JP5996898B2 - Louver lock mechanism and louver provided with the same - Google Patents

Description

  The present invention relates to a louver configured with a plurality of blades and a fitting including the louver.

  Conventionally, there is a known louver that is configured to perform ventilation and lighting adjustment by arranging a plurality of slats in the vertical direction and rotating each slat in conjunction with the joinery installed in a building such as a house. There are also documents that disclose this (for example, see Patent Document 1).

  In the louver disclosed in Patent Document 1, a knob part is provided so as to protrude from the locating surface of the louver frame, and the operation is performed to move the knob part vertically. The structure to be made is disclosed.

  On the other hand, Patent Document 2 discloses a configuration in which a stopper member for preventing finger pinching is provided on the side surface of the vertical sash of the sash in a so-called differential sash.

Japanese Patent No. 4410373 Specification JP 2008-267078 A

  In recent years, there has been a growing demand for a more comfortable indoor environment through ventilation and temperature control, a reduction in air-conditioner power consumption through ventilation, and a reduction in lighting power consumption through lighting. Louvers have the potential to meet these demands. There are many requests for innovations and improvements in structure and function, improvement in safety performance, and realization of more diverse installation forms.

  In such a louver, when considering application with a sliding door type fitting that slides the door in a single-opening or double-opening type, the door thickness of the sliding door, that is, various values within the range of the expected width The member needs to be stored.

  For example, like the form of patent document 1, when there exists a protrusion like a knob part, the protrusion will collide with a door pocket or another sliding door, and the sliding door cannot be fully opened. .

  On the other hand, when the louver is applied to the sliding door, if the sliding door is slid with the louver open, if a finger or an object is inserted between the blades, the sliding louver frame of the sliding door Since there is a possibility that a problem that a finger or an object is pinched may occur, countermeasures are required.

  In this regard, Patent Document 2 discloses a configuration in which a stopper member is provided on the side surface of the vertical sash of the sash, but this stopper member does not function before the other sash that is pulled back is almost fully opened. Is.

  For this reason, with regard to louvers in which fingers or objects may be inserted in the middle part of the sliding door in the width direction, the stopper members that are conventionally applied to sashes with a stopper member for the purpose of preventing finger pinching, It is impossible to prevent pinching.

  In addition, in the case of a sash, such a difference cannot be assumed that a finger or an object is inserted in the expected direction by a glass face material, but in the case of a louver, the blade is rotated and opened. This is because it can be assumed that the object is inserted in the expected direction.

  Further, as another problem, there is a demand for fixing the blades at a predetermined opening / closing angle from the viewpoint of reliably maintaining predetermined ventilation and lighting. For example, by controlling ventilation and lighting with a louver according to the time of day, it is possible to intentionally plan ventilation, temperature adjustment, and securing of light, and thus achieve the goals of reducing air-conditioner power consumption and lighting power consumption by daylighting. In order to do this, it is possible to use a louver.

  In this respect, since the opening / closing angle of the slats is assumed to change due to various factors such as finger and object contact, wind, sliding sliding doors, etc., it is necessary to fix the slats to a predetermined opening / closing angle. It is.

  And by solving this problem, it becomes possible to intentionally avoid the occurrence of the above-described problems such as insertion of fingers and objects in the expected direction by fixing the blades in a closed state. .

  Therefore, in view of the above problems, the present invention relates to a louver having a novel structure that can be accommodated within the door thickness range of the door body and that can fix the blades at a predetermined opening / closing angle. It is what we propose.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

That is, as described in claim 1,
A louver having a louver frame, a blade, and a lock mechanism for locking the rotation of the blade,
The locking mechanism is
A lock pin that is inserted into and engaged with an engaged portion provided in the louver frame, and an operation member that operates the lock pin,
The lock pin is provided so as to be accommodated in a space in the blade plate and to protrude from the space in the blade plate,
The operation member is provided to be slidable in the longitudinal direction of the blade,
When locked by the locking mechanism,
When the lock mechanism is not locked,
In any state of
The louver is configured to fit within an expected width of a louver frame in which the louver is installed.

Moreover, as described in claim 2,
The operation member is slidably attached to a pair of base portions that are inserted into an opening that penetrates in the thickness direction of the blades,
The operation member is disposed in each of two spaces partitioned by the louver,
The operation member has a protrusion that can be picked up with fingers.

Moreover, as described in claim 3,
The engaged portions provided on the louver frame are arranged at two locations so as to be point-symmetric with respect to the axis of the shaft that supports the rotation of the blade plate,
The lock pins are provided at two locations, and each lock pin is disposed at a position corresponding to the engaged portion at a predetermined angle.

According to the invention of claim 1,
When the operation member of the lock mechanism is within the expected width of the louver frame, the operation member of the lock mechanism does not collide with the door pocket or other sliding doors, and the sliding door can be fully opened.

