JP6623251B2 - Shutter device - Google Patents

Description

  The present invention relates to a shutter device that opens and closes an opening for work such as a clean bench or a safety cabinet.

  A clean bench for performing experiments and work requiring a dust-free and aseptic condition in a normal environment that is not a clean room is, for example, as described in Patent Document 1, for work only on the front surface of the work table. A working space provided with an opening is formed, and the purified air is always allowed to flow down to the working space through a high performance filter provided on the ceiling, and flows out from the opening provided with a shutter device having a vertically moving shutter. By doing so, the work space is kept clean.

The shutter device includes a shutter that can slide up and down, and a rail portion that is provided on both sides of the shutter and supports the shutter so that the shutter can slide up and down. The rail part is provided in the pillar part provided in the both sides of the shutter.
In order to smoothly slide the shutter up and down, that is, as a lift balancer for the shutter, conventionally, a constant load spring (Conston spring) has been provided inside the column, and the constant load spring and the shutter are connected by a wire. Was.

JP 2010-84789 A

  However, when the constant load spring is provided inside the column portion, there is a problem that the size of the column portion, that is, the diameter of the column portion increases, and it is difficult to perform maintenance of the constant load spring.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a shutter device that can reduce the size of a column portion on which a rail portion is provided and can easily maintain a constant load spring.

In order to achieve the above object, a shutter device of the present invention comprises a shutter that can move up and down,
A shutter device including a rail portion that supports the shutter so as to be movable up and down, and a column portion provided with the rail portion,
One end of the shutter is attached to the shutter, and the wire operates to follow the vertical movement of the shutter;
A constant load spring that is attached to the other end of the wire and urges the shutter in the direction of raising;
And at least one pulley,
The wire is hung on the pulley between its one end and the other end, and after being routed in a desired direction, the other end is attached to the constant load spring,
The constant load spring is attached to an attachment site other than the column portion.

In the present invention, the wire having one end attached to the shutter is hung on the pulley between the one end and the other end, and is then routed in a desired direction. Since it is attached to a constant load spring and this constant load spring is attached to an attachment site other than the column portion, it is not necessary to provide the constant load spring inside the column portion. For this reason, the size of the column portion can be reduced.
In addition, since the constant load spring is attached to the attachment site other than the column part, the maintenance can be easily performed as compared with the case where the constant load spring is provided inside the column part.

Further, in the configuration of the present invention, a holder for holding a plurality of the constant load springs is provided,
The holder includes a connection member that is connected to the end portions of the plate springs of the plurality of constant load springs, is connected to the other end portion of the wire, and moves following the operation of the wire,
The holder may be attached to the attachment site.

According to such a configuration, by adjusting the number of constant load springs held by the holder, the urging force for urging the shutter in the direction of raising the shutter can be easily adjusted according to the weight of the shutter.
In addition, since the end portions of the leaf springs of the plurality of constant load springs are connected to the connection member, and the end portions of the wires are connected to the connection member, the tensile forces of the plurality of constant load springs are combined via the connection member. Can be transmitted to the wire.

  Moreover, the said structure of this invention WHEREIN: The guide part which guides the movement of the said connection member may be provided in the said holder.

  According to such a configuration, since the movement of the connecting member is guided by the guide portion, the wire and the leaf spring can be prevented from being twisted when the wire is actuated with the vertical movement of the shutter.

Further, in the above-mentioned configuration of the present invention, the rail portion has a rail groove having a U-shaped flat cross section that is formed by an extruded material of aluminum and extends vertically.
Protrusions extending vertically are provided on the inner side surface and the bottom surface of the rail groove facing each other,
The shutter has a resin slide part,
The slide portion may be fitted in the rail groove so as to be movable in the vertical direction, and may be slidable in the vertical direction with respect to the protrusion.

According to such a configuration, the protrusions extending vertically are respectively provided on the opposite inner surface and bottom surface of the rail groove formed by the aluminum extruded material, and the resin slide portion of the shutter is vertically disposed on the rail groove. Since it is movably fitted and slidable up and down with respect to the protrusion, the slide portion can be smoothly moved up and down along the rail groove.
Further, as compared to the case where a resin rail having a U-shaped cross section is separately provided in the rail portion, the cost can be reduced since the resin rail becomes unnecessary.

  ADVANTAGE OF THE INVENTION According to this invention, while being able to make small the size of the pillar part in which a rail part is provided, the maintenance of a constant load spring can be performed easily.

