JP3771627B2 - Window opening and closing device with half-opening device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a window opening / closing device for opening / closing a window remotely operated via a wire, and more particularly to a half-opening device for stopping a window in a half-open state.
[0002]
[Prior art]
The window opening and closing device of the smoke exhaust window is provided with an urging mechanism for urging the shoji in the opening direction between the window frame and the shoji that is swingably attached to the window frame. The urging mechanism is pressed by the wire winding device to maintain the closed window state. The opening of the smoke exhaust window is operated by operating a push button or other operation means provided on the wire winding device to release the lock mechanism (ratchet mechanism) of the pulley winding the wire. The window moved in the direction of the opening by is fully opened at a time by its own weight. At the same time, the wire wound around the pulley is rewound.
[0003]
The closing window is made by manually operating an operating means such as a wire winding lever connected to the pulley, and winding the wire around the pulley against the open shoji against its own weight and biasing mechanism. When the window is closed, the winding operation is stopped halfway, so that the half-open state of the window can be realized. However, in order to set the half-open state, an operation of closing the window after being fully opened is inconvenient.
[0004]
For this reason, conventionally, a half-opening device for use in ventilation or the like that can stop the smoke emission window in a half-open state with one touch has been proposed (Japanese Patent Publication No. 5-69952, Japanese Utility Model Publication No. 2-58935). The half-open mechanism is supported in the housing so as to be rotatable and displaceable in the axial direction, and has a screw shaft having a feed screw formed on the outer periphery, a nut screwed to the screw shaft, and movement of the nut. It consists of a half-open selection mechanism for selectively blocking and a transmission mechanism between the pulley and the screw shaft.
[0005]
[Problems to be solved by the invention]
However, in the conventional half-opening device for the opening / closing window, the half-opening selection mechanism that selects stopping the shoji at the half-open position directly contacts the nut and locks the nut. For this reason, the pulling force of the wire is directly applied to the half-open selection mechanism, and when operating from the half-open position to the full-open position, the operation force for releasing the half-open state (releasing the engagement between the nut and the half-open selection mechanism) is large. There was a problem.
[0006]
The object of the present invention is to allow the tension of the wire when the window is stopped at the half-open position to be engaged with the engagement between the nut and the locking portion provided in the housing, and to release the half-open state by operating the half-open operation mechanism. The opening / closing window half-opening device can reduce the operating force from half-opening to full-opening so that the engagement between the nut and the locking portion provided in the housing can be released by rotating the nut. In the present invention, the half-opening of the window means a predetermined opening between fully closed and fully opened.
[0007]
[Means for Solving the Problems]
The present invention includes a wire winding pulley, a wire winding operation mechanism of the pulley, a lock mechanism and an unlocking mechanism of the pulley, a wire winding device for winding and unwinding the wire, and one end thereof The wire connected to the shoji of the opening / closing window and the other end connected to the pulley and the wire winding device are juxtaposed to stop the unwinding of the wire halfway and stop the opening / closing window at a predetermined opening degree. In a window opening and closing device comprising a half-opening device for
The half-opening device includes a housing, a screw shaft supported in the housing so as to be rotatable and displaceable in the axial direction, a nut that is screwed into the screw shaft and moves in the axial direction by rotation of the screw shaft, and the pulley When the half-opening of the opening / closing window is selected, the movement of the nut is stopped halfway to stop the opening / closing window in the half-open state, and when the half-opening is not selected, It consists of a half-open selection mechanism that allows the opening and closing windows to fully open,
The half-open selection mechanism is a push button having an inclined surface that rotates the nut by a predetermined angle around an axis when the nut contacts, and a passage through which the nut passes, and the push button is opened and closed by an operation. When the half-opening of the window is selected, the inclined surface comes into contact with the nut and rotates the nut by the predetermined angle to change the posture of the nut so that the nut is attached to a locking portion provided in the housing. The nut is prevented from moving by being engaged, and when the half-opening of the opening / closing window is not selected, the nut passes through the passage .