According to the invention of claim 2 ,
The lock mechanism can be operated in two spaces partitioned by louvers.

According to the invention of claim 3 ,
A lock pin can be inserted into the engaged portion and locked.

It is a figure shown about one Example of a door provided with a louver. FIG. 2 is a horizontal sectional view taken along line AA in FIG. 1. It is a figure shown about the concept by which an interlocking mechanism and a support mechanism are comprised in a unit assembly type. It is a figure shown about the dimension setting of the longitudinal direction of an interlocking mechanism and a support mechanism. It is a figure shown about the structure of an interlocking | linkage unit. It is the sectional view on the AA line of FIG. It is a figure shown about the other structural example of an interlocking | linkage unit. It is a figure explaining the fitting of a connection convex part and a connection recessed part. It is a figure shown about the structure of a support unit. It is a figure shown about the other structural example of a support unit. It is a figure which shows the cross-sectional shape of a blade, and the shape of the edge part cap attached to the edge part by the side of the interlocking | linkage unit of a blade. It is a figure which shows the cross-sectional shape of a blade, and the shape of the edge part cap attached to the edge part by the side of the interlocking | linkage unit of a blade. It is a figure shown about the external appearance of the lock mechanism attached to the blade. FIG. 14 is a cross-sectional view taken along line A to D in FIG. 13. (A) is a figure showing about the state where lock release regulation is carried out by an operation regulation mechanism. (B) is a diagram showing a state in which the lock release is not restricted by the operation restriction mechanism. (A) is a figure shown about the relationship between the locking mechanism and the expected width of a louver frame. (B) is a figure shown about the difference of the door body when the lock was made. (C) is a figure which shows about the pulling difference of the door body in case locking is not made. It is a figure explaining the operation | work of installation or removal of a slat. It is a perspective view shown about a cover material.

Next, embodiments of the present invention will be described with reference to the drawings.
Drawing 1 is a front view of door 3 provided with louver 1 concerning one embodiment of the present invention. The door 3 includes left and right vertical beams 31 and 32, an upper beam 33, a lower beam 34, and an intermediate beam 35 spanned between the left and right vertical beams 31 and 32. Louver openings 36 and 37 for installing the louvers 1 and 1 are formed by the formed openings. The left and right vertical rods 31 and 32 function as louver frames on which the louvers 1 and 1 are installed.

  In the embodiment of FIG. 1, the two door bodies 3 and 3 are installed so as to be able to draw, and are implemented in the form of a double sliding door. In addition, it is also conceivable to implement a single sliding door in which a single door body 3 is accommodated in a door pocket.

  FIG. 2 is a horizontal sectional view taken along line AA in FIG. In FIG. 2, the support mechanism 8 is accommodated in the vertical groove portion 31 a provided in the left vertical rod 31, and the interlocking mechanism 7 is accommodated in the vertical groove portion 32 a provided in the right vertical rod 32. A blade 9 is spanned between the interlocking mechanism 7 and the support mechanism 8.

  3 and 4 are diagrams showing a concept in which the interlocking mechanism 7 and the support mechanism 8 are configured in a unit assembly type. The interlocking mechanism 7 is configured as a series of interlocking mechanisms 7 by assembling a plurality of interlocking units 71, and the connecting shafts 73, 73 of the interlocking units 71, 71 rotate synchronously so that they are connected to one end of the connecting shafts 73, 73. The blade plates 9 and 9 to be connected are rotated in conjunction with each other.

  Similarly, the support mechanism 8 is configured as a series of support mechanisms 8 by assembling a plurality of support units 81, and the other ends of the blade plates 9, 9 are connected to the support shafts 83, 83 of the support units 81, 81. The other ends of the blades 9 and 9 are supported by the support shafts 83 and 83 so as to be rotatable.

  FIG. 5 is a diagram illustrating the configuration of the interlocking unit 71. FIG. 5 shows a partially enlarged side sectional view, a side view, a front view, and a horizontal sectional view of the interlocking unit 71. 6 is a cross-sectional view taken along line AA in FIG.

  As shown in FIGS. 5 and 6, the interlocking unit 71 includes a plurality of connecting shafts 73 and 73 arranged in the longitudinal direction of the interlocking mechanism 7 (FIGS. 3 and 4) and interlocking for interlocking the connecting shafts 73 and 73. It has shafts 75 and 75 and a case member 76 for accommodating them.

  In this embodiment, the interlocking unit 71 is provided with eight connecting shafts 73 and interlocking shafts 75. The connecting shafts 73 and the interlocking shafts 75 are incorporated from the opening on the back side of the case member 76, and the opening on the back side. By attaching the cap member 77 to the assembly, the assembly of the interlocking unit 71 can be completed.

