JP2004019219A - Tilt shutter device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tilt shutter device which enhances durability by reducing bending stress imposed on a pull element and a rotating element when an opening/closing member is pulled out and taken up. <P>SOLUTION: Each ribbon plate (101), in which the pull element and the rotating element each are formed, is formed as a group of plates (12), in which the two discrete plates (12) of a thickness of 0.1-0.2 mm are paired in such a manner that a surface and a backside are superposed on each other. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The invention of this application relates to a tilt shutter device. More specifically, the invention of this application relates to a tilt shutter device capable of reducing bending stress applied to a pulling element and a rotating element at the time of pulling and winding of an opening / closing member, and having improved durability.
[0002]
[Prior art]
A wide variety of opening / closing devices for opening / closing doorways and windows of garages and the like have been proposed and provided. This applicant has also proposed a tilt shutter device referred to as a swiveling shutter blade opening device (Japanese Patent Application Laid-Open No. 11-280355).
[0003]
This tilt shutter device, as exemplified in FIG.
(A) With each flap (1) closed, the opening / closing member (2) is manually or automatically pulled out from the storage portion (3) in the direction of the arrow shown in the drawing. In this example, the opening / closing member (2) is Move vertically down,
(B) Completely shield the opening (4) shown in FIG.
(C) Even when the opening (4) is completely shielded by the opening / closing member (2), when lighting, ventilation, etc. are required, the flaps (1) are linked to each other in the direction of the arrow shown in FIG. That is, it can be tilted upward, for example. Therefore, the opening (4) is partially opened while being shielded by the opening / closing member (2), and light, wind, and the like are taken into the room or the like through the opening (4).
(D) When opening the opening (4), each flap (1) is moved in a direction to close the opening (4), that is, downward, and once completely closed, the opening / closing member ( 2) is wound around the storage section (3), and in this example, it is moved vertically upward and stored. It can work as follows. As described above, in the tilt shutter device proposed above, partial opening is possible at the time of complete shielding.
[0004]
This tilt shutter device can employ the configuration illustrated in the main part plan views shown in FIGS. 4 and 5.
[0005]
That is, as described above, the opening / closing member (2) is formed by a plurality of tilting flaps (1) connected in the width (w) direction. As shown in FIG. 3, the opening / closing member (2) can be pulled out from the storage section (3) and wound up and stored in the storage section (3). Further, in the tilt shutter device, a pulling element (5) is arranged outside both right and left edges of the opening / closing member (2), and the pulling element (5) is located on the opposite side to the opening / closing member (2). A rotating element (6) is arranged. One end of a crank pin (7) is inserted and fixed to both left and right ends of the flap (1), and the other end is rotatably connected to a rotary element (6). Therefore, when one of the pulling element (5) and the rotating element (6) is slightly moved in the length direction of the opening / closing member (2), the crank pin (7) rotates, and the crank pin (7) is rotated. As shown in FIG. 3 (c), each flap (1) tilts in conjunction with the rotation of. More specifically, as an example, a case where the pulling element (5) can move minutely will be described. As shown in FIG. 5, an elastic member such as a coil spring having one end fixed to an appropriate member on the storage section (3) side. The other end of the means (8) is fixed to the rotating element (6) closest to the storage section (3). When the opening / closing member (2) shown in FIG. 3B is completely shielded, the rotating element (6) is in a temporarily fixed state and cannot be moved. In this state, when the pulling element (5) is slightly moved upward in the state shown in FIG. 4 and FIG. 5, the rotating element (6) does not move, and the crank pin (7) turns to rotate each flap ( 1) tilts in conjunction.
[0006]
In each of the pulling element (5) and the rotating element (6), a plurality of elongated ribbon plates (10) having elongated holes (9) penetrating the front and back formed at both ends are connected by pins (11). It has been formed. The elastic means (8) mainly functions as a pulling means for securely returning the tilted flap (1) to its original position (it is difficult to return to the original position by the weight of the flap (1) alone). The elongated holes (9) formed at both ends of the ribbon plate (10) have a function of overlapping the flaps (1) at the upper and lower ends, as shown in FIGS. Have. The reason why the flaps (1) are overlapped in this way is to prevent wind pressure when the opening / closing member (2) is completely shielded.
[0007]
[Problems to be solved by the invention]
However, such a tilt shutter device has some practically important points to be improved although they are detailed to improve the performance. As one of them, the bending durability of the ribbon plate (10) forming the pulling element (5) and the rotating element (6) is improved, and the operation of opening and closing the opening and closing member (2) and tilting of each flap (1) is stabilized. To make the sex more certain.
[0008]
The ribbon plate (10) is required to have a tensile strength and a bending strength to enable the opening / closing member (2) to be pulled out and wound up. For this reason, a thin metal plate having a thickness of about 0.4 mm made of a material such as stainless steel is generally used. However, the operation stability of opening and closing the opening and closing member (2) and tilting of each flap (1) is improved. In order to make it more reliable, it is necessary to increase the bending durability while maintaining the required tensile strength.