[0008]
[Operation and effect of the invention]
The window opening and closing device of the present invention is provided on the inner wall of the housing, when the opening and closing window is stopped at the half-open position for ventilation or the like, when the nut hits the half-open selection mechanism when stopped at the half-open position, Lock to the locking part. For this reason, it can prevent that a load is applied to a half-open selection mechanism. In addition, the operation from the half-opening to the full-opening of the opening / closing window is performed by rotating the nut in the reverse direction by a predetermined angle by operating the half-opening selection mechanism, so that the nut and the engaging portion are disengaged and the nut passes through the half-opening selection mechanism The window can be fully opened. In this way, the half-open to full-open operation force can be a small operation force that rotates the nut.
[0010]
In the configuration of claim 2 , the passage of the push button is a groove having the inclined surface and an opposed groove surface facing the inclined surface, and the operation of fully opening the open / close window stopped halfway is The nut is reversely rotated by the predetermined angle by the facing groove surface to release the engagement between the nut and the locking portion. Thereby, the mechanism which cancels | releases the half-open state of an opening-and-closing window can be simplified.
[0011]
In the configuration according to claim 3 , the operation of fully opening the opening / closing window stopped at the half-open state is that the nut rotates backward by the predetermined angle in a moving direction for closing the opening / closing window by pushing the push button. The engagement between the nut and the locking portion is released. In this configuration, since the pushing direction of the push button is the direction of rotation of the screw shaft, that is, the opening side of the opening / closing window (energy releasing side), the pushing direction of the push button is the closing side of the opening / closing window (energy storage) The operation force is smaller than in the case of the side). Thereby, the pushing force of the push button can be further reduced.
[0012]
In the configuration according to claim 4 , the half-open selection mechanism includes a cylindrical push button, a shaft that is slidably disposed in the push button and pressed by a user, and a return spring that urges the shaft. With
The half-open selection mechanism includes a slit formed at the tip of the push button, a projection formed at the tip of the shaft and loosely fitted into the slit, and a rigid ball loosely fitted into the slit behind the projection. Has an operating force reduction mechanism,
When the shaft is not pressed, the operating force reduction mechanism is urged by the projection to push the hard sphere outward from the slit, and the push button protrudes to the outside by the protrusion of the hard sphere. pushing are prevented, by pushing the shaft, by the rigid spheres which biases is released by the protrusion fits into the slit, said push button is pushable being driven by the said shaft Features.
[0013]
This operation force reducing mechanism releases the engagement by rotating the nut engaged with the engaging portion by the additional operation of the push button (further push the push button) after the push operation to unlock the push button. .
In the above operation, the rotational force in the window opening direction is always applied to the nut by the gravity when the window is half open, so that the pushing operation force of the push button can be greatly reduced.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
1 and 2 show a window opening / closing device 100. As shown in FIG. 3, the wire Y, one end of which is connected to the shoji B of the smoke exhaust window A, is wound and unwound to open or close the window A. Have the effect of The window opening / closing device 100 includes a winding device 200 for winding and unwinding a wire, and a half-opening device 300 attached to the winding device 200 and stopping the shoji B at a set half-open position. Prepare.
[0015]
In this embodiment, the winding device 200 and the half-opening device 300 are installed in a box 101 whose front surface is open. The box 101 is embedded in a wall, and the front surface of the box 101 faces the room, and is closed by a decorative lid 102 shown in FIG.
[0016]
The winding device 200 is incorporated in a flat and slightly vertically long casing 1. The casing 1 includes a substrate 11 fastened to the bottom plate of the box 101 and a front lid 12 (see FIG. 2) fastened to the substrate 11. A pulley 2 for winding a wire is rotatably accommodated in a lower portion in the casing 1.
[0017]
A ratchet as a lock mechanism that allows the pulley 2 to rotate counterclockwise (the direction in which the smoke exhaust window A is closed) and restricts the clockwise rotation (the direction in which the smoke exhaust window A is opened) between the pulley 2 and the substrate 11. A mechanism 3 is provided. A hexagonal hole 22 is formed in the front portion of the shaft 21 of the pulley 2 and serves as a connecting portion of the wire take-up lever 13. As shown in FIG. 3, the hexagonal hole 22 is connected to a lever 13 serving as a closing window operating means disposed on the lower front surface of the front lid 12.