  One end of the connecting shaft 73 is accommodated in the case member 76, and a bevel gear 73a (bevel gear) is provided at the tip of one end.

  The other end of the connecting shaft 73 protrudes from the front portion 76a of the case member 76, and a connecting portion 73b for connecting to the end cap 91 (see FIG. 11) of the vane plate 9 is connected to the tip of the other end. Is provided.

  The rotating shaft portion 73 c of the connecting shaft 73 is rotatably supported by a cylindrical bearing portion 76 b provided on the case member 76. The rotation shaft portion 73c projects outward from the front surface portion 76a of the case member 76 and is designed to have a larger shaft diameter than the connection portion 73b, so that the end surface 73d of the rotation shaft portion 73c is positioned outside the case member 76. Appear in

  The interlocking shaft 75 constitutes an integral interlocking shaft by coaxially connecting the rotating shaft portion 75c, and is fitted with a connecting convex portion 75d on one end side of the rotating shaft portion 75c and a connecting concave portion 75e on the other end side. By combining, the adjacent interlocking shafts 75 are connected.

  The end of the rotating shaft portion 75 c on the connection convex portion 75 d side is supported by bearing portions 76 c and 77 c provided on the case member 76 and the cap member 77.

  A bevel gear 75a (bevel gear) is provided on one end side of the rotating shaft portion 75c of the interlocking shaft 75 on the connecting convex portion 75d side. The bevel gear 75a of the interlocking shaft 75 is meshed with the bevel gear 73a of the connecting shaft 73, and the connecting shaft 73 rotates in conjunction with the rotation of the interlocking shaft 75.

  The interlocking shafts 75 and 75 rotate as an integral interlocking shaft, whereby the connecting shafts 73 and 73 are rotated in synchronization. That is, all the connecting shafts 73 and 73 are rotated by the same amount of rotation. Driven by rotation.

  Of the interlocking shafts 75, 75 to be connected, the connecting convex portion 75 d of the interlocking shaft 75 disposed on one end side in the longitudinal direction of the case member 76 is a hole formed in the one side end surface portion 76 d of the case member 76. The connecting recess 75e of the interlocking shaft 75 disposed on the other end side in the longitudinal direction of the case member 76 is seen through a hole 76y formed in the other end surface portion 76e of the case member 76 while projecting from the case member 76.

  Thus, when a series of interlocking mechanisms 7 is configured by connecting a plurality of interlocking units 71 as shown in FIGS. 3 and 4, as shown in FIG. 8, the connecting projections 75 d of adjacent interlocking units 71 are connected. By fitting the connecting recesses 75e with each other, the interlocking shaft 75 of the adjacent interlocking unit 71 and further the connecting shaft 73 are rotated in synchronization.

  Further, like the connecting shaft 120 shown in FIG. 7, the connecting shaft 120 has a gear shaft portion 130 that is a first member provided inside the case member 76 and a gear shaft portion 130 that is the first member. It is good also as comprising by the two members of the connection shaft part 140 which is a 2nd member provided so that attachment from the exterior of the case member 76 is possible. In addition, it is good also as comprising not only two members but with more parts.

  Specifically, the bevel gear 133a (bevel gear) of the gear shaft 130 is meshed with the bevel gear 75a (bevel gear) of the interlocking shaft 75. In the shaft center of the gear shaft portion 130, a fitting hole 131 for fitting the tip portion 141a of the connecting shaft portion 140 is formed. The gear shaft portion 130 and the connecting shaft portion 140 are integrally rotated by inserting the distal end portion 141a into the insertion hole 131 so as to be fitted to each other.

  A protrusion 142 for contacting the front surface 76a of the case member 76 is provided in the middle of the connecting shaft 140 in the axial direction, and in a state where the tip 141a is inserted into the insertion hole 131 of the gear shaft 130, The protrusion 142 is disposed outside the case member 76. The part arrange | positioned on the outer side of the case member 76 in the connection shaft part 140 is comprised as the connection part 143 for connecting with the blade | wing plate side which is not shown in figure.

  The projecting portion 142 is formed by an annular convex portion, and the connecting shaft portion 140 is not excessively pushed into the gear shaft portion 130 by the projecting portion 142 coming into contact with the front surface portion 76a of the case member 76. As a result, the movement (displacement) of the gear shaft 130 in the arrow K direction (axial direction) is suppressed, so that the displacement of the bevel gear 133a of the gear shaft 130 and the bevel gear 75a of the interlocking shaft 75 is shifted. Can be reduced, and the backlash can be kept constant. And it becomes possible to reduce the rotational torque for rotating the connection shaft part 140 and the interlocking shaft 75.

  Further, in the configuration of FIG. 7, the connecting shaft 120 is a gear shaft portion 130 that is a first member provided inside the case member 76, and the outside of the case member 76 with respect to the gear shaft portion 130 that is the first member. A wall of the case member 76 between the shaft end surface 132 of the gear shaft 130 and the protrusion 142 of the connection shaft 140. It is comprised so that a part (front part 76a) may be inserted | pinched from both sides.

