JP6697189B2 - Switchgear for windows - Google Patents

Description

  INDUSTRIAL APPLICABILITY The present invention is applied to a swing-openable single-opening window, a vertical sliding window, a horizontal sliding window, a vertical rotating window, a horizontal rotating window, and the like, which can hold the window in the ventilation open position, and when necessary, The present invention relates to an opening / closing device for windows that can be fully opened or fixed in a fully closed position.

  Regarding this type of opening / closing device, the present applicant has previously proposed the ventilation stay according to Patent Document 1. There, a check arm that controls the opening amount of the window, a switching structure that is provided in the opening frame to switch the check arm between a standby position and an operating position, a switching knob on the indoor side that operates the switching structure, and an opening frame The ventilation stay is composed of a release knob and the like provided on the outdoor side. The switching structure includes a base fixed to the opening frame, a slider supported by the base so as to be slidable up and down, a switching knob and a release knob for switching the slider. When the switching knob is pushed up to switch to the operating position with the window closed, the connecting groove provided in the restraining arm engages with the latch pin fixed to the window. When the window is opened in this state, the check arm accompanies the window and swings to the outdoor side to hold the window in the ventilation position. To fully open the window, the switching knob is pushed down to switch to the standby position with the window closed, and the engagement state between the connecting groove of the check arm and the latch pin is released. In an emergency, by operating the release knob from the outdoor side, the engagement state between the connecting groove of the restraining arm and the latch pin can be released to fully open the window.

  A similar opening / closing device is also disclosed in the fitting according to Patent Document 2. There, a fitting is configured with a lock device for locking and unlocking the face material (window), a half-open device that regulates the opening angle of the face material, and an external opening device that opens the face material from the outdoor side in an emergency. .. The locking device is a gremone lock, and can be switched between a locked state and an unlocked state by rotating the operation handle of the half-open device. When the Glemon lock is unlocked, the engaged pin provided on the angle regulating arm of the half-open device engages with the guide groove of the receiving member provided on the opening frame. When the face member is opened in this state, the angle regulation arm moves along with the face member and swings to the outdoor side to hold the face member in the ventilation position. When the outdoor handle of the external release device is operated, the glemon lock is unlocked, and at the same time, the engagement between the engaged pin and the guide groove of the receiving member is released, so that the face material can be fully opened.

JP 2001-288949 A (paragraph number 0016, FIG. 3) Japanese Patent No. 5031706 (paragraph numbers 0013 to 0021, FIG. 5)

  According to the ventilation stay of Patent Document 1, by simply switching the switching knob or the release knob, the engagement state between the connecting groove of the check arm and the latch pin can be released, and the window can be fully opened. However, since the switching knob is always exposed to the indoor side of the opening frame, a part of the clothing is easily caught and the atmosphere in the room may be spoiled. Further, for the purpose of crime prevention, it is necessary to provide some kind of lock structure in addition to the opening adjustment device, so that it is inevitable that the entire structure of the window and the operation procedure become complicated.

  In this respect, according to the fitting of Patent Document 2, the Gremon lock can be unlocked by operating the operation handle or the outdoor handle, and at the same time, the engaged pin of the angle regulating arm is engaged with the guide groove of the receiving member. , The face material can be maintained in the ventilation position. However, since the large L-shaped operation handle always protrudes toward the indoor side of the face material, it is easy for a part of the clothing to be caught and the atmosphere in the room to be spoiled. In the case of a window having a large size, it is necessary to enlarge the operation handle and the outdoor handle to reduce the operation force of the handle, and the atmosphere in the room is easily damaged by the operation handle. In particular, in a building with a curtain wall structure, the surrounding structure of the window (face material) is simplified, giving a simple impression with no decoration or waste, but such an impression is impaired by the large operation handle. Will end up. There is also a disadvantage that the total number of components of the fitting is large and the overall cost increases.

An object of the present invention is to enable a switching operation of an opening degree adjusting device and a lock structure at the same time without using an operation handle protruding toward the room side, and therefore a slim and excellent design for a window that does not impair the atmosphere in the room. It is to provide a switchgear.
An object of the present invention is to provide an opening / closing device for a window, which can be operated to fully open the window by operating the handle on the outdoor side in an emergency to switch the lock structure and the opening adjustment device to the fully openable state. is there.

  An opening / closing device for a window according to the present invention is provided between a window 2 and an opening frame 1, and an opening amount adjusting device 4 for holding the window 2 in a ventilation open position and an opened window 2 are opened. It is provided with a lock structure 5 that locks the lock irreversibly, and an operation structure 6 that switches and operates the opening adjustment device 4 and the lock structure 5. As shown in FIG. 3, the operation structure 6 is housed in the main case 27 mounted on the window frame 2a, supported in the main case 27 so as to be capable of reversing and swinging, and has a first position and a second position. Between the second position and the third position, the switching lever 28 is slidably guided and supported by the main case 27 and is slidably guided and supported by the main case 27. The slider 29 is reciprocally slid by the switching lever 28. The opening adjustment device 4 and the lock structure 5 are connected to the slider 29 so as to be interlocked with each other. By reversing the switching lever 28 between the first position and the second position, the opening adjustment device 4 and the lock structure 5 can be switched between the closed locked state and the ventilable state. Further, by sliding the switching lever 28 between the second position and the third position, the opening adjustment device 4 and the lock structure 5 can be switched between the ventilation possible state and the fully openable state. .