It is a perspective view which shows the frame of the clean bench provided with the shutter apparatus which concerns on embodiment of this invention, and shows the state which the shutter opened. It is a perspective view which shows the state which the shutter closed similarly. FIG. 3 is a plan sectional view showing a shutter device according to an embodiment of the present invention and showing pillar portions provided on the left and right sides on the front surface of a frame. It is a perspective view which shows the arrangement | positioning state of a shutter, a wire, a Conston unit, and a fixed pulley. It is a top view which shows a Conston unit similarly. It is a front view showing a Conston unit. FIG. 6 is a cross-sectional view taken along line AA in FIG. FIG. 7 is a sectional view taken along line B-B in FIG. 6.

Embodiments of the present invention will be described below with reference to the drawings.
1 and 2 are perspective views showing a frame 1 of a clean bench provided with a shutter device 10 according to the present embodiment. FIG. 1 shows a state where the shutter is open, and FIG. 2 shows that the shutter is closed. Indicates the state. FIG. 3 is a cross-sectional plan view showing column portions provided on the left and right sides of the front surface of the frame 1.

As shown in FIGS. 1 to 3, the shutter device 10 includes a shutter 11 that can move up and down, a rail portion 12 that supports the shutter 11 so as to move up and down, and a column portion 13 on which the rail portion 12 is provided. I have.
Further, the shutter device 10 has one end attached to the shutter 11, a wire 15 that operates following the up and down movement of the shutter 11, and the other end of the wire 15 is attached and raises the shutter 11. A conston unit 20 including a plurality of constant load springs 16 (see FIGS. 5 and 6) urging in the direction and a plurality of constant pulleys 30 are provided.

  The shutter 11 opens and closes a working opening provided on the front surface of the clean bench. As shown in FIG. 3, the shutter 11 has a frame 11a and a rectangular plate-like glass plate supported by the frame 11a. 11b. The frame 11a is provided with a recess 11c, and a side edge of the glass plate 11b is inserted into the recess 11c and fixed by packing materials 11d and 11e.

The rail portion 12 is formed of an aluminum extruded material, and has a rail groove 12a having a U-shaped flat cross section extending vertically. Protrusions 12b and 12b having a substantially semicircular cross section extending in the vertical direction are provided on opposing inner side surfaces of the rail groove 12a so as to oppose each other in the thickness direction of the shutter 11 (vertical direction in FIG. 3). On the bottom surface of the groove 12 a, protrusions 12 c and 12 c having a substantially semicircular cross section extending vertically are provided apart from each other in the thickness direction of the shutter 11.
Further, the frame 11 a of the shutter 11 is provided with an arm 17 having a substantially L-shaped cross section integrally with the frame body 11 a, and a slide portion 18 is provided at the tip of the arm 17. The slide part 18 is formed of a resin so as to have a substantially rectangular cross section. The resin-made slide portion 18 is fitted in the rail groove 12a so as to be movable up and down with a predetermined gap with respect to the inner side surface and the bottom surface thereof. The slide portion 18 is in slidable contact with the projections 12b and 12b provided on the inner surface of the rail groove 12a and the projections 12c and 12c provided on the bottom surface. In addition, the slide part 18 may be formed in the elongate up and down extending along the rail groove 12a, and may be provided up and down at predetermined intervals.

Such a rail portion 12 is provided on the column portion 13. As shown in FIG. 1 and FIG. 2, the column portion 13 is symmetrically disposed on the left and right sides with the shutter 11 interposed therebetween, is formed of an aluminum extruded material, and extends vertically. The column portion 13 is slightly inclined with respect to the vertical plane. In other words, the column portion 13 is disposed so as to incline backward from the lower end toward the upper end.
Further, as shown in FIG. 3, the column portion 13 is provided in parallel with the wall portions 13 a and 13 b facing outward, the wall portions 13 c and 13 d facing inward, the wall portion 13 e provided on the back side, and the shutter 11. Wall portions 13f and 13g are provided. The rail groove 12a is provided between the wall 13c and the wall 13f.
Further, a decorative cover 19 for maintenance is removably attached to the end portions of the wall portions 13e and 13g of the column portion 13 by screws or the like, and the decorative cover 19 allows the arm 17 provided with the slide portion 18 to be attached. The part is covered.