  As a result, the axial displacement of the connecting shaft 120 can be suppressed more effectively, and the connecting shaft portion 140 can be fitted to the gear shaft portion 130 from the outside of the case member 76. A good configuration is realized.

  Further, as shown in FIG. 11, the connecting portion 73 b connected to the end cap 91 of the blade plate 9 in the connecting shaft 73 is formed in a regular quadrangular prism shape, and the rotation angle of the blade plate 9 in the adjacent interlocking unit 71. In order to match, it is necessary to match the angles of the connecting portions 73b in the adjacent interlocking units 71.

  In this regard, as shown in FIG. 8, in the present embodiment, the connecting shaft 73 (connecting portion 73b) is connected to the adjacent interlocking units 71 and 71 by designing the shape of the connecting convex portion 75d and the connecting concave portion 75e formed in the interlocking shaft 75. ) Of the rotation angle.

  Specifically, a line 75z parallel to a tangent line 75y passing through one corner 75w in a virtual circle 75x centered on the center of the regular hexagon is defined as a portion of one corner 75w of the regular hexagon 75v in the connecting convex portion 75d. Thus, the positioning side portion 75M to be cut off is formed, and the connection side portion 75d having an octagonal axial cross section is formed by the positioning side portion 75M.

  Similarly, in the connection recess 75e, a positioning side 75N is formed, and the connection recess 75e having an octagonal hole cross section is formed by the positioning side 75N.

  Since the positioning side portions 75M and 75N are shorter in width than the other side portions 75L, the connecting convex portion 75d and the connecting concave portion 75e must always be fitted so that the portions of the positioning side portions 75M and 75N coincide with each other. become. In this way, the interlocking units 71 can be connected so that the angles of the connecting portions 73b coincide in the adjacent interlocking units 71.

  In the present embodiment, by forming the connecting convex portion 75d and the connecting concave portion 75e having an octagonal cross section, it has been realized that the angles of the connecting portions 73b in the adjacent interlocking units 71 are matched. The shape of is not limited to an octagon.

  FIG. 9 is a diagram illustrating the configuration of the support unit 81. In FIG. 9, a side view, a side sectional view, and a front view of the support unit 81 are shown. The support unit 81 includes a plurality of support shafts 83 and 83 arranged in the longitudinal direction of the support mechanism 8 (FIGS. 3 and 4), and a biasing member for projecting the support shafts 83 and 83 so as to have a biasing force. 85 and 85, and a case member 86 for accommodating them.

  In this embodiment, the support unit 81 is provided with eight support shafts 83 and urging members 85, and the support shafts 83 and the urging members 85 are incorporated from the opening on the back side of the case member 86, and By attaching the cap member 87 to the opening, the assembly of the support unit 81 can be completed.

  A large-diameter slide shaft portion 83c of the support shaft 83 is accommodated in the case member 86, and a biasing member 85 is inserted into a hole 83a provided inside the slide shaft portion 83c. The urging member 85 of the present embodiment is constituted by a coil spring, and is arranged so that a convex portion 86 c protruding from the case member 86 is inserted into one end side of the urging member 85.

  The slide shaft portion 83 c of the support shaft 83 is slidably supported by a cylindrical bearing portion 86 b provided on the case member 86, and an insertion portion 83 b provided on the other end of the support shaft 83 by the urging member 85. Is configured to protrude from the front face 86 a of the case member 86. The insertion portion 83b is configured to be inserted into the end cap 92 (see FIG. 12) of the blade plate 9.

  In the support shaft 83, an intermediate shaft portion 83d having a shaft diameter smaller than that of the slide shaft portion 83c and larger than that of the insertion portion 83b is formed between the slide shaft portion 83c and the insertion portion 83b.

  An annular contact plane 83m formed between the slide shaft portion 83c and the intermediate shaft portion 83d and orthogonal to the support shaft 83 is a case member at a portion where the insertion hole 86d of the support shaft 83 provided in the case member 86 is formed. Abutting the inner surface 86e of the support shaft 83, the urging member 85 urges the insertion portion 83b of the support shaft 83 to protrude from the case member 86, while the slide shaft portion 83c of the support shaft 83 is urged by the case member 86. Housed inside.

  An annular pressing plane 83n formed between the insertion portion 83b and the intermediate shaft portion 83d and orthogonal to the support shaft 83 appears on the outside of the case member 86. Accordingly, by pressing the pressing plane 83 n outside the case member 86, the support shaft 83 can be slid to be pushed into the case member 86.

  Further, a convex portion 86m is formed on one end surface portion 86f in the longitudinal direction of the case member 86, while a concave portion 86n is formed on the other end surface portion 86g on the other end side in the longitudinal direction of the case member 86. .

