, the horizontal blind 10 is described as an example of the solar radiation shielding device. However, the solar radiation shielding device is not limited to the horizontal blind 10. For example, the present invention may be applied to other types of solar shading devices such as pleated screens and roman shades. When the pleated screen or the roman shade is a solar shading device, a thin fabric member corresponds to the shielding material.

  In the above-described embodiments, the head box 20 is described as being attached to a ceiling or the like. However, the head box may be configured to be held in position while exerting a pressing force on a side plate or the like such as a window frame portion, for example, similarly to a tension rod.

  Further, in each of the above-described embodiments, the lifting / lowering cord C2 does not pass through the inside of the manipulation pole 33, and the manipulation pole 33 and the lifting / lowering cord C2 are suspended from different parts. However, other methods may be used. For example, a so-called one-pole configuration in which the lifting / lowering cord C2 passes through the inside of the operation pole may be used, a chain type that does not use the operation pole may be used, and other various methods may be used.

  In each of the above-described embodiments, the stopper device 50 having the configuration shown in FIG. 4 is used as the stopper device. However, the stopper device is not limited to the type shown in FIG. 4 and may be other types. For example, it may be a stopper device that sandwiches a lifting / lowering cord between a moving roller and a pulley, may be a stopper device that sandwiches a lifting / lowering cord between a wedge-shaped member and a wall surface, and other various types Also good.

  Furthermore, in the above-described embodiment, the cord turning member 70 as shown in FIGS. 5 to 7 is described as the cord turning member. However, the cord turning member may have another configuration. For example, the cord turning member may be configured not to include a turning roller. In this case, for example, the cord turning spacer provided in the cord turning member may be provided with a sliding portion that slides the raising / lowering cord C2 and turns the raising / lowering cord C2 guided by the support member. Even if comprised in this way, about the raising / lowering code | cord | chord C2 by which the direction was rotated so that it might go to the other end side (X2 side) by the support member 40a, it turned so that it might go to one end side (X1 side) in a sliding part. It can be turned. In addition, you may make it comprise a sliding part from members with small frictions, such as nylon.

  As another configuration, the cord turning member and the stopper device may be integrated. Such an integrated integrated structure may include a turning roller, or may include a sliding portion as described above without including the turning roller.

  In the embodiment described above, the three support members 40 are arranged in the head box 20. However, the number of support members 40 is not limited to three, and may be any number as long as it is two or more. In addition, the stopper device 50 and the cord turning member 70 are not limited to the configuration arranged between the support member 40a and the support member 40b, and the arrangement is arranged at another part, including between the support member 40b and the support member 40c. It is also good.

  DESCRIPTION OF SYMBOLS 10 ... Horizontal blind, 20 ... Head box, 20a ... Hole, 21 ... Guide roller, 25 ... Rotating shaft, 26 ... Operation part, 27 ... Gear box, 30 ... Slat (corresponding to shielding material), 31 ... Holder, 32 ... bottom rail, 33 ... operation pole, 40, 40a, 40b, 40c ... support member, 41 ... housing, 42 ... support drum, 43 ... insertion part, 50 ... stopper device, 51 ... case, 52 ... introduction port, 53 ... Guide roller 60 ... Spacer 61 ... Body part 62 ... Leg part 62a, 62b ... Plate part 62c ... Bottom part 70 ... Cord turning member 80 ... Cord turning spacer 91 ... Upper support part 91a ... Axial support Hole, 92 ... lower support part, 93 ... side support part, C1 ... ladder code, C2 ... lift code

Claims (7)

A solar shading device that lifts and lowers the shielding material by moving the lifting / lowering cord forward and backward with respect to the inside of the head box,
In a state where a plurality of lifting / lowering cords are aggregated, an operation unit for moving the lifting / lowering cords forward and backward by operation
A plurality of support members that are arranged in the head box, and that guide the elevating cord to be suspended from either the front side or the rear side of the shielding material;
While allowing the lifting / lowering cord to move in the direction in which the shielding material is pulled up, while restricting the movement of the lifting / lowering cord in the direction in which the shielding material is lowered, and in the direction in which the shielding material is lowered A stopper device that is switchable between a release state for releasing the movement restriction of the lifting code; and
With
The stopper device is disposed between the adjacent support members,
In the inside of the head box, a cord turning member is provided on the opposite side of the operation unit with the stopper device in the longitudinal direction of the head box, and closer to the operation unit than the stopper device. The lifting / lowering cord guided by the support member located is introduced into the stopper device after being turned through the cord turning member.
A solar shading device characterized by that. The solar radiation shielding device according to claim 1,
Rotating the lifting cord from the outer side in the front-rear direction of the head box toward the center side,
A solar shading device characterized by that. The solar radiation shielding device according to claim 1 or 2,
The cord turning member includes a cord turning spacer attached to the inside of the head box, and a turning roller that is rotatably supported by the cord turning spacer and that abuts the lifting cord and guides the advancement and retraction of the lifting cord. ing,
A solar shading device characterized by that. The solar radiation shielding device according to claim 3,
The cord turning spacer is provided with a pair of side support portions, and the pair of side support portions surrounds an insertion hole through which the elevating cord is inserted,
A pedestal for supporting the lifting cord guided by the support member is provided outside the side support.
A solar shading device characterized by that. It is a solar radiation shielding apparatus of any one of Claim 1 to 4,
The cord rolling member is provided adjacent to the stopper device,
A solar shading device characterized by that. The solar radiation shielding device according to claim 1 or 2,
The cord turning member includes a cord turning spacer attached inside the head box,
The cord turning spacer is provided with a sliding portion that slides the lifting cord and turns the lifting cord guided by the support member.
A solar shading device characterized by that. A solar shading device that lifts and lowers the shielding material by moving the lifting / lowering cord forward and backward with respect to the inside of the head box,
In a state where a plurality of lifting / lowering cords are aggregated, an operation unit for moving the lifting / lowering cords forward / backward by operation,
A plurality of support members that are arranged in the head box, and that guide the elevating cord to be suspended from either the front side or the rear side of the shielding material;
While allowing the lifting / lowering cord to move in the direction in which the shielding material is pulled up, while restricting the movement of the lifting / lowering cord in the direction in which the shielding material is lowered, and in the direction in which the shielding material is lowered A stopper device that is switchable between a release state for releasing the movement restriction of the lifting code; and
With
Among the inside of the head box, a cord turning member is provided on the opposite side of the operation unit across the stopper device in the longitudinal direction of the head box,
In the lifting / lowering cord, there is a first lifting / lowering cord that is turned toward the operation unit by the support member closest to the stopper device,
The first elevating cord faces the cord turning member in a state where the angle is steeper than that after bending from the position where the first elevating cord is hung from the side of the shielding material, and is then guided by the cord turning member. After the guide of the first lifting cord with the cord turning member, it is bent so as to be directed toward the operation portion in a state where the angle is shallower than the longitudinal direction of the head box as compared with that before the guide.
A solar shading device characterized by that.

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