JP2017223107A - Solar shading device, and lower limit positioning device for bottom rail - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a solar shading device that is easy to assemble and makes it possible to easily perform fine adjustment of a lower limit position of a bottom rail at an installation site.SOLUTION: There is provided a solar shading device comprising: a solar shading material that is hung from a head box; a bottom rail disposed at a bottom end; a lifting cord that is suspended from the head box to support the bottom rail; lifting means for lifting the bottom rail up and down; regulation means for regulating a lower limit position of the bottom rail; and an adjustment device that is disposed inside the bottom rail and varies a lead-in amount, by which the lifting cord is to be led into the bottom rail as a rotary member rotates, to adjust the lower limit position of the bottom rail. The adjustment device comprises: a holding member for holding the lifting cord; the rotary member relatively rotatably attached to the holding member; and a rotation operation part for rotating the rotary member. The holding member comprises a first cord housing groove for housing the lifting cord.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a solar shading device in which a bottom rail is disposed at a lower end of a solar shading material suspended from a head box, and a lower rail lower limit position adjusting device.

  In the solar shading device, the bottom rail is arranged at the lower end of the solar shading material suspended from the head box, and the lifting cord attached to the bottom rail is pulled into the head box and pulled out from the head box. The solar shading material is raised and lowered by raising and lowering the bottom rail.

  In such a solar shading device, the lower limit position of the bottom rail is determined by the length of the lifting / lowering cord extending from the head box, but it may be necessary to finely adjust the lower limit position of the bottom rail at the installation site.

  In Patent Document 1, as a means for adjusting the lower limit position of the bottom rail, a winding drum that winds up and down the cord is arranged in the head box, and the winding drum is rotated from the longitudinal end of the bottom rail. The hoisting and lowering cord is wound up by this, and thereby the lower limit position of the bottom rail can be finely adjusted.

  Moreover, in patent document 2, the length of a raising / lowering cord is adjusted by winding the lower end part of a raising / lowering cord around the fixing | fixed part provided in the base fixed so that attachment or detachment to the bottom rail was fixed, and bottom rail The lower limit position can be adjusted.

Japanese Patent No. 3669907 Japanese Patent No. 4435592

  In the configuration described in Patent Document 1, since the number of parts of the winding shaft and the locking portion increases, the cost increases and the assemblability becomes complicated. In this configuration, the take-up drum is attached to a tape holder for holding the lower end portion of the ladder cord, but the solar shading device such as a pleated screen or a hoisting curtain does not have a ladder cord. Since the tape holder does not exist, the configuration of Patent Document 1 cannot be adopted, or even if it can, the cost increases and the appearance deteriorates.

  In the configuration described in Patent Document 2, the method of guiding the lifting / lowering cord to the guide groove and the work of winding the shaft around the shaft are complicated. Further, in the solar shading device in which the lower end of the solar shading material suspended from the head box such as a pleated screen or a raising curtain is attached to the bottom rail, the length of the lifting / lowering cord is adjusted by the method of Patent Document 2. In the installation site, after removing the solar shading material from the bottom rail and adjusting the length of the lifting / lowering cord, the troublesome work of reattaching the solar shading material to the bottom rail is required.

  The present invention has been made in view of such circumstances, and provides a solar shading device that is easy to assemble and that allows easy fine adjustment of the lower limit position of the bottom rail at the installation site. .

According to the present invention,
Solar shading material suspended from the head box,
A bottom rail disposed at the lower end of the solar shading material,
An elevating cord suspended from the head box and supporting the bottom rail;
Elevating means for elevating the bottom rail by changing the elevating cord length between the head box and the bottom rail from the head box side;
A regulating means for regulating a lower limit position of the bottom rail;
An adjustment device that is arranged in the bottom rail and adjusts a lower limit position of the bottom rail by changing a pull-in amount by which the lifting / lowering cord is pulled into the bottom rail as the rotating member rotates,
The adjustment device includes a holding member that holds the lifting cord, a rotating member that is attached to the holding member so as to be relatively rotatable, and a rotation operation unit that rotates the rotating member.
The holding member is provided with a solar shading device including a first cord housing groove for housing the elevating cord.

  In the present invention, the adjusting device is disposed in the bottom rail, and the adjusting device is attached to the holding member having the first cord receiving groove for receiving the lifting / lowering cord, and attached to the holding member so as to be relatively rotatable. The rotating member and a rotating operation unit that rotates the rotating member are included. According to this configuration, the adjustment device can be assembled by a simple method including a step of receiving the lifting / lowering cord in the first cord receiving groove and a step of attaching the rotating member to the holding member. The lower limit position of the bottom rail can be easily finely adjusted by operating the rotation operation unit from the outside of the bottom rail and rotating the rotating member.