  Accordingly, when a series of support mechanisms 8 are configured by connecting a plurality of support units 81 as shown in FIGS. 3 and 4, the convex portions 86m and the concave portions 86n of the adjacent support units 81 are fitted. Thus, it is possible to position adjacent support units 81.

  10, the pressing plane 183n of the support shaft 183 is disposed inside the case member 186, and the pressing plane 183n is pressed from the outside of the case member 186 with a pin or the like. For this purpose, a through hole 186b may be provided in the front portion 186a of the case member 186.

  According to this, in the front part 186a of the case member 186, the insertion hole 86d for penetrating the support shaft 183 can be configured to be small, and the pressing plane 183n is not exposed to the outside, so that the design is excellent. The configuration can be realized. In this case, the cover member 40 shown in FIG. 18 is also provided with a through hole at a location corresponding to the through hole 186b.

  FIG. 11 is a view showing the cross-sectional shape of the blade plate 9 and the shapes of the end caps 91 and 93 attached to the end portion of the blade plate 9 on the interlocking unit side.

  In this embodiment, the vane plate 9 is a long member composed of a hollow aluminum extrusion-molded member. When the vane plate 9 is rotated in a substantially vertical state so as to close the louver, the vane plate 9 has a substantially vertical surface. The flat portions 95a and 95b constituting the back surface, the inclined surface portions 95c to 95f that are directed from the upper and lower ends of the flat portions 95a and 95b to the inside in the thickness direction of the blade plate 9, respectively, and the central portions in the thickness direction at the upper and lower ends. And abutting surface portions 95g and 95h constituting a vertical plane.

  When the louver is rotated so as to close the louver, in the blade plates 9 and 9 adjacent to each other in the vertical direction, the contact surface portion 95g at the upper portion of the lower blade plate 9 is located at the lower portion of the upper blade plate 9. By abutting against a certain abutment surface portion 95h, the rotation of the blades 9 and 9 is restricted, and a closed state of the louver can be realized (there is no rotation beyond the closed state).

  An end cap 91 is inserted into the end of the louver. The end cap 91 includes a base portion 91 a that closes the opening of the blade plate 9, and wall-like fitting portions 91 b and 91 b that project from the base portion 91 a and are fitted into the blade plate 9. .

  The base portion 91 a of the end cap 91 is formed with a regular rectangular fitting hole portion 91 d for fitting with the connecting portion 73 b of the connecting shaft 73, and the blade 9 is rotated with the rotation of the connecting shaft 73. The angle of is changed.

  Further, an end cap 93 attached to a blade plate 9 provided with a lock mechanism 20 (see FIG. 13) to be described later has a base portion 93a that closes the opening of the blade plate 9 in order to make the lock mechanism 20 function. A wall-like fitting portion 93b, 93b that protrudes from the portion 93a and is fitted into the blade 9 and insertion portions 93c, 93c for inserting the lock pins 25a, 25b are configured.

  The base portion 93 a of the end cap 93 is also formed with a regular square fitting hole 93 d for fitting with the connecting portion 73 b of the connecting shaft 73.

  When the lock mechanism 20 (see FIG. 13) is not provided at the end of the blade 9 on the interlocking unit side, the end cap 91 may be used instead of the end cap 93.

  FIG. 12 is a view showing the cross-sectional shape of the blade plate 9 and the shapes of the end caps 92 and 94 attached to the end portion of the blade plate 9 on the interlocking unit side. The end cap 92 includes a base portion 92 a that closes the opening of the blade plate 9, and wall-like fitting portions 92 b and 92 b that project from the base portion 92 a and are fitted into the blade plate 9. .

  In addition, a circular insertion hole 92 d for inserting the insertion portion 83 b of the support shaft 83 is formed in the base portion 92 a of the end cap 92, and the end cap 92 is supported by the insertion portion 83 b of the support shaft 83. It can be idle while being done.

  In addition, an end cap 94 attached to a slat 9 provided with a lock mechanism 20 (see FIG. 13), which will be described later, includes a base 94a that closes the opening of the slat 9 in order to make the lock mechanism 20 function. A wall-like fitting portion 94b, 94b that protrudes from the portion 94a and is fitted into the blade 9 and an insertion portion 94c, 94c for inserting the lock pins 25a, 25b.

  In addition, a circular insertion hole 94 d for inserting the insertion portion 83 b of the support shaft 83 is also formed in the base portion 94 a of the end cap 94.

  When the lock mechanism 20 (see FIG. 13) is not provided at the end of the blade 9 on the support unit side, the end cap 92 may be used instead of the end cap 94.