[0018]
The centrifugal brake C is provided at an intermediate portion in the casing 1, and the restriction on the counterclockwise rotation of the pulley 2 by the ratchet mechanism 3 is released at the upper portion of the casing 1 to open the smoke exhaust window A. A window button 31 is provided. The window opening button 31 and the lever 13 are exposed to the room from the corresponding window provided with the decorative cover 102.
[0019]
The smoke exhaust window A is normally closed, and the button 31 is pushed when opening the window. By this operation, the ratchet mechanism 3 is released via the link mechanism 32 and the pulley 2 can be freely rotated. The shoji B of the smoke exhaust window A is pushed away from the window frame E by a piston 33 as a window energizing mechanism and then fully opened at a time while rewinding the wire Y from the pulley 2 by its own weight. At this time, the centrifugal brake C is actuated to regulate the opening speed and reduce the impact when fully opened.
[0020]
When closing the smoke exhaust window A, the handle 14 at the tip of the lever 13 is grasped by hand, the lever 13 is rotated counterclockwise, and the wire Y is wound around the pulley 2. The shoji B is driven in the closing window direction against gravity and the drag force of the piston 33. When setting the window to a predetermined opening such as half-opened, the button 31 is pressed to fully open the window A, and then the lever 13 is rotated to stop at the desired opening.
[0021]
In order to half-open the window in this way, it takes time to manually close the window once fully opened to the half-open state. For this reason, a half-opening device 300 for half-opening the window A with one touch is attached. The half-opening device 300 is provided in a vertically elongated box-shaped housing 4 connected to the left side of the casing 1.
[0022]
The housing 4 is divided into two parts: a back box 41 fastened with screws to the left side of the substrate 11 of the casing 1 and a lid box 42 which is abutted against the back box 41 and fastened with screws. A screw shaft 5 in which a feed screw is formed is vertically arranged in the housing 4. The screw shaft 5 is supported by the upper end wall 43 and the lower end wall 44 of the housing 4 so as to be rotatable and displaceable in the axial direction.
[0023]
A cylindrical surface 45 of approximately 120 degrees along the screw shaft 5 is coaxially formed on the inner wall 4A of the back box 41 on the left side. On the inner wall 4 </ b> A on the right side of the screw shaft 5, a longitudinally long ridge 46 projects in parallel with the screw shaft 5 along the right edge of the cylindrical surface 45, and is located in the middle of the left side of the screw shaft 5. A locking step 47 in the string direction protrudes from the cylindrical surface 45. The back box 41 is formed with a recess 48 formed by cutting out a part of the ridge 46 on the inner wall 4A. A round hole 40 with a right semi-cylindrical side wall 49 is formed in the lid box 42, and the upper end of the right semi-cylindrical side wall 49 is connected to a locking dam 4 </ b> B provided on the inner surface of the lid box 42.
[0024]
The screw shaft 5 is formed with a short upper cylindrical surface portion 51 at the upper end and a slightly longer lower cylindrical surface portion 52 at the lower portion, and an intermediate portion is a feed screw portion 53, and the feed screw portion 53 and the lower cylindrical surface portion 52 are connected to each other. A screw gear 54 is provided between them. The upper cylindrical surface portion 51 and the lower end portion of the lower cylindrical surface portion 52 are axially formed in the upper end wall 43 and the lower end wall 44 of the housing through a resin bearing 55 and 56 and are rotatable several millimeters in the axial direction. It is supported to be movable.
[0025]
The screw shaft 5 is orthogonal to the shaft 21 of the pulley 2, and the nut 6 is screwed to the feed screw portion 53. The nut 6 engages with the top surface of the ridge 46 to prevent the nut 6 from rotating clockwise, and is hooked on the locking step 47 so as to face the rotation stop claw 61, A catching claw 62 for preventing upward movement is provided.