FIG. 4 is a perspective view showing an arrangement state of the shutter 11, the wire 15, the Conston unit 20 and the fixed pulley 30.
There is a pair of left and right shutter operating mechanisms 40 constituted by the wire 15, the Conston unit 20 and the fixed pulley 30. The distal end portion of the wire 15 of one shutter operation mechanism 40 is fixed to the lower end portion of one side edge portion of the shutter 11, and the distal end portion of the wire 15 of the other shutter operation mechanism 40 is the other side edge of the shutter 11. It is being fixed to the lower end part of a part.
Each of the two sets of shutter operating mechanisms 40 includes a plurality (three in the present embodiment) of constant pulleys 30.
In the following, the left shutter operation mechanism 40 will be described with reference to FIG. 4, and the right shutter operation mechanism 40 is arranged symmetrically with the left shutter operation mechanism 40. The description is omitted.

  The first constant pulley 30 (30a) is fixed to the upper end portion of the column portion 13 (see FIGS. 1 and 2), and the wire 15 is hung from above on the first constant pulley 30 (30a). One leading pulley 30 (30a) is routed downward along the side edge of the shutter 11, and the tip of the wire 15 is fixed to the lower end of the side edge of the shutter 11. As shown in FIG. 3, the first constant pulley 30 (30a) is provided in a recess surrounded by the wall portion 13e, the wall portion 13g, and the wall portion 13d, and the first pulley 30 (30a) The shaft is supported by the wall 13d.

As shown in FIG. 4, the second fixed pulley 30 (30b) is attached to the upper end of a vertical frame 1a (see FIGS. 1 and 2) on the back side that constitutes a part of the frame 1 of the clean bench. Yes. In addition, the cover 31 (refer FIG. 1 and FIG. 2) is provided in the 2nd fixed pulley 30 (30b).
Further, the second constant pulley 30 (30b) is disposed at substantially the same height as the first constant pulley 30 (30a), and the axes of these constant pulleys 30a and 30b are disposed in parallel to each other. .
The wire 15 from the first constant pulley 30 (30a) is hung from above on the second constant pulley 30 (30b), and downward from the second constant pulley 30 (30b) along the vertical frame 1a. Has been routed.

The third constant pulley 30 (30c) is disposed below the second constant pulley 30 (30b) and is fixed to a back plate 1b provided on the back side of the frame 1. The third constant pulley 30 (30c) has a support member 32 (FIG. 1 and FIG. 1) with its axis oriented in a direction orthogonal to the first and second constant pulleys 30 (30a, 30b) in plan view. 2), and the support member 32 is fixed to the back plate 1b.
Then, the wire 15 from the second constant pulley 30 (30b) is hung from the side on the third constant pulley 30 (30c), and horizontally from the third constant pulley 30 (30c) along the back plate 1b. Is routed inward.
Further, the wire 15 from the third constant pulley 30 (30c) is routed substantially horizontally, and its proximal end is attached to the Conston unit 20. In this way, the wire 15 is drawn around in the desired direction by being hooked on the three pulleys 30a, 30b, and 30c between one end portion (tip portion) and the other end portion (base end portion) thereof. In addition, the other end is attached to the conston unit 20.
In the present embodiment, the conston unit 20 is attached to the back plate 1b so as to be substantially horizontal, but the conston unit 20 may be arranged vertically. In this case, the Conston unit may be attached to the back plate 1b or may be attached to a predetermined portion other than the column portion 13 of the frame 1.

Since there are two sets of shutter operating mechanisms 40, there are also two conston units 20. One conston unit 20 and the other conston unit 20 are arranged adjacent to each other in the vertical direction, and the left and right directions are reversed. In the present embodiment, for example, in the present embodiment, it is attached to the back plate 1b.
The Conston unit 20 is configured as follows.

That is, as shown in FIGS. 5 and 6, the Conston unit 20 includes a substantially U-shaped holder 21. As shown in FIGS. 1, 2, and 4, the holder 21 is formed in an elongated shape on the left and right, and is fixed to the back plate 1 b with its opening facing the front side of the frame 1.
5 is a plan view of the holder 21 with its opening facing upward, and FIG. 6 is a front view thereof. Therefore, in FIGS. 5 to 6, the holder 21 will be described with its opening facing upward.
As described above, FIGS. 5 and 6 show the holder 21 with the opening facing upward, but when the holder 21 is attached to the back plate 1b, the opening faces the front side of the frame 1. Attach it in the state where

As shown in FIGS. 5 and 6, a plurality of constant load springs 16 are juxtaposed in the longitudinal direction of the holder 21 inside the holder 21. The constant load spring 16 is configured by tightly winding a leaf spring 16a in a substantially cylindrical shape with a constant curvature, and is used by extending the outer end of the leaf spring 16a in a straight line, and a load (tensile force) is generated. It is almost constant regardless of the stroke.
Such a constant load spring 16 is housed inside the holder 21 with its shaft 16b parallel, and both ends of the shaft 16b are fixed to the opposite side walls 21a and 21a of the holder 21. Further, in the present embodiment, the five constant load springs 16 are stored close to one end of the holder 21 (the right end in FIGS. 5 and 6).