  FIG. 13 is a view showing the appearance of the lock mechanism 20 attached to the blade 9, and shows a front view, a plan view, and an end view, respectively. 14 is a cross-sectional view taken along the lines AA, BB, CC, and DD in FIG.

  As shown in FIGS. 13 and 14, the lock mechanism 20 is provided at the end portion of the blade plate 9, and is a pair of base portions that are fitted into the opening 96 opened in the longitudinal direction of the blade plate 9. 21, 22, operating members 23, 24 attached to the base portions 21, 22 slidably, and a lock member 25 slidably moved in the longitudinal direction of the blade 9 in conjunction with the operating members 23, 24. have.

  The operation members 23 and 24 are constituted by bar-shaped members that are long in the longitudinal direction of the blades 9 and are provided with horizontal plate-like protrusions 23a and 24a that can be picked up with fingers. By picking the protrusions 23a and 24a, an operation of sliding the operation members 23 and 24 and an operation of rotating the blade plate 9 can be easily performed.

  Lock pins 25 a and 25 b are formed on the lock member 25, and the lock member 25 projects from the blade plate 9 in conjunction with the operation members 23 and 24, or is accommodated in the blade plate 9. The lock pins 25a and 25b move through the insertion portions 92c and 92c formed in the end cap 92.

  As shown in FIG. 12, a set of engaged portions 86m and 86n and a set of engaged portions 86x and 86y are provided on the front surface 86a of the case member 86. The lock pins 25a and 25b are inserted into either set.

  The set of engaged portions 86m and 86n and the set of engaged portions 86x and 86y are arranged so as to be point-symmetric with respect to the axis of the connecting shaft 73, and one set of engaged portions. The virtual line 86u that connects the portions 86m and 86n and the virtual line 86v that connects the other set of engaged portions 86x and 86y are shifted by an angle α.

  One set of engaged portions 86m and 86n is arranged such that the blade 9 can be made substantially vertical when the lock pins 25a and 25b are inserted, and the louver is closed. When the lock mechanism 20 is operated and locked, the closed state of the louver can be maintained (first-stage closed state lock). In other words, the locking by the locking mechanism 20 is realized at the first angle at which the louver 9 is closed.

  In addition, the other set of engaged portions 86x and 86y are arranged such that the blade plate 9 can be inclined at a predetermined angle when the lock pins 25a and 25b are inserted. When the blade 9 is tilted at a predetermined angle and the lock mechanism 20 is operated and locked while the louver is open, the open state where the louver is open at a predetermined angle can be maintained (open state lock). In other words, the lock mechanism 20 locks the blade plate 9 at the second angle at which the louver is opened.

  In addition, as shown in FIG. 18, the prospective surface portion 41a of the cover member 40 attached to the vertical rod 31 has through-grooves 41m, 41n, 41x, which enable insertion of the lock pins 25a, 25b of the lock mechanism 20. 41y is provided. The through grooves 41m, 41n, 41x, 41y are arranged so as to coincide with the positions of the groove-like engaged portions 86m, 86n, 86x, 86y formed in the front portion 86a of the case member 86 of the support mechanism 8. Thus, the lock pin 25a, 25b is inserted into the engaged portions 86m, 86n, 86x, 86y through the through grooves 41m, 41n, 41x, 41y, so that the lock mechanism 20 can function. ing.

  Further, as shown in FIGS. 15A and 15B, the lock mechanism 20 of the present embodiment restricts the operation of the operation members 23 and 24 in the locked state, thereby closing the louver. The operation restriction mechanism 26 is provided to reliably maintain the above.

  The operation restricting mechanism 26 includes a restricting member 26a for engaging with the engaging portion 25k of the lock member 25, and is configured to restrict the movement of the lock member 25 in the unlocking direction by operating the restricting member 26a. The restricting member 26a has an operation portion 26b extending in the thickness direction of the blade 9 and an engagement portion 26k extending in a direction orthogonal to the operation portion 26b.

  Both end portions of the operation portion 26b are rotatably supported by the opening holes 21a and 22a of the base portions 21 and 22 (see also the sectional view taken along the line DD in FIG. 14), and the end surface 26e of the operation portion 26b is opened. It can be confirmed from the outside through the holes 21a and 22a.

  An operation portion 26f is formed on the end surface 26e of the operation portion 26b. In the present embodiment, the operation portion 26f is configured by a groove, and the operation portion 26b is rotated by inserting a flathead screwdriver or a coin into the operation portion 26f.

  The distal end of the engaging portion 26k is inserted into arc-shaped engaging portions 25k, 25k arranged to face the slide groove 25s formed in the lock member 25 according to the rotation angle, and the slide of the lock member 25 is restricted. To do.

  In the state of FIG. 15A, the engaging member 26k of the restricting member 26a engages with the engaging portion 25k of the lock member 25, so that the lock member 25 moves to the right in the drawing, that is, the lock The release is regulated.