Hereinafter, various embodiments of the present invention will be exemplified. The various embodiments described below can be combined with each other.
Preferably, the lifting / lowering cord is held between the holding member and the bottom rail in the first cord receiving groove.
Preferably, the bottom rail has a through hole in an installation surface of the holding member, and the rotating member is attached to the holding member through the through hole.
Preferably, the rotating member includes a base portion, a tip portion extending from the base portion, and a flange portion protruding in a radial direction from the base portion, and the rotating member is configured such that the flange portion abuts on an outer surface of the bottom rail. Into the through hole.
Preferably, the rotation operation unit is provided on a bottom surface of the bottom rail or is provided at a position operable through a through hole provided on the bottom surface of the bottom rail. Preferably, the rotation operation unit is the rotation member. It is provided on the outer surface side.
Preferably, the rotating member includes a second cord housing groove for housing the elevating cord.
Preferably, the rotating member includes a claw portion that engages with an upper surface of the holding member.
Preferably, the rotating member and the holding member are engaged at a plurality of locations in the circumferential direction.
Preferably, the rotating member includes a plurality of engaging convex portions provided at equal intervals in the circumferential direction, and the holding member includes a plurality of engaging concave portions engaged with the plurality of engaging convex portions.
Preferably, the holding member is installed in the bottom rail so as not to rotate or a rotatable angle around the rotation axis of the rotating member is within 90 degrees.
Preferably, the bottom rail includes a rail therein, and the holding member is installed at a desired position by being inserted into the rail and slid from a longitudinal end portion of the bottom rail.
Preferably, the first cord housing groove is provided over the entire length of the holding member, and the elevating cord is held in the first cord housing groove over the entire length of the first cord housing groove, The holding member includes a fitting hole that fits into the rotating member at a position where the first cord housing groove is divided, and the rotating member is inserted into the fitting hole and fitted into the holding member.

According to another aspect of the present invention, there is provided a method for manufacturing the solar shading device described above,
(1) installing the holding member on the bottom rail so that the position of the fitting hole provided in the holding member and the position of the through hole of the bottom rail coincide with each other;
(2) After the step (1), inserting the rotating member from the outer surface side of the bottom rail into the fitting hole through the through hole, and fitting the holding member into the holding member;
(3) Before the step (1), between the steps (1) and (2), or after the step (2), a step of housing the lifting / lowering cord in the first cord housing groove of the holding member. A method of manufacturing a solar shading device is provided.
Preferably, in the step (3), before the step (1), (A) a lifting / lowering cord is inserted through a through hole provided in the bottom rail, and (B) the first holding member is in that state. And (C) a step of drawing the lifting / lowering cord from the inner surface side of the bottom rail in that state from the through hole.
Preferably, in the step (B), the elevating cord is accommodated in the first cord accommodating groove by sliding the holding member so as to straddle the through hole.
Further, according to another aspect of the present invention, the lower limit position of the bottom rail is set by changing a pull-in amount that is disposed in the bottom rail and pulls the lifting / lowering cord into the bottom rail as the rotating member rotates. An adjusting device for adjusting,
The adjustment device includes a holding member that holds the lifting cord, a rotating member that is attached to the holding member so as to be relatively rotatable, and a rotation operation unit that rotates the rotating member.
The holding member is provided with a bottom rail lower limit position adjusting device including a first cord housing groove for housing the elevating cord.

FIG. 1 is a front view showing an overall configuration of a solar radiation shielding device 1 according to the first embodiment of the present invention. FIG. 2 is a left side view showing the overall configuration of the solar shading device 1 according to the first embodiment of the present invention. FIG. 3 is a perspective view showing the adjusting device 21 arranged in the bottom rail 7 according to the first embodiment of the present invention. 4 (a) to 4 (c) respectively show (a) a plan view, (b) a right side view, and (b) a right side view showing the adjusting device 21 arranged in the bottom rail 7 according to the first embodiment of the present invention. (C) It is AA sectional drawing. 5 (a) to 5 (f) respectively show (a) a perspective view, (b) a plan view, (c) a bottom view, and a holding member 23 of the adjusting device 21 according to the first embodiment of the present invention. (D) Right side view, (e) AA sectional view, (f) BB sectional view. 6A to 6D are (a) a perspective view, (b) a front view, and (c) a bottom view, respectively, showing the rotating member 25 of the adjusting device 21 according to the first embodiment of the present invention. (D) It is a right view. FIGS. 7A to 7F are perspective views showing an assembling process of the adjusting device 21 according to the first embodiment of the present invention. FIG. 8 is a perspective view showing the adjusting device 21 arranged in the bottom rail 7 according to the second embodiment of the present invention. 9 (a) to 9 (c) respectively show (a) a plan view, (b) a right side view, and (b) a right side view showing an adjusting device 21 arranged in the bottom rail 7 according to a second embodiment of the present invention. (C) It is AA sectional drawing. FIG. 10 is a perspective view showing the adjusting device 21 arranged in the bottom rail 7 according to the third embodiment of the present invention. 11 (a) to 11 (c) respectively show (a) a plan view, (b) a right side view, and (b) a right side view showing an adjusting device 21 arranged in the bottom rail 7 according to a third embodiment of the present invention. (C) It is AA sectional drawing. 12 (a) to 12 (f) respectively show a holding member 23 of the adjusting device 21 according to the third embodiment of the present invention, (a) perspective view, (b) plan view, (c) bottom view, (D) Right side view, (e) AA sectional view, (f) BB sectional view. FIGS. 13A to 13D are a perspective view, a front view, and a bottom view, respectively, of a rotating member 25 of an adjusting device 21 according to a third embodiment of the present invention. (D) It is a right view. FIGS. 14A to 14D are perspective views showing an assembling process of the adjusting device 21 according to the third embodiment of the present invention. FIG. 15 is a perspective view showing the adjusting device 21 arranged in the bottom rail 7 according to the fourth embodiment of the present invention. FIG. 16 is a perspective view showing the holding member 23 of the adjusting device 21 according to the fourth embodiment of the present invention. FIG. 17 is a perspective view showing the bottom rail 7 and the disassembled adjusting device 21 according to the fifth embodiment of the present invention. FIG. 18 is a perspective view showing the assembled adjustment device 21 according to the fifth embodiment of the present invention. FIG. 19 is a side view showing a configuration around the bottom rail 7 according to the sixth embodiment of the present invention. FIG. 20 is a cross-sectional view showing a method for preventing the bottom rail 7 from tilting in the embodiment of the present invention.