Further, as shown in FIG. 6, the constant load spring 16 is disposed closer to the front side of the frame 1 (upper side in FIG. 6) as it is closer to one end (right end in FIG. 6) of the holder 21. ing. Accordingly, the five constant load springs 16 are arranged closest to one end of the holder 21 (the right end in FIG. 6) on the front side, and the farther away from one end of the holder 21, the closer to the back side. It is arranged to be close. Further, at one end of the holder 21, the wall widths of the side walls 21 a and 21 a (upper and lower widths in FIG. 6) gradually become wider as approaching one end (right end in FIG. 6) of the holder 21. Thus, the five constant load springs 16 can be arranged as described above.
By arranging the five constant load springs 16 in this way, the plate springs 16a of the constant load springs 16 can be pulled out and connected to a connection plate 24 described later without interfering with each other.

  Further, a connection member 22 is provided inside the holder 21 so as to be movable in the longitudinal direction of the holder 21 (left and right direction in FIGS. 5 and 6). The connection member 22 is connected to the end portions of the leaf springs 16a of the five constant load springs 16 and to the other end portion of the wire 15, and follows the operation of the wire 15 in the left-right direction. It is supposed to move.

As shown in FIG. 7, the connection member 22 is provided at a columnar shaft portion 22a, a steady collar 23 attached to the outer periphery of the shaft portion 22a, a connection plate 24, and a lower end portion of the shaft portion 22a. The slide part 25 is provided.
A female screw portion is formed on the upper end surface of the shaft portion 22a, and a nabe screw 26 is screwed to the female screw portion. The proximal end portion of the wire 15 is attached to the upper end portion of the shaft portion 22a. That is, the base end portion of the wire 15 is formed in a ring shape, and the attachment ring 15a formed in this ring shape is extrapolated from the upper end portion of the shaft portion 22a and is hung on the shaft portion 22a.

The connection plate 24 includes a first plate 24a and a second plate 24b that is inclined with respect to the first plate 24a and provided integrally with the first plate 24a.
A through hole is formed in the first plate 24a, and the shaft portion 22a is inserted into the through hole. Accordingly, the connection plate 24 is attached to the shaft portion 22a. Further, the first plate 24a and the attachment ring 15a of the wire 15 are attached to the shaft portion 22a in a state where they are overlapped in the axial direction of the shaft portion 22a. Then, the nabe screw 26 is screwed into the female thread portion of the shaft portion 22a, thereby preventing the attachment ring 15a and the first plate 24a from deviating from the shaft portion 22a.

The end portions of the leaf springs 16 a of the five constant load springs 16 are attached to the second plate 24 b of the connection plate 24.
That is, the end portions of the five leaf springs 16a are in contact with the surface of the second plate 24b in a state where they are overlapped in the thickness direction of the leaf springs 16a. Further, through holes 24c and 24c (see FIG. 8) are formed in the second plate 24b so as to be separated from each other in the width direction of the plate spring 16a, and the five plate springs 16a have through holes in the width direction of the plate spring 16a. Are spaced apart from each other.
The through holes 24c, 24c of the second plate 24b and the through holes of the plate spring 16a are arranged coaxially, and the bolts 27 are secondly arranged in the through holes 24c, 24c arranged coaxially and the through holes of the plate spring 16a. The plate 24b is inserted from the back side.
A spring fixing seat 28 is installed from above the five leaf springs 16a in a state where bolts 27 are inserted into the spring fixing seat 28, and five spring fixing seats 28 and the second plate 24b are provided between the spring fixing seat 28 and the second plate 24b. The end of the leaf spring 16a is disposed. Then, the nuts 27a are screwed onto the bolts 27 and tightened, and the end portions of the five leaf springs 16a are sandwiched between the spring fixing seat 28 and the second plate 24b. Are collectively attached to the second plate 24b.