  In the state of FIG. 15B, the engaging portion 26k of the restricting member 26a is not engaged with the engaging portion 25k of the lock member 25 so that the slide groove 25s passes between the restricting members 26a. The lock member 25 is allowed to move to the right in the drawing, that is, the lock can be released.

  Further, as shown in FIG. 15B, the arc-shaped engagement portion 25k of the lock member 25 has an engagement portion at an angle that restricts the operation when the restriction member 26a is rotated to restrict the operation. A stopper 25u portion for restricting the rotation of 26k is provided.

  As a result, when the regulating member 26a is rotated when the operation is regulated, the rotation angle of the regulating member 26a can be stopped at a specified position, and the operability can be improved.

  With the above configuration, the unlocking can be prevented by operating the operation restricting mechanism 26 and restricting the operation of the operation members 23 and 24 in the locked state (second stage closed state lock). .

  The operation restriction mechanism 26 can be used as, for example, a safety lock (child lock, double lock) for preventing an operation by a child or an unintended operation.

  FIG. 17 is a diagram for explaining the operation of installing or removing the blade plate 9. In the support mechanism 8 installed on the vertical shaft 31, the pressing plane 83n of the support shaft 83 protrudes from the case member 86 and appears outside.

  When removing the blade 9, the support shaft 83 is pushed into the case member 86 while a tool 88 such as a flat-blade screwdriver is abutted against the pressing plane 83n of the support shaft 83, so that the insertion portion of the support shaft 83 is inserted. 83 b can be detached from the insertion hole 92 d of the end cap 92 of the blade 9.

  In addition, it is preferable to appropriately design the shapes of the base portions 92a and 94a (see FIG. 12) of the end caps 92 and 94 so that the pressing plane 83n of the support shaft 83 can be pressed by the tool 88. That is, it is preferable that the pressing end surface 83n of the support shaft 83 is not hidden by the base portions 92a and 94a, and if it is hidden, for example, a pressing hole 94m may be provided in the end cap 94. preferable.

  Accordingly, the support shaft 83 can be released from the blade plate 9 so that the support of the blade plate 9 by the support shaft 83 can be released. By pulling the blade plate 9 in an oblique direction, the blade plate 9 can be removed from the vertical rod 31. It can be removed.

  Further, by pulling out the blade 9 on the vertical rod 31 side as described above, the insertion hole portion of the end cap 92 connected to the connecting shaft 73 protruding from the interlocking unit 71 of the other vertical rod 32 is provided. 92 d is detached from the connecting portion 73 b of the connecting shaft 73.

  Thereby, the support of the blade 9 by the connecting shaft 73 can be released, and the blade 9 can be removed from the vertical rod 32.

  As described above, the blade plate 9 can be removed from the vertical rod 31 by a simple operation of pushing the support shaft 83, and the blade plate 9 can be easily removed.

  On the other hand, when installing the slat 9, first, the end cap 92 of the slat 9 is attached to the connecting part 73 b of the connecting shaft 73 projecting on the vertical rod 32 side.

  Then, after pressing the pressing plane 83n of the support shaft 83 protruding on the vertical rod 31 side and pushing the support shaft 83, the position of the insertion portion 83b is shifted, and then the end cap on the vertical rod 31 side of the blade 9 The insertion hole portion 92d formed in 92 is opposed to the insertion portion 83b, and the pressing of the pressing plane 83n is released, so that the insertion portion 83b enters the insertion hole portion 92d.

  As described above, the blade plate 9 can be attached to the vertical rod 31 by a simple operation such as pushing the support shaft 83 and opening it, and the blade plate 9 can be easily installed.

The present invention can be implemented as described above.
That is,
As shown in FIGS. 16 (A) to 16 (C), a louver locking mechanism 20 for locking the rotation of the vane plate 9,
The operation members 23 and 24 for operating the lock mechanism 20 are
When locked by the locking mechanism 20 (FIG. 16B),
When the lock mechanism 20 is not locked (FIG. 16C),
In any state of
The louver is configured to fit within an expected width M3 of the louver frame (vertical rod 31) on which the louver is installed.

  Thereby, the operation members 23 and 24 of the lock mechanism 20 may fall within the expected width M3 of the louver frame (vertical rod 31), so that the operation members 23 and 24 of the lock mechanism 20 may collide with a door pocket or another sliding door. And the sliding door can be fully opened.

  In the above-described embodiment, the lock mechanism 20 is provided on the blade 9 side, but may be provided on the vertical shaft 31 side.

Preferably, as shown in FIG.
At least the blade 9
The first angle that closes the louver,
A second angle that opens the louver,
It is assumed that it is configured to be lockable at two angles.