  Hereinafter, various embodiments of the present invention will be described with reference to the drawings. The various embodiments described below can be combined with each other.

1. 1st Embodiment FIG.1 and FIG.2 is the front view and left view which show the whole structure of the solar radiation shielding apparatus 1 of 1st Embodiment of this invention.
One end of the solar shading material 5 is attached to the head box 3, and the other end of the solar shading material 5 is attached to the bottom rail 7 having an opening on one surface. A method for attaching the solar shading material 5 to the head box 3 and the bottom rail 7 is not particularly limited. In this embodiment, the fabric presser 9 is attached to both ends of the solar shading material 5, and the fabric presser 9 is attached to the headbox 3. The solar shading material 5 is attached to the head box 3 and the bottom rail 7 by elastically attaching the head box 3 and the bottom rail 7 so as to block the opening provided in the bottom rail 7.

  Although the kind of the solar radiation shielding material 5 is not limited, in this embodiment, it is a pleated screen that can be bent in a zigzag shape in the vertical direction. The solar shading material 5 may be a raised curtain or a blind.

  The lifting / lowering cord 11 hangs down from the head box 3 and is inserted into a through-hole 13 provided in the solar shading material 5 to suspend and support the bottom rail 7. The elevating means elevates the bottom rail 7 by changing the length of the elevating cord between the head box 3 and the bottom rail 7 from the head box 3 side. Although the structure of the raising / lowering means is not specifically limited, In this embodiment, the operation code 15 connected with the raising / lowering cord 11 via the equalizer 14 is provided. By pulling the operation cord 15, the lifting / lowering cord 11 is pulled out from the head box 3. As a result, the lifting / lowering cord length between the head box 3 and the bottom rail 7 is shortened, and the bottom rail 7 is raised. When the force applied to the operation cord 15 is loosened, the lifting / lowering cord 11 is pulled into the head box 3 and the bottom rail 7 tries to descend, but it is lowered by the locking action of the stopper device 17 provided in the head box 3. Is blocked. By pulling the operation cord 15 again, the lock of the stopper device 17 is released. Thereafter, when the force applied to the operation cord 15 is loosened, the lifting / lowering cord 11 is drawn into the head box 3 and the bottom rail 7 is lowered. As the bottom rail 7 descends, the equalizer 14 approaches the head box 3, and the equalizer 14 cannot pass through the cord outlet 19 provided in the head box 3, so that the equalizer 14 comes into contact with the head box 3. Lowering of the bottom rail 7 stops, and this position becomes the lower limit position of the bottom rail 7.

  In the lifting / lowering means of this embodiment, the lower limit position of the bottom rail 7 is determined by the position where the equalizer 14 and the head box 3 abut. The lower limit position of the bottom rail 7 varies depending on the configuration of the lifting / lowering means. Determined by the method. For example, in the ninth embodiment of Japanese Patent Application Laid-Open No. 2011-236555, a pulley is rotated by a ball chain, and the lifting / lowering cord is wound around a winding shaft in the head box by rotating the pulley, thereby causing a gap between the head box and the bottom rail. The bottom rail is raised and lowered by changing the lifting / lowering cord length. In this embodiment, both ends of the non-looped ball chain are connected by a connector having a diameter larger than the ball of the ball chain. The lower limit position of the bottom rail 7 is determined using the fact that it cannot pass between the pulley and the pulley case. Further, the lower limit position of the bottom rail 7 may be determined by another mechanism that stops the rotation of the winding shaft when the bottom rail 7 is lowered to a predetermined position. Thus, various means for determining the lower limit position of the bottom rail 7 are referred to as “regulating means” in the claims.

  On the bottom rail 7 side, the lifting / lowering cord 11 is held by an adjusting device 21 disposed in the bottom rail 7 through a through hole formed in the fabric presser 9.

  Hereinafter, the details of the adjusting device 21 will be described with reference to FIGS.

  As shown in FIGS. 3 to 4, the adjusting device 21 includes a holding member 23 that holds the lifting / lowering cord 11, a rotating member 25 that is attached to the holding member 23 so as to be relatively rotatable, and a rotation that rotates the rotating member 25. And an operation portion 27, and has a function of adjusting the lower limit position of the bottom rail 7 by changing the amount of pulling the lifting / lowering cord 11 into the bottom rail 7 as the rotating member 25 rotates. .