[0009]
The invention of this application has been made in view of the circumstances described above, and can reduce bending stress applied to a pulling element and a rotating element that are applied at the time of pulling out and winding of an opening / closing member, thereby improving durability. An object of the present invention is to provide a tilt shutter device.
[0010]
[Means for Solving the Problems]
According to the invention of this application, as a solution to the above-described problem, a plurality of tilting flaps are formed continuously in the width direction thereof, so that the flaps can be pulled out from the storage portion and wound up and stored in the storage portion. With the opening and closing member, a pulling element disposed outside the left and right edges of the opening and closing member and a rotating element disposed on the opposite side of the opening and closing member across the pulling element, One end of the crank pin is inserted and fixed to both left and right ends, the other end of the crank pin is rotatably connected to the rotating element, and either the pull element or the rotating element is minutely moved in the length direction of the opening / closing member. When moving, the crank pin rotates, and with the rotation of the crank pin, each flap tilts in conjunction with it, and the pulling element and the rotating element The tilt is also formed by connecting a plurality of elongated ribbon plates, each of which has a long hole penetrating the front and back sides formed at both ends, with pins, and the pins are movable in the length direction in the long hole. In the shutter device, each of the ribbon plates forming the pulling element and the rotating element is a plate group in which two pieces of a single piece having a thickness of 0.1 mm to 0.2 mm are superposed on the front and back to form a set. A tilt shutter device (Claim 1) is provided.
[0011]
Also, the invention of this application is such that the cross-sectional shape of the end portion which is inserted into and fixed to the flap of the crankpin is such that a half symmetrical in both vertical and horizontal directions has a chevron shape, and a chevron ridge portion is concavely curved. In addition, the fact that the top is curved in a convex shape (claim 2) is provided as one embodiment.
[0012]
Hereinafter, the tilt shutter device of the present invention will be described in more detail with reference to the drawings.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a cross-sectional view of a principal part showing an outline of a tilt shutter device of the invention of this application.
[0014]
The main structure of the tilt shutter device according to the invention of the present application is shown in FIGS. 4 and 5, and is a tilt shutter device that is called a revolving shutter blade opening device already proposed (Japanese Patent Laid-Open No. 11-280355). Is assumed.
[0015]
That is, in the tilt shutter device of the invention of this application, a plurality of tilting flaps (1) are formed continuously in the width (w) direction, and are drawn out from the storage section (3) and wound into the storage section. It has an opening / closing member (2) capable of being stored, and a pulling element (5) arranged outside the left and right end edges of the opening / closing member (2) and sandwiching the pulling element (5). A rotating element (6) arranged on the opposite side to the opening / closing member (2). The left and right ends of the flap (1) are fixed by inserting one end of a crank pin (7), and the other end of the crank pin (7) is rotatably connected to the rotary element (6). When one of the element (5) and the rotating element (6) is slightly moved in the length direction of the opening / closing member (2), the crank pin (7) rotates, and the rotation of the crank pin (7) is caused. Accordingly, each flap (1) tilts in conjunction with it. In each of the pulling element (5) and the rotating element (6), a plurality of elongated ribbon plates (10) having elongated holes (9) penetrating the front and back formed at both ends are connected by pins (11). The pin (11) is movable in the longitudinal direction in the elongated hole (9).
[0016]
In the tilt shutter device of the invention of this application, as shown in FIG. 1, the individual ribbon plates (101) forming the pulling element (5) and the rotating element (6) each have a thickness of 0.1 mm to 0.1 mm. A plate group (12) is formed by superposing two 0.2 mm single products on the front and back to form a set.
[0017]
That is, in the tilt shutter device of the invention of this application, as understood from the thickness, the thickness (t) of one ribbon plate (101) is the same as that of the ribbon plate that has been used in the conventional tilt shutter device. While the plate group (12) is formed, the number of ribbon plates (101) in each plate group (12) is two, and the thickness is as described above. (T) is a set of two single products that are half of each other and are superimposed on the front and back sides.
[0018]
For this reason, in the tilt shutter device of the invention of this application, the pulling element (5) and the rotating element (6) can maintain the required tensile strength of the conventional tilt shutter device without any change. The effective sectional area of the group (12), that is, the total sectional area of the two ribbon plates (101) having the thickness (t) is the same as the sectional area of the ribbon plate (10) in the conventional tilt shutter device. ing. On the other hand, in the tilt shutter device of the present invention, since the ribbon plate (101) is thinner than the ribbon plate (10) in the conventional tilt shutter device, the bending applied to one ribbon plate (101) at the same radius of curvature. The stress will be reduced.