  Accordingly, the closed state of the louver can be maintained, and it is possible to meet a request for fixing the blade plate at a predetermined opening / closing angle from the viewpoint of reliably maintaining predetermined ventilation and lighting. For example, by controlling ventilation and lighting with a louver according to the time of day, it is possible to intentionally plan ventilation, temperature adjustment, and securing of light, and thus achieve the goals of reducing air-conditioner power consumption and lighting power consumption by daylighting. In order to do this, it is possible to use a louver.

Preferably, as shown in FIG.
The operation members 23 and 24 for operating the lock mechanism 20 are:
It is assumed that the two spaces 30A and 30B partitioned by the louvers are respectively arranged.

  As a result, the lock mechanism 20 can be operated in the two spaces 30A and 30B partitioned by the louvers.

Preferably, as shown in FIGS. 15A and 15B,
When the blade 9 is locked by the locking mechanism 20,
An operation restricting mechanism 26 for restricting unlocking by operating the operation members 23 and 24;
I will do it.

  Thus, in the locked state, the operation restriction mechanism 26 is operated to restrict the operation of the operation members 23 and 24, thereby preventing the unlocking (second stage closed state lock). The operation restriction mechanism 26 can be used as, for example, a safety lock (child lock, double lock) for preventing an operation by a child or an unintended operation.

Also preferably, as shown in FIGS.
The lock mechanism 20
A pair of base portions 21 and 22 that are inserted into an opening 96 that is opened in the longitudinal direction of the blade 9;
Operation members 23 and 24 slidably attached to the respective base portions 21 and 22;
A lock member 25 that slides in the longitudinal direction of the blade 9 in conjunction with the operation members 23 and 24;
Have
Lock pins 25a, 25b provided on one end side of the lock member 25 are
By being inserted into the engaged portions 86m and 86n provided on the side of the vertical rod 31 that is the louver frame,
It is assumed that the rotation of the blade 9 is locked.

  Thereby, the lock mechanism 20 can be provided on the blade plate 9 side. Further, by adopting a configuration in which the blade plate 9 is provided, for example, the lock mechanism 20 can be provided on the blade plate 9 at a high position or the blade plate 9 at a low position can be provided. The degree of freedom of arrangement of the mechanism 20 can be increased.

Preferably, as shown in FIG.
The operation members 23 and 24 are constituted by bar-like members that are long in the longitudinal direction of the blades 9 and are provided with horizontal plate-like protrusions 23a and 24a that can be picked by fingers.

This
By picking the protrusions 23a and 24a, an operation of sliding the operation members 23 and 24 and an operation of rotating the blade plate 9 can be easily performed.

  Further, as shown in FIG. 16, the louver is provided with a lock mechanism 20.

  Accordingly, the closed state of the louver can be maintained, and it is possible to meet a request for fixing the blade plate at a predetermined opening / closing angle from the viewpoint of reliably maintaining predetermined ventilation and lighting. For example, by controlling ventilation and lighting with a louver according to the time of day, it is possible to intentionally plan ventilation, temperature adjustment, and securing of light, and thus achieve the goals of reducing air-conditioner power consumption and lighting power consumption by daylighting. In order to do this, it is possible to use a louver.

  The present invention can be applied to louvers that are installed in any place, such as doors such as sliding doors and hinged doors, so-called fitting and fittings, and openings.

DESCRIPTION OF SYMBOLS 1 Louver 3 Door 7 Interlocking mechanism 8 Support mechanism 9 Blade board 20 Lock mechanism 31 Vertical shaft 32 Vertical shaft 36 Louver opening 37 Louver opening 71 Interlocking unit 73 Connecting shaft 73a Bevel gear 75 Interlocking shaft 75a Bevel gear 76 Case member 81 Support unit 83 Support shaft 85 Biasing member 86 Case member

Claims (3)

A louver having a louver frame, a blade, and a lock mechanism for locking the rotation of the blade,
The locking mechanism is
A lock pin that is inserted into and engaged with an engaged portion provided in the louver frame, and an operation member that operates the lock pin,
The lock pin is provided so as to be accommodated in a space in the blade plate and to protrude from the space in the blade plate,
The operation member is provided to be slidable in the longitudinal direction of the blade,
When locked by the locking mechanism,
When the lock mechanism is not locked,
In any state of
A louver configured to fit within an expected width of a louver frame in which the louver is installed. The operation member is slidably attached to a pair of base portions that are inserted into an opening that penetrates in the thickness direction of the blades,
The operation member is disposed in each of two spaces partitioned by the louver,
The operating member has a protrusion that can be picked with fingers.
The louver according to claim 1. The engaged portions provided on the louver frame are arranged at two locations so as to be point-symmetric with respect to the axis of the shaft that supports the rotation of the blade plate,
The lock pins are provided at two locations, and each lock pin is disposed at a position corresponding to the engaged portion at a predetermined angle of the blade plate,
The louver according to claim 1, wherein the louver is provided.

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