  As shown in FIGS. 5 (a) to 5 (f), the holding member 23 has a first cord housing groove 33 over its entire length, and the lifting / lowering cord 11 is placed in the first cord housing groove 33. Be contained. A locking portion 31 (knot of the lifting cord 11) is provided at the tip of the lifting / lowering cord 11, and the lifting / lowering cord 11 is brought into contact with the peripheral wall of the first cord receiving groove 33 so that the lifting / lowering cord 11 is shown in FIG. 3. Is pulled out in the direction of arrow A. Further, since the first cord housing groove 33 faces the bottom rail 7 side, the lifting cord 11 is held between the holding member 23 and the bottom rail 7 in the first cord housing groove 33. In this embodiment, a rail 29 is provided at the center of the bottom rail 7 in the width direction, and the holding member 23 has a rail holding groove 35 on the bottom rail 7 side of the first cord receiving groove 33. doing. The rail holding groove 35 communicates with the first cord housing groove 33 and extends parallel to the first cord housing groove 33. The holding member 23 is attached to the rail 29 by inserting the rail 29 into the rail holding groove 35. With this configuration, in this embodiment, the lifting / lowering cord 11 is held in a space surrounded by the peripheral wall of the first cord housing groove 33 and the rail 29 (see FIG. 4B).

  The holding member 23 includes a fitting hole 37 that fits the rotating member 25 at a position where the first cord housing groove 33 is divided (for example, at the center of the first cord housing groove 33 in the longitudinal direction). The rotating member 25 is inserted into the fitting hole 37 and attached to the holding member 23 so as to be relatively rotatable.

  As shown in FIGS. 6A to 6D, the rotating member 25 has a base 39, a tip 41 extending from the base 39, and a radial projection from the base 39 (in other words, a radius larger than that of the base 39). The flange portion 42 is provided. The distal end portion 41 is provided with a claw portion 43 that protrudes in the radial direction. When the rotation member 25 is inserted into the fitting hole 37, the claw portion 43 engages with the upper surface of the holding member 23, and the rotation member 25. Is prevented from being separated from the holding member 23. The distal end portion 41 is provided with a second cord housing groove 45 through which the lifting / lowering cord 11 passes. In a state where the rotating member 25 is fitted to the holding member 23, the second cord housing groove 45 is arranged on a straight line connecting the pair of first cord housing grooves 33 divided by the fitting hole 37, and is moved up and down. The lifting / lowering cord 11 passes through the cord passage position 47 (see FIG. 6B). Further, the distal end portion 41 is a bifurcated fitting piece by the second cord housing groove 45, and each fitting piece is inserted when the rotating member 25 is inserted into the fitting hole 37 of the holding member 23. It can be easily elastically deformed radially inward. For this reason, the rotation member 25 and the holding member 23 can be easily fitted.

  As shown in FIG. 3, when the rotating member 25 is engaged with the holding member 23 and the rotating cord 25 is rotated in a state where the lifting / lowering cord 11 is housed in the first and second cord housing grooves 33 and 45, The cord 11 is wound around the lifting / lowering cord winding position 49 of the distal end portion 41 of the rotating member 25 (see FIG. 6B). Then, the lifting / lowering cord 11 is pulled into the bottom rail 7 and the lower limit position of the bottom rail 7 is raised by the amount wound up. Therefore, the lower limit position of the bottom rail 7 can be adjusted by the rotation of the rotating member 25.

  A rotation operation unit 27 is provided on the outer surface side of the base 39 of the rotation member 25, and the rotation member 25 is rotated by the rotation operation unit 27. In the present embodiment, the rotation operation unit 27 is a linear (that is, − (minus) shape) engagement groove, but the configuration of the rotation operation unit 27 is not particularly limited, and is a + (plus) shape or a hexagonal shape. The engaging groove may have a different shape such as a negative shape, a negative shape, a positive shape, or a hexagonal shape. The rotating member 25 can be rotated by engaging the engaging groove with the tip of a rotating jig such as a minus driver, coin, plus driver, or hexagon wrench and rotating the rotating jig in this state. In the case of the engaging convex portion, a rotating jig that engages with the engaging convex portion is prepared, and the rotating member 25 can be rotated by the same operation. Alternatively, the amount of protrusion of the base portion 39 from the bottom rail 7 may be increased, and the rotating member 25 may be rotated by grasping the side surface of the protruding portion. In this case, the side surface of the protruding portion becomes the rotation operation unit 27.

  The bottom rail 7 has a through hole 51 (see FIG. 7A) on the installation surface (that is, the bottom surface) of the holding member 23, and the rotating member 25 passes into the bottom rail 7 through the through hole 51. Inserted. Since the through hole 51 has a size that allows the base 39 of the rotating member 25 to be inserted and is slightly smaller than the flange portion 42, when the rotating member 25 is pushed into the through hole 51, the flange portion 42. Comes into contact with the bottom surface of the bottom rail 7, and the upper surface 56 and the shoulder 59 of the base portion 39 also come into contact with the two contact portions 61 provided in the fitting hole 37, thereby preventing further pressing. . At this time, since the claw portion 43 is engaged with the upper surface of the holding member 23 (see FIG. 4C), the rotation member 25 is prevented from coming out of the through hole 51. Before the rotating member 25 is inserted, the holding member 23 can freely slide along the rail 29, but its position is fixed by fitting with the rotating member 25. In the present embodiment, the through hole 51 is completely blocked by the flange portion 42 to prevent an accident such as a hand being cut at the edge of the through hole 51, and safety is improved. However, the flange portion 42 is essential. Instead, the entire holding member 23 is accommodated in the bottom rail 7, and a rotating jig 25 is inserted into the through hole 51 and engaged with the rotation operation unit 27 to rotate the rotating member 25. Also good. Furthermore, in the present embodiment, the rotation operation unit 27 is provided on the bottom surface side of the bottom rail 7. For example, a through hole is provided in the fabric retainer 9 and a rotating jig is inserted into the through hole to rotate the rotating member. The front end portion 41 may be engaged and rotated, or the front end portion 41 may be protruded to the outside through a through hole, and the front end portion 41 may be grasped and rotated. Moreover, you may comprise the rotation member 25 and the holding member 23 so that the rotation member 25 may be inserted from the dough presser 9 side.