[0026]
The nut 6 is set so that the catching claw 62 is not caught by the locking step 47 at a position where the rotation stop claw 61 is engaged with the top surface of the ridge 46 and is prevented from rotating clockwise. At the position where the nut 6 is rotated counterclockwise by about 30 degrees from the position where the rotation stop claw 61 is engaged with the top surface of the ridge 46 and prevented from rotating clockwise, the catch claw 62 is caught by the locking step 47. In addition, the peripheral claw 61 is locked to the locking bank 4B, and the upward movement is prevented.
[0027]
The half-open selection mechanism 7 is attached to the right side of the screw shaft 5 at a position corresponding to the locking step 47. As shown in FIGS. 4 to 6, the half-open selection mechanism 7 is a resin-made 3/4 cylindrical outer cylinder 71 with a left side portion being a missing part 70, and is slidably inserted into the outer cylinder 71. A cylindrical push button 72 and a shaft 73 slidably disposed in the push button 72. A screw 7N with a fixing nut is coaxially screwed onto the shaft 73.
[0028]
A slit 74 is formed on the lower surface of the outer cylinder 71. On the outer periphery of the push button 72, a passage 76 is provided on the left side so as to allow the rotation stop claw 61 to pass from below to above, and a protruding portion 75 loosely fitted in the missing portion 70 of the outer cylinder 71 is formed. Yes. A holding arm 81 of the push-in position holding unit 8 is provided below the outer periphery of the push button 72 so as to protrude from the slit 74.
[0029]
The back side wall of the passage 76 is an inclined surface 77 inclined forward. A spring 79 is interposed between the lower end surface of the shaft 73 and the recess 48. The head of the push button 72 protrudes from the round hole 40 provided in the lid box 42 and is exposed from the decorative lid 102 to the room as shown in FIG.
[0030]
The rotation is transmitted between the pulley 2 and the screw shaft 5 by a transmission mechanism 20 including a gear train. The transmission mechanism 20 includes a gear 23 provided on the outer periphery of the pulley 2, a pinion 24 that is pivotally supported by the back box 41 and meshes with the gear 23, and a screw gear 25 that is connected to the pinion 24 and meshes with the screw gear 54. . A coil spring 57 as a damper that biases the screw shaft 5 upward is mounted between the screw gear 54 and the lower end wall 44 of the housing 4.
[0031]
As shown in FIGS. 4 to 7, the push-in position holding means 8 attaches the holding arm 81, a slide member 82 attached to the back surface of the lid box 42 so as to be able to reciprocate in the lateral direction, and the slide member 82 to the right. It consists of a spring 83 (shown in FIG. 7) that urges, and the anti-rotation claw 61 that acts as a release means for the pushing position holding means 8.
[0032]
As shown in FIG. 7, an operating force reduction mechanism 9 having an action of reducing the pressing operation force of the push button 72 is provided at the tip (back) end portion of the half-open selection mechanism 7. The operating force reduction mechanism 9 includes slits 91 and 91 formed at the top and bottom of the push button 72, projections 92 and 92 formed at the tip of the shaft 73 and loosely fitted into the slits 91 and 91, and above the projections 92 and 92. Are composed of hard spheres 93 and 93 interposed in slits 91 and 91, respectively.
[0033]
As shown in FIG. 7A, when the shaft 73 protrudes forward, the operating force reduction mechanism 9 is pushed by the projections 92, 92, and the rigid balls 93, 93 are pushed somewhat outward from the slits 91, 91. It is. For this reason, the push ball 72 is prevented from being pushed in by interfering with the upper edge wedge surfaces of the upper edge wedge surface stopper plates 94, 94 having the rigid balls 93, 93 fitted into the upper and lower edges of the recess 48. When the fixed nut-attached screw 7N attached to the shaft 73 is pushed in for a predetermined stroke (until the nut and the shaft 73 hit each other), first, as shown in FIG. 93 and 93 are accommodated in the slits 91 and 91. As a result, as shown in FIG. 7C, the hard balls 93 and 93 and the upper wedge surface of the stop plates 94 and 94 do not interfere with each other, and the push button 72 is pushed in by continuing to push the screw 7N with the fixing nut as it is. It becomes possible.