The holder 21 of the Conston unit 20 is provided with a guide portion 35 that guides the movement of the connection member 22 in the longitudinal direction of the holder 21.
That is, as shown in FIGS. 7 and 8, the guide portion 35 is configured by a total of four guide rails 35 a, that is, a pair of left and right and a pair of upper and lower. The guide rail 35a is formed of resin in a rectangular shape in cross section, and extends in the longitudinal direction of the holder 21 (the left-right direction in FIG. 7 and the direction orthogonal to the paper surface in FIG. 8).
As shown in FIG. 8, guide rails 35a and 35a, which are spaced apart from each other by a predetermined gap at the lower ends of the side walls 21a and 21a of the holder 21, are fixed by screws 36 from the side walls 21a and 21a. Yes. Further, the space between the guide rails 35a and 35a disposed between the side walls 21a and 21a is substantially the same as or slightly longer than the width of the anti-rest collar 23, and is separated to the left and right disposed on the upper side. A steady collar 23 is provided between the guide rails 35a and 35a, and the steady collar 23 is slidable with respect to the opposing surfaces of the guide rails 35a and 35a. Therefore, when the connecting member 22 moves in the longitudinal direction of the holder 21, the steady collar 23 is guided to the guide rails 35a and 35a. As a result, vibration during movement of the connecting member 22 (lateral vibration that intersects the movement direction) is prevented.

Further, a male screw portion 22 b is provided at the center of the lower end surface of the shaft portion 22 a of the connecting member 22, and this male screw portion 22 b is inserted into a through hole provided in the center portion of the slide portion 25. . A nut 22c is screwed into the male screw portion 22b and tightened, whereby the slide portion 25 is fixed to the lower end surface of the shaft portion 22a.
The slide portion 25 has a disk shape, and is inserted between upper and lower guide rails 35a and 35a arranged with a predetermined gap in the vertical direction so as to be movable in the longitudinal direction of the guide rail 35a.
The outer periphery of the slide portion 25 is inserted between the upper and lower guide rails 35a and 35a so as to be movable in the longitudinal direction of the guide rail 35a. A guide rail 35a is inserted between the upper and lower guide rails 35a, 35a on the side wall 21a side so as to be movable in the longitudinal direction of the guide rail 35a, and the other portion is interposed between the upper and lower guide rails 35a, 35a on the other side wall 21a side. It is inserted so as to be movable in the longitudinal direction. Therefore, the slide part 25 can move in the longitudinal direction of the guide rail 35a in a state in which the vertical swing is prevented by the upper and lower guide rails 35a, 35a.
Thus, the slide portion 25 is prevented from shaking in the vertical direction by the guide portion 35, and the steadying collar 23 is prevented from shaking in the left-right direction by the guide portion 35, so that the connecting member 22 is shaken along the guide portion 35. Is prevented and can move smoothly.

  Further, as shown in FIGS. 6 and 7, a stopper 37 having an L-shaped cross section is fixed to the bottom wall of the holder 21, and when the slide portion 25 abuts against the stopper 37, the connecting member 22 is further removed. The holder 21 is restricted so as not to move to the right end side.

  In the shutter device 10 having such a configuration, in a state where the shutter 11 as shown in FIG. 2 is closed, the plate springs 16a of the five constant load springs 16 are pulled out, and the connection member 22 is As shown in FIGS. 5 and 6, it is located on the side far from the constant load spring 16 (left side in FIGS. 5 and 6). Therefore, a force pulling upward from the five constant load springs 16 through the connection plate 24, the shaft portion 22 a and the wire 15 acts on the shutter 11 against the gravity, and this force acts on the shutter 11. Balance with gravity. For this reason, the shutter 11 is held in a closed state.

Further, when the shutter 11 is lifted upward from the closed state by the work, the gravity acting on the shutter 11 and the pulling force by the constant load spring 16 are balanced, so that the shutter 11 can be easily lifted. Similarly, when the operator pulls the shutter 11 downward from the opened state, the gravity acting on the shutter 11 and the pulling force by the constant load spring 16 are balanced, so that the shutter 11 can be easily pulled down.
At this time, the connection member 22 moves in the holder 21 along the longitudinal direction thereof. At this time, the slide portion 25 and the steady collar 23 of the connection member 22 move along the guide portion 35. As a result, the connecting member 22 is guided by the guide portion 35 and can move smoothly.