  Tension is always applied to the lifting / lowering cord 11 by the weight of the bottom rail 7, and the rotary member 25 winds the lifting / lowering cord 11 against this tension. Therefore, if there is no mechanism for holding the state after winding, the lifting / lowering cord 11 11 will be rewound immediately. Therefore, in the present embodiment, the rotating member 25 and the holding member 23 are engaged at a plurality of locations in the circumferential direction, and the rewinding of the lifting / lowering cord 11 is prevented by this engagement. Specifically, as shown in FIG. 5C, the holding member 23 is provided with three engagement recesses 53 on both sides of the first cord housing groove 33 at intervals of 45 degrees. The rotating member 25 is provided with four engaging convex portions 55 around the base portion 39 at intervals of 90 degrees. In the first state where the engagement recess 53 and the engagement protrusion 55 are engaged, the two engagement protrusions 55 are at the position of the first cord housing groove 33, and the remaining two engagement protrusions 55 are The three engaging recesses 53 provided on both sides of the first cord receiving groove 33 are engaged with the central one. When the rotating member 25 is rotated from this state, the engagement is released. When the rotating member 25 is further rotated, the four engaging convex portions 55 engage with the four engaging concave portions 53 that are not involved in the engagement in the first state. To do. When the rotating member 25 is further rotated, the same state as the first state is obtained again. As described above, the engagement concave portion 53 and the engagement convex portion 55 are engaged at a plurality of positions for every 45 degrees of rotation to prevent the lifting / lowering cord 11 from being unwound. In addition, the position and number of the engagement recessed part 53 and the engagement convex part 55 can be changed suitably, and you may replace a recessed part and a convex part.

  When the holding member 23 is rotatable, when the rotating member 25 is rotated, the rotation of the rotating member 25 is also transmitted to the holding member 23 by the engagement of the engaging concave portion 53 and the engaging convex portion 55, thereby holding the holding member 23. The member 23 also rotates. In order to prevent this, the holding member 23 is preferably installed on the bottom rail 7 so as not to rotate around the rotation axis of the rotation member 25 or to have a rotatable angle within 90 degrees. Although it is preferable not to be able to rotate, even if the holding member 23 is rotated together when the rotating member 25 is rotated, it is not a big problem as long as it is within 90 degrees. This is because if the rotating member 25 is further rotated, the lifting / lowering cord 11 can be wound up. Note that the rotatable angle is determined by rotating the rotating member 25 in one direction to a position where the holding member 23 stops rotating, and then rotating the rotating member 25 in the opposite direction from that state until the holding member 23 stops rotating. Means angle.

Next, an assembling method of the adjusting device 21 according to the present embodiment will be described with reference to FIGS.
First, as shown in FIG. 7A, the lifting / lowering cord 11 is inserted into the through hole 51 provided in the bottom rail 7. A locking portion (knot) 31 is formed at the end of the lifting / lowering cord 11.
Next, as shown in FIG. 7B, the holding member 23 is engaged with a rail 29 provided inside the bottom rail 7 (more specifically, from the end in the longitudinal direction of the bottom rail 7 to the rail 29. Is inserted into the rail holding groove 35 of the holding member 23), and the holding member 23 is slid on the rail 29 and moved to a position exceeding the through hole 51 as shown in FIG. By this operation, the lifting / lowering cord 11 is naturally accommodated in the first cord accommodating groove 33.
Next, as shown in FIG. 7 (d), the lifting / lowering cord 11 is pulled out from the through hole 51 from the inner surface side of the bottom rail 7.
Next, as shown in FIG. 7E, the holding member 23 is slid so that the position of the fitting hole 37 provided in the holding member 23 and the position of the through hole 51 of the bottom rail 7 coincide.
Next, as shown in FIG. 7 (f), the rotating member 25 is inserted from the outer surface side of the bottom rail 7 through the through hole 51 and fitted into the fitting hole 37 of the holding member 23, and the adjustment device 21 is assembled. Complete.
Thus, according to the configuration of the present embodiment, the adjustment device 21 is configured with only two parts, and the assembly thereof is very easy.

2. Second Embodiment Next, a second embodiment of the present invention will be described with reference to FIGS. 8 and 9A to 9C. The configuration of the second embodiment of the present invention is similar to that of the first embodiment, but there is a difference in the structure of the bottom rail 7. In the first embodiment, the rail 29 is in the center in the width direction of the bottom rail 7 and the rail holding groove 35 of the holding member 23 is engaged with the rail 29. However, in this embodiment, the bottom rail 7 Rails 54 (see FIG. 8) are provided on both side surfaces, and the shoulder 24 (see FIG. 5 (a)) of the holding member 23 is engaged with the rails 54 (see FIG. 9 (b)). . As a result, the holding member 23 can be slid along the bottom rail 7 as in the first embodiment.

  The width of the space between the rails 54 on both inner sides of the bottom rail 7 is preferably such that the holding member 23 is slidable and non-rotatable, but the holding member 23 is around the rotation axis of the rotating member 25. As long as the rotatable angle is within 90 degrees, it may be a width that allows such rotation.