[0034]
When the smoke exhaust window A is fully opened from the half-open state, when the push button 72 is pushed in, the shaft 73 is pushed first and the rigid sphere 93 enters the slit 91. Subsequently, the push button 72 is pushed in, and the rotation stop claw 61 located in the passage 76 is pushed by the facing surface 78 which is the front side wall of the passage 76 and rotates clockwise by about 30 degrees. As a result, the nut 6 is released from the hooking of the catching claw 62 to the locking step 47 and the engagement of the anti-rotation claw 61 to the locking bank 4B, and the nut 6 can be moved upward.
[0035]
When the push button 72 is pushed into the position shown in FIG. 7C through the intermediate position shown in FIG. 7B from the position where the push button 72 shown in FIG. The slide member 82 slides to the right side by the spring force of the spring 83 disengaged by 81 and is sandwiched in front of the holding arm 81 to prevent the push button 72 from returning.
[0036]
The pushing position holding means 8 is released as follows. As shown in FIG. 6, the screw shaft 5 rotates counterclockwise in conjunction with the wire winding operation, and the nut 6 moves downward. At this time, the rotation stop claw 61 is engaged with the top surface of the ridge 46 by the rotation of the screw shaft 5 and is set to a position rotated about 110 degrees to the left from the position where the clockwise rotation is prevented. It is in contact with the back side.
[0037]
When the rotation stop claw 61 presses the inclined surface 84 provided on the left portion of the slide member 82, the slide member 82 slides to the left. As a result, the slide member 82 is disengaged from the holding arm 81 by the right end portion, and the holding arm 81 can be returned to the front. When the holding arm 81 can be returned to the front, the push button 72 is returned to the position before being pushed by the bias of the spring 79.
[0038]
When the push button 72 is pushed and the push button 72 is held at the push position by the push position holding means 8, the inclined surface 77 is set at a level corresponding to the ridge 46 with the lower end retracted on the back side and the upper end. As a result, the nut 6 can pass through the passage 76 while maintaining the posture in which the rotation stop claw 61 is in contact with the ridge 46, and the rotation stop claw 61 can pass behind the locking bank 4B. Movement to is free. In this state, when the button 31 is pressed, the nut 6 can be moved to the upper end of the screw shaft 5 by the clockwise rotation of the screw shaft 5, so that the window A is fully opened.
[0039]
The half-opening device 300 operates as follows. If the push button 72 is not pressed, the inclined surface 77 has the lower end at the same position as the ridge 46 and the upper end is set at a position in front of the ridge 46. When the button 31 is pressed in this state, the screw shaft 5 is rotationally driven through the transmission mechanism 20 by the rotation of the pulley 2, and the nut 6 moves upward to come into contact with the half-open selection mechanism 7. The nut 6 receives the rotational force by engaging with 77, and the nut 6 rotates counterclockwise by about 30 degrees.
[0040]
When the nut 6 is in this posture, the hooking claw 62 is hooked on the locking step 47 and the rotation locking claw 61 is locked to the locking bank 4B, so that the nut 6 is prevented from moving upward. As a result, a braking force is applied in the reverse direction (nut 6 → screw shaft 5 → transmission mechanism 20 → pulley 2), the wire unwinding (right) rotation of the pulley 2 is prevented, and the shoji B stops in a half-open state. When this braking is performed at a time, noise and vibration are generated due to the impact, and the member is fatigued due to excessive stress.
[0041]
In this invention, the coil spring 57 as a damper is compressed from the time when the rotation stop claw 61 contacts the locking step 47, and the screw shaft 5 moves downward to alleviate shock braking. Thereby, the impact at the time of the half-open stop of the shoji B reduces, and generation | occurrence | production of a noise and a vibration can be prevented.
[0042]
As the damper, in addition to the coil spring, other mechanisms having a buffering action such as a plate spring, a liquid spring combining a cylinder filled with liquid and a piston, and rubber can be used.
[Brief description of the drawings]
FIG. 1 is a front view of a window opening / closing apparatus with a casing and a housing lid removed.
FIG. 2 is a front view of the window opening / closing device with a casing and a lid of the housing.