According to the present embodiment, the wire 15 having one end attached to the shutter 11 is hung on the plurality of pulleys 30 (30a, 30b, 30c) between the one end and the other end. The other end is attached to a plurality (five) of constant load springs 16, and these constant load springs 16 are attached to the parts other than the column part 13 via a holder 21 that holds them. Since it is attached to a part (for example, the back plate 1b), it is not necessary to provide the constant load spring 16 inside the column part 13. For this reason, the size of the column portion 13 can be reduced.
Further, since the constant load spring 16 is attached to an attachment site other than the column portion 13 (for example, the back plate 1b), maintenance can be performed more easily than when the constant load spring 16 is provided inside the column portion 13.

In addition, a holder 21 that holds a plurality (five) of constant load springs 16 is provided. The holder 21 is connected to the end portions of the plate springs 16 a of the plurality of constant load springs 16 and the other end of the wire 15. Since the connecting member 22 is connected and moved following the operation of the wire 15, the weight of the shutter 11 can be adjusted by adjusting the number of constant load springs 16 held by the holder 21. Accordingly, it is possible to easily adjust the urging force (tensile force) that urges the shutter 11 in the direction of raising the shutter 11.
Further, since the end portions of the leaf springs 16a of the plurality of constant load springs 16 are connected to the connection member 22, and the end portions of the wires 15 are connected to the connection member 22, the tensile force of the plurality of constant load springs 16 is increased. They can be transmitted to the wire 15 through the connecting member 22 together.

  Further, since the holder 21 is provided with the guide portion 35 that guides the movement of the connection member 22, the connection member 22 is guided by the guide portion 35. For this reason, when the wire 15 act | operates with the up-and-down movement of the shutter 11, it can suppress that the leaf | plate spring 16a of the said wire 15 and the constant load spring 16 is twisted.

In addition, protrusions 12b and 12c extending vertically are provided on the opposite inner surface and bottom surface of the rail groove 12a formed of an extruded aluminum material, and the resin sliding portion 18 of the shutter 11 is formed vertically on the rail groove 12a. And is slidable up and down with respect to the protrusions 12b and 12c. Therefore, the slide portion 18 can be smoothly moved up and down along the rail groove 12a.
Further, as compared with the case where the rail portion 12 is separately provided with a resin rail having a U-shaped cross section, the cost can be reduced since the resin rail becomes unnecessary.

DESCRIPTION OF SYMBOLS 10 Shutter device 11 Shutter 12 Rail part 12a Rail groove 13 Pillar part 15 Wire 16 Constant load spring 16a Leaf spring 18 Slide part 20 Conston unit 21 Holder 22 Connection member 30 (30a-30c) Constant pulley 35 Guide part

Claims (4)

A vertically movable shutter;
A rail portion that supports the shutter so as to be movable up and down;
A shutter device provided with a pillar portion provided with the rail portion,
One end of the shutter is attached to the shutter, and the wire operates to follow the vertical movement of the shutter;
A constant load spring that is attached to the other end of the wire and urges the shutter in the direction of raising;
And at least one pulley,
The wire is hung on the pulley between its one end and the other end, and after being routed in a desired direction, the other end is attached to the constant load spring,
The constant load spring is attached to an attachment site other than the pillar ,
A holder for holding a plurality of the constant load springs;
The holder includes a connection member that is connected to the end portions of the plate springs of the plurality of constant load springs, is connected to the other end portion of the wire, and moves following the operation of the wire,
The shutter device, wherein the holder is attached to the attachment site . A vertically movable shutter;
A rail portion that supports the shutter so as to be movable up and down;
A shutter device provided with a pillar portion provided with the rail portion,
One end of the shutter is attached to the shutter, and the wire operates to follow the vertical movement of the shutter;
A constant load spring that is attached to the other end of the wire and urges the shutter in the direction of raising;
And at least one pulley,
The wire is hung on the pulley between its one end and the other end, and after being routed in a desired direction, the other end is attached to the constant load spring,
The constant load spring is attached to an attachment site other than the pillar,
The rail portion has a rail groove with a U-shaped flat cross section that is formed by an extruded material of aluminum and extends vertically.
Protrusions extending vertically are provided on the inner side surface and the bottom surface of the rail groove facing each other,
The shutter has a resin slide part,
A shutter device characterized in that the slide portion is fitted in the rail groove so as to be movable up and down and is slidable up and down with respect to the protrusion. A holder for holding a plurality of the constant load springs;
The holder includes a connection member that is connected to the end portions of the plate springs of the plurality of constant load springs, is connected to the other end portion of the wire, and moves following the operation of the wire,
The shutter device according to claim 2 , wherein the holder is attached to the attachment portion. The shutter device according to claim 1 , wherein the holder is provided with a guide portion that guides movement of the connection member.

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