  The second embodiment is different from the first embodiment only in the configuration for allowing the holding member 23 to slide, and the adjusting device 21 can be assembled in the same manner as in the first embodiment.

  In the second embodiment, the holding member 23 does not need the rail holding groove 35, but the holding member 23 having the rail holding groove 35 may be used for common parts.

3. Third Embodiment Next, a third embodiment of the present invention will be described with reference to FIGS. The configuration of this embodiment is similar to that of the first embodiment, but mainly there is a difference in the structure of the holding member 23 shown in FIGS. In the first embodiment, the first cord housing groove 33 of the holding member 23 is open to the bottom rail 7 side. However, in the present embodiment, the first cord housing groove 33 is formed on the opening side of the bottom rail 7 (the fabric). The lifting / lowering cord 11 is accommodated in the first cord accommodation groove 33 from the opening side. Locking projections 57 are provided on both sides of the inner wall of the first cord housing groove 33 so that the lifting / lowering cord 11 housed in the first cord housing groove 33 is not detached.

  In this embodiment, the configuration of the rotating member 25 shown in FIGS. 13A to 13D is similar to the first embodiment, but there are some differences. First, in this embodiment, the flange part 42 is not provided. For this reason, when the rotating member 25 is inserted from the through-hole 51 of the bottom rail 7, the pushing of the rotating member 25 is not blocked by the flange portion 42, and instead the shoulder portion 59 provided in the base portion 39 is held. Contact with the contact portion 61 provided in the fitting hole 37 of the member 23 prevents further pushing of the rotating member 25 (see FIGS. 11C and 12F). Further, in a state where the rotating member 25 is fitted to the holding member 23, the bottom surface of the bottom rail 7 and the bottom surface of the rotating member 25 are in the same plane, and the entire bottom surface of the bottom rail 7 is flat.

  In the first embodiment, the bottom surface of the second cord housing groove 45 has a semi-cylindrical shape, but in the present embodiment, the bottom surface has a planar shape. The semi-cylindrical shape is preferable because the contact area between the rotary member 25 and the lifting / lowering cord 11 is increased and the gripping force is increased. However, even if it is planar, there is no problem in adjusting the lower limit position of the bottom rail 7. .

  In the first embodiment, the engaging convex portion 55 is provided on a plane parallel to the second cord housing groove 45. However, in the present embodiment, the rotation angle is shifted by 45 degrees from that position. Is provided. Either arrangement works in the same way.

  Next, an assembling method of the adjusting device 21 according to the present embodiment will be described with reference to FIGS.

  First, as shown in FIG. 14A, a bottom rail 7 having a through hole 51 and a rail 29 is prepared. As shown in FIG. 14B, the holding member 23 is moved from the longitudinal end of the bottom rail 7. It is inserted into the rail 29 and is slid and moved so that the positions of the fitting hole 37 of the holding member 23 and the through hole 51 of the bottom rail 7 coincide.

  Next, as shown in FIG. 14C, the rotating member 25 is inserted into the fitting hole 37 through the through hole 51, and the holding member 23 and the rotating member 25 are fitted.

  Next, as shown in FIG. 14 (d), the lifting / lowering cord 11 is pushed into the first cord housing groove 33 of the holding member 23 from the opening side of the bottom rail 7. A locking portion 31 is created at the end of the lifting / lowering cord 11 before or after this step.

  The assembly of the adjustment device 21 is completed through the above steps. As described above, according to the method of the present embodiment, the holding member 23 and the rotating member 25 are fitted together, and the ascending / descending cord 11 is simply pushed into the first cord housing groove 33, so that it is very easy. is there.

  The configuration of the present embodiment has a structure having the rail 54 on the inner side surface of the bottom rail 7 as in the second embodiment, a structure in which the bottom rail 7 and the holding member 23 are engaged by an elastic fitting structure, and the like. Is also applicable.

4). Fourth Embodiment Next, a fourth embodiment of the present invention will be described with reference to FIGS. 15 and 16. The configuration of the present embodiment is similar to that of the third embodiment, but mainly the structure of the holding member 23 is different. In the third embodiment, the first cord receiving groove 33 is open to the opening side of the bottom rail 7 and extends from the fitting hole 37 to both sides in the longitudinal direction. On the other hand, in the present embodiment, the first cord receiving groove 33 is open on the bottom side of the bottom rail 7 and extends only on one side of the fitting hole 37 as in the first embodiment.

  The assembling method of the adjusting device 21 of the present embodiment is similar to that of the first embodiment. However, in the first embodiment, as shown in FIGS. After the cord 11 is inserted, the holding member 23 is slid to the state shown in FIG. 7C. In the present embodiment, as shown in FIG. With the position of the through hole 51 of the rail 7 being matched, the lifting / lowering cord 11 is inserted into the fitting hole 37 and the through hole 51, and then the holding member 23 is further slid to the position shown in FIG. Put it in a state. The subsequent steps are the same as those in the first embodiment, and the configuration shown in FIG. 15 is finally obtained.

  In the present embodiment, the lifting / lowering cord 11 extends to the outside of the bottom rail 7 through the fitting hole 37. Even in such a configuration, when the rotating member 25 is rotated, the claw portion 43 engages with the lifting / lowering cord 11, and the lifting / lowering cord 11 can be wound around the distal end portion 41 of the rotating member 25. The lower limit position of the bottom rail 7 can be adjusted.