[0019]
Therefore, the tilt shutter device of the invention of the present application, in which two such ribbon plates (101) are superposed on the front and back sides to form a set and a plate group (12), is compared with the conventional tilt shutter device. The durability of the opening / closing member (2) against pulling and winding is improved. The operation stability of the opening / closing of the opening / closing member (2) and the tilting of each flap (1) becomes more reliable. In addition, the deformation resistance required for bending the plate group (12) is reduced, and the opening and closing member (2) can be smoothly pulled out and wound up.
[0020]
In the tilt shutter device of the invention of this application, as shown in FIG. 2, a cross section of an end (71) of the crank pin (7) which is inserted into and fixed to the flap (1) shown in FIG. The shape can be a special shape. As shown in FIG. 2, in the tilt shutter device of the invention of the present application, the crank pin (7) whose end (71) has the following shape can be preferably used.
[0021]
That is, the cross-sectional shape of the end portion (71) is symmetrical in both the vertical and horizontal directions, and the half portion has a chevron shape. The mountain-shaped ridge portion (13) is curved in a concave shape, and the top portion (14) is curved in a convex shape. The crank pin (7) having the end portion (71) having such a cross-sectional shape can increase the force transmitted to each flap (1), and more reliably tilt the flap (1) as described above. can do. In the flap (1), the end to which the end (71) of the crankpin (7) is inserted and fixed is usually made of resin in consideration of price, weight, and the like. On the other hand, the crank pin (7) is made of steel, and the magnitude of the power transmitted to the end of the flap (1) depends on the compression deformation resistance of the resin forming the end of the flap (1). Greatly depends on Therefore, in order to increase the transmission force, it is desirable to adopt a structure in which compression deformation of the resin hardly occurs. The crank pin (7) having the end portion (71) having the above-described cross-sectional shape can sufficiently increase the transmission force to the end portion of the flap (1) due to its rotation.
[0022]
Of course, the invention of this application is not limited by the above embodiments. It goes without saying that various aspects are possible for the configuration and structure of the flap, the pulling element, the rotating element, and other details.
[0023]
【The invention's effect】
As described in detail above, according to the invention of this application, the bending stress applied to the pulling element and the rotating element applied at the time of drawing and winding of the opening and closing member is reduced, the durability against drawing and winding is improved, and the opening and closing of the opening and closing member is improved. The operation stability of the tilting of each flap becomes more reliable. In addition, the opening and closing member can be smoothly pulled out and wound up.
[Brief description of the drawings]
FIG. 1 is a sectional view of a principal part showing an outline of a tilt shutter device of the invention of the present application.
FIGS. 2A and 2B are a side view and a main part enlarged cross-sectional view showing one embodiment of a cross-sectional shape of a crank pin which can be employed in the tilt shutter device of the invention of the present application and an end portion which is inserted into and fixed to a flap; .
FIGS. 3 (a), (b), (c) and (d) are perspective views each showing an outline of the operation of a tilt shutter device previously proposed by the applicant of the present application.
FIG. 4 is a main part plan view showing a configuration that can be adopted in the tilt shutter device previously proposed by the applicant of the present application.
FIG. 5 is a main part plan view showing a configuration that can be adopted in the tilt shutter device previously proposed by the applicant of the present application.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Flap 2 Opening / closing member 3 Storage part 4 Opening 5 Pulling element 6 Rotating element 7 Crank pin 71 End part 8 Elastic means 9 Elongated hole 10 Ribbon plate 101 Ribbon plate 11 Pin 12 Plate group 13 Ridge part 14 Top

Claims (2)

A plurality of tilting flaps are formed so as to be connected in the width direction thereof, and provided with an opening / closing member capable of being pulled out from the storage portion and wound and stored in the storage portion, and along the left and right end edges of the opening / closing member. It comprises a pulling element arranged on the outside thereof, and a rotating element disposed on the opposite side to the opening / closing member with the pulling element interposed therebetween, and one end of a crank pin is inserted and fixed to both left and right ends of the flap. The other end of the crankpin is rotatably connected to the rotating element. When one of the pulling element and the rotating element is slightly moved in the length direction of the opening / closing member, the crankpin rotates, and the crankpin rotates. Each flap is tilted in conjunction with the rotation, and both the pulling element and the rotating element have narrow holes formed at both ends with long holes penetrating the front and back. In a tilt shutter device in which a plurality of ribbon plates are connected by pins and the pins are movable in the longitudinal direction in the elongated holes, individual ribbon plates forming pulling elements and rotating elements, respectively. Is a plate group in which two single products having a thickness of 0.1 mm to 0.2 mm are superposed on the front and back to form a set of plates. The cross-sectional shape of the end that is inserted and fixed to the flap of the crankpin is half-symmetrical in both the vertical and horizontal directions, and the ridgeline of the mountain is concavely curved and the top is convex. 2. The tilt shutter device according to claim 1, wherein the tilt shutter device is curved.

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