FIG. 3 is a perspective view of a window opening / closing device.
FIG. 4 is a perspective view of a half-open selection mechanism of a half-open device.
FIG. 5 is a perspective view of a half-open selection mechanism of the half-open device.
FIG. 6 is a plan sectional view of a half-open selection mechanism of the half-open device.
FIG. 7 is a side sectional view of a half-open selection mechanism of the half-open device.
FIG. 8 is a cross-sectional view of a half-open selection mechanism of the half-open device.
FIG. 9 is a front view seen through the back surface of the lid box of the half-open device.
[Explanation of symbols]
1 Wire winding device casing 2 Pulley 3 Ratchet mechanism (locking mechanism)
4 Half-opening device housing 5 Screw shaft 6 Nut 7 Half-opening selection mechanism 8 Push-in position holding means
9 Operating force reduction mechanism 13 Lever (Wire winding operation mechanism)
20 Transmission mechanism 31 Window opening button (lock mechanism release mechanism)
47 Locking step (locking part)
57 Coil spring (damper)
72 push button
73 Shaft
76 passage
77 Inclined surface
78 Opposing surface (opposing groove surface)
79 Spring (Return spring)
91 slit
92 Protrusions
93 Hard ball 100 Window opening / closing device 200 Wire winding device 300 Half-opening device A Smoke exhaust window (opening / closing window)
B Shoji Y wire

Claims (4)

A wire take-up pulley, a wire take-up operation mechanism for the pulley, a wire take-up device for taking up and rewinding the wire, and an obstacle with an opening / closing window at one end And a half-opening device for stopping the rewinding of the wire halfway and stopping the opening / closing window at a predetermined opening, arranged in parallel with the wire winding device connected to the pulley and the other end connected to the pulley In the window opening and closing device provided with
The half-opening device includes a housing, a screw shaft supported in the housing so as to be rotatable and displaceable in the axial direction, a nut that is screwed into the screw shaft and moves in the axial direction by rotation of the screw shaft, and the pulley When the half-opening of the opening / closing window is selected, the movement of the nut is stopped halfway to stop the opening / closing window in the half-open state, and when the half-opening is not selected, It consists of a half-open selection mechanism that allows the opening and closing windows to fully open,
The half-open selection mechanism is a push button having an inclined surface that rotates the nut by a predetermined angle around an axis when the nut contacts, and a passage through which the nut passes, and the push button is opened and closed by an operation. When the half-opening of the window is selected, the inclined surface comes into contact with the nut and rotates the nut by the predetermined angle to change the posture of the nut so that the nut is attached to a locking portion provided in the housing. The window opening and closing device characterized in that the nut is prevented from moving by being engaged, and the nut passes through the passage when half opening of the opening and closing window is not selected . 2. The push button passage according to claim 1 , wherein the passage of the push button is a groove having the inclined surface and an opposed groove surface facing the inclined surface, and the operation of fully opening the opening / closing window stopped by half-opening is performed by the opposed groove surface. A window opening and closing device, wherein the nut is reversely rotated by the predetermined angle to release the engagement between the nut and the locking portion. 3. The operation of fully opening the opening / closing window stopped at the half-open state according to claim 2 , wherein the nut is rotated backward by the predetermined angle in a moving direction for closing the opening / closing window by pushing the push button. A window opening and closing device that releases engagement with a locking portion. In claim 3 , the half-open selection mechanism includes a cylindrical push button, a shaft that is slidably disposed in the push button and pressed by a user, and a return spring that biases the shaft.
The half-open selection mechanism includes a slit formed at the tip of the push button, a projection formed at the tip of the shaft and loosely fitted into the slit, and a rigid ball loosely fitted into the slit behind the projection. Has an operating force reduction mechanism,
When the shaft is not pressed, the operating force reduction mechanism is urged by the projection to push the hard sphere outward from the slit, and the push button protrudes to the outside by the protrusion of the hard sphere. pushing are prevented, by pushing the shaft, by the rigid spheres which biases is released by the protrusion fits into the slit, said push button is pushable being driven by the said shaft A window opening and closing device characterized.

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