5). Fifth Embodiment Next, a fifth embodiment of the present invention will be described with reference to FIGS. In the first to fourth embodiments, the lifting / lowering cord 11 is wound around the lifting / lowering cord winding position 49 (see FIG. 6B) of the distal end portion 41 of the rotating member 25 by the rotation of the rotating member 25. However, in this embodiment, the lifting / lowering cord 11 is wound around the cylindrical portion 36 of the holding member 23 by the rotation of the first rotating member 25a and the second rotating member 25b.

  In FIG. 17, the bottom rail 7 and the disassembled adjusting device 21 are shown. FIG. 18 shows the assembled adjustment device 21. The adjusting device 21 includes three parts, that is, a holding member 23, a first rotating member 25a, and a second rotating member 25b. The holding member 23 is engaged with rails 54 provided on both side surfaces inside the bottom rail 7 as in the second embodiment.

  The assembling method of the adjusting device 21 is as follows. First, the lifting / lowering cord 11 is inserted into the first cord housing groove 33 and the opening 34 on the upper surface communicating therewith. In this state, the positions of the fitting hole 37 of the holding member 23 and the through hole 51 of the bottom rail 7 are matched.

  Next, while engaging the lifting / lowering cord 11 in the engaging groove 46 provided in the second rotating member 25b, the second rotating member 25b is pressed against the upper surface of the cylindrical portion 36 rising from the base portion 26 of the holding member 23, In this state, the first rotating member 25a is inserted into the fitting hole 37 of the holding member 23 and the fitting hole 63 of the second rotating member 25b through the through hole 51, and the claw portion 43 is engaged with the upper surface of the second rotating member 25b. Together, the assembly of the adjusting device 21 is completed.

  The cross-sectional shape of the fitting hole 63 of the second rotating member 25b and the cross-sectional shape of the tip of the first rotating member 25a are both cut off from the end of the circle, and the tip of the first rotating member 25a is fitted. When engaged with the joint hole 63, the first rotating member 25a and the second rotating member 25b rotate together. Further, when the rotation angle of the first rotation member 25a is adjusted so that the tip of the first rotation member 25a is engaged with the fitting hole 63, the direction of the engagement groove 46 and the direction of the second cord housing groove 45 are changed. In agreement with nature, the lifting / lowering cord 11 is accommodated in the second cord accommodating groove 45.

  A flange portion 42 is provided on the proximal end side of the first rotating member 25a. The flange portion 42 has a size that does not enter the through-hole 51, and the flange portion 42 contacts the bottom surface of the bottom rail 7, and the first rotating member 25 a is pushed further into the bottom rail 7. To prevent. A rotation operation unit 27 is provided on the bottom surface of the first rotation member 25 a, and the first rotation member 25 a can be rotated by the operation of the rotation operation unit 27.

  When the first rotating member 25a rotates, the second rotating member 25b also rotates together, and the lifting / lowering cord 11 in the engaging groove 46 of the second rotating member 25b is wound around the cylindrical portion 36. As a result, the length of the lifting / lowering cord 11 drawn into the bottom rail 7 changes, and the lower limit position of the bottom rail 7 can be adjusted.

6). Sixth Embodiment In the first to fifth embodiments, as an example, the lifting / lowering cord 11 is inserted into the bottom rail 7 through the through hole of the fabric retainer 9 attached to the opening of the bottom rail 7. Although described, as shown in FIG. 19, the lifting / lowering cord 11 may be inserted into the bottom rail 7 through a through hole provided in the surface 7a corresponding to the short side of the bottom rail 7 having a substantially rectangular cross section (for example, (It is preferably applied to a pleated screen of the type shown in JP-A-2008-266979). In this case, a through hole is provided in the surface 7b corresponding to the long side of the bottom rail 7 having a substantially rectangular cross section, and the rotating member 25 is fitted to the holding member 23 through the through hole, and the rotation operation unit 27 is moved from the direction of the arrow X. It is possible to adjust the lower limit position of the bottom rail 7 by operating and rotating the rotary member 25 to wind up the lifting / lowering cord 11.

7). Other Embodiments In the first to fifth embodiments, the holding member 23 is slid along the rail 29 or the rail 54 provided on the bottom rail 7, but the sliding movement is not essential. For example, the holding member 23 23 may be configured to be elastically engaged with the bottom rail 7. Furthermore, the structure which does not provide an engagement structure between the holding member 23 and the bottom rail 7 is also possible. For example, in the first embodiment, the holding member 23 and the bottom rail 7 are fixed so as to be relatively rotatable by the claw portion 43 and the flange portion 42 of the rotating member 25, so that the rotatable angle of the holding member 23 is 90 degrees or less. It is sufficient to provide only the mechanism for In this case, the claw part 43 and the flange part 42 are provided with a strength that can hold the force applied between the holding member 23 and the bottom rail 7.

  By the way, depending on the shape of the bottom rail 7, the installation position of the adjusting device 21, and the like, the bottom rail 7 may be inclined in the front-rear direction, and in FIG. The code equalizer 65 is attached to the fabric retainer 9 at a position shifted to, and the center of gravity is moved to a higher position in the bottom rail 7 to make the bottom rail 7 difficult to tilt.

1: Solar radiation shielding device, 3: Head box, 5: Solar radiation shielding material, 7: Bottom rail, 9: Fabric presser, 11: Lifting cord, 13: Through hole, 14: Equalizer, 15: Operation cord, 17: Stopper device , 19: cord outlet, 21: adjusting device, 23: holding member, 24: shoulder, 25: rotating member, 25a: first rotating member, 25b: second rotating member, 26: base, 27: rotating operation unit, 29: Rail, 31: Locking portion, 33: First cord receiving groove, 34: Opening portion, 35: Rail holding groove, 36: Tube portion, 37: Fitting hole, 39: Base portion, 41: Tip portion, 42: flange portion, 43: claw portion, 45: second cord receiving groove, 46: engaging groove, 47: lifting cord passing position, 49: lifting cord winding position, 51: through hole, 53: engaging recess , 54: rail, 55: engagement convex portion, 56: upper surface, 57 Locking projections, 59: shoulder, 61: contact portion 63: fitting hole 65: Code Equalizer

Claims (17)

Solar shading material suspended from the head box,
A bottom rail disposed at the lower end of the solar shading material,
An elevating cord suspended from the head box and supporting the bottom rail;
Elevating means for elevating the bottom rail by changing the elevating cord length between the head box and the bottom rail from the head box side;
A regulating means for regulating a lower limit position of the bottom rail;
An adjustment device that is arranged in the bottom rail and adjusts a lower limit position of the bottom rail by changing a pull-in amount by which the lifting / lowering cord is pulled into the bottom rail as the rotating member rotates,
The adjustment device includes a holding member that holds the lifting cord, a rotating member that is attached to the holding member so as to be relatively rotatable, and a rotation operation unit that rotates the rotating member.
The said shielding member is a solar radiation shielding apparatus provided with the 1st code | cord | chord accommodation groove | channel which accommodates the said raising / lowering cord. The apparatus according to claim 1, wherein the elevating cord is held between the holding member and the bottom rail in a first cord receiving groove. The bottom rail has a through hole on the installation surface of the holding member,
The apparatus according to claim 1, wherein the rotating member is attached to the holding member through the through hole. The rotating member includes a base, a tip extending from the base, and a flange projecting radially from the base,
The apparatus according to claim 3, wherein the rotating member is inserted into the through hole so that the flange portion abuts on an outer surface of the bottom rail. The said rotation operation part is provided in the position which can be operated through the through-hole provided in the bottom face of the said bottom rail, or the bottom face of the said bottom rail. apparatus. The apparatus according to claim 1, wherein the rotation operation unit is provided on an outer surface side of the rotation member. The device according to any one of claims 1 to 6, wherein the rotating member includes a second cord housing groove that houses the lifting cord. The device according to claim 7, wherein the rotating member includes a claw portion that engages with an upper surface of the holding member. The apparatus according to any one of claims 1 to 8, wherein the rotating member and the holding member are engaged at a plurality of locations in a circumferential direction. The rotating member includes a plurality of engaging convex portions provided at equal intervals in the circumferential direction, and the holding member includes a plurality of engaging concave portions engaged with the plurality of engaging convex portions. The device described. The said holding member is installed in the said bottom rail so that it cannot rotate or the rotation angle around the rotating shaft of the said rotation member is less than 90 degree | times. Equipment. The bottom rail includes a rail inside,
The apparatus according to claim 11, wherein the holding member is installed at a desired position by being inserted into the rail and slid from the longitudinal end portion of the bottom rail. The first cord housing groove is provided over the entire length of the holding member,
The lifting cord is held in the first cord housing groove over the entire length of the first cord housing groove,
The holding member includes a fitting hole that fits into the rotating member at a position where the first cord housing groove is divided.
The device according to any one of claims 1 to 12, wherein the rotating member is inserted into the fitting hole and fitted into the holding member. It is a manufacturing method of the solar radiation shielding apparatus of Claim 1,
(1) installing the holding member on the bottom rail so that the position of the fitting hole provided in the holding member and the position of the through hole of the bottom rail coincide with each other;
(2) After the step (1), inserting the rotating member from the outer surface side of the bottom rail into the fitting hole through the through hole, and fitting the holding member into the holding member;
(3) Before the step (1), between the steps (1) and (2), or after the step (2), a step of housing the lifting / lowering cord in the first cord housing groove of the holding member. The manufacturing method of the solar radiation shielding apparatus provided. In the step (3), before the step (1),
(A) Insert a lifting / lowering cord through a through hole provided in the bottom rail,
(B) In that state, the lifting cord is housed in the first cord housing groove of the holding member,
(C) The method of Claim 14 which is a process provided with the process of pulling out the said raising / lowering cord from the said through-hole from the inner surface side of the said bottom rail in the state. The method according to claim 15, wherein in the step (B), the elevating cord is accommodated in the first cord accommodating groove by sliding the holding member so as to straddle the through hole. An adjusting device that is arranged in the bottom rail and adjusts a lower limit position of the bottom rail by changing a pull-in amount by which the lifting / lowering cord is pulled into the bottom rail as the rotating member rotates.
The adjustment device includes a holding member that holds the lifting cord, a rotating member that is attached to the holding member so as to be relatively rotatable, and a rotation operation unit that rotates the rotating member.
The said holding member is a lower limit position adjustment apparatus of a bottom rail provided with the 1st code | cord | chord accommodation groove | channel which accommodates the said raising / lowering cord.