  As shown in FIG. 1, a swing shaft 39 and a slide shaft 40 are arranged adjacent to each other at the swing base end of the switching lever 28, and the swing shaft 39 and the slide shaft 40 are supported by the shaft support portion 34 of the main case 27. There is. A guide groove 49 for slidingly guiding the swing shaft 39 and the slide shaft 40 and an arc groove 50 for branching and guiding the slide shaft 40 are formed in the shaft support 34 so as to branch from the middle portion of the guide groove 49. .. When the switching lever 28 is operated to the first position, the swing shaft 39 is located at one end of the guide groove 49, and the slide shaft 40 is received by the groove end of the arc groove 50. When the switching lever 28 is operated to the second position, the swing shaft 39 is located at one end of the guide groove 49, the slide shaft 40 is located in the middle of the guide groove 49, and faces the branch opening of the arc groove 50. I'm out. When the switching lever 28 is operated to the third position, the swing shaft 39 and the slide shaft 40 are located in the guide groove 49, and the slide shaft 40 is received by the other end of the guide groove 49.

  The main case 27 includes a mounting flange 31 that is fastened to the window frame 2 a, and a pair of lever accommodating portions 32 and 33 that are recessed in the mounting flange 31. When the switching lever 28 is switched to either the first position or the second position, the lever accommodating portions 32 and 33 on the side not accommodating the switching lever 28 also serve as an operation recess for opening and closing the window 2. ing.

  Seating walls 26a and 26b for receiving the switching lever 28 that has been switched between the first position and the second position are formed inside the lever housing portions 32 and 33 that house the switching lever 28. At the second position, a finger hook piece 38 for slidingly operating the switching lever 28 is provided on the surface of the switching lever 28 facing the outside of the main case 27. When the switching lever 28 is switched between the first position and the second position, the surface of the switching lever 28 is flush with the opening surface of the lever accommodating portions 32 and 33. When the switching lever 28 is slid to the third position, the guide groove 49 is tilted so that the surface of the switching lever 28 sinks into the lever accommodating portion 33.

  A shaft holding lever 51 is provided on the shaft support portion 34 for holding the swing shaft 39 in a position in which the swing shaft 39 is not slidable in a state where the switching lever 28 reversely swings between the first position and the second position. As shown in FIG. 10, the shaft holding lever 51 includes a shaft holding portion 54 that receives the swing shaft 39. The shaft holding lever 51 is provided between a slide blocking posture in which the swing shaft 39 located at one end of the guide groove 49 is received by the shaft holding portion 54 and a slide permission posture in which the shaft holding portion 54 retracts to the outside of the guide groove 49. It is displaceably supported and is urged by the regulating spring 52 toward the slide prevention posture. As shown in FIG. 11, while the slide shaft 40 moves from the circular arc groove 50 into the guide groove 49, the slide shaft 40 resists the biasing force of the restriction spring 52 and switches the shaft holding lever 51 to the slide permitting posture. To do.

  A first click mechanism 57 that holds the switching lever 28 in the first position, the second position, and the third position is provided between the facing surfaces of the shaft support portion 34 of the main case 27 and the switching lever 28. As shown in FIG. 13, the first click mechanism 57 includes a click recess 58.59.60 provided on one of the shaft support 34 and the switching lever 28 and a click recess 58.59.60 provided on the other side. The engaging body 61 is engaged and disengaged, and the click spring 62 is configured to bias the engaging body 61 toward the click recesses 58, 59 and 60.

  A safety structure 30 is provided between the mounting flange 31 of the main case 27 and the opposing surface of the slider 29 to prevent the switching lever 28 from being slid from the second position to the third position. As shown in FIGS. 9 and 14, the safety structure 30 includes a movable shaft body 65 that reciprocates along with the slider 29 and a second case 66 fixed to the inner surface of the mounting flange 31 so as to be displaceably supported. The tool 67 and an operating tool 68 for switching the switching tool 67 from outside the main case 27 are provided. The switching tool 67 includes a stopper 78 that blocks the sliding movement of the movable shaft 65, and the stopper 78 prevents the sliding movement of the movable shaft 65 from being in a safe posture and the stopper 78 slides along the trajectory of the movable shaft 65. It is possible to switch between safety release postures that retract to the outside. When the switching tool 67 is switched to the safety release posture by the operating tool 68, the switching lever 28 can be slid from the second position to the third position to fully open the window 2. The switching tool 67 can be switched to the safety release posture when the switching lever 28 is switched to the first position or the second position.

  The switching tool 67 includes a bottomed round tubular shaft portion 77 rotatably supported by the bearing boss 70 of the second case 66, and a stopper 78 provided so as to project from the peripheral edge of the bottom wall of the shaft portion 77 in the axial direction. And a positioning piece 79 that projects radially in a position where the bottom wall of the shaft portion 77 faces. A second click mechanism is provided between the bearing boss 70 and the shaft portion 77 to hold the switching tool 67 in the safety ensuring posture and the safety releasing posture. As shown in FIG. 15, the second click mechanism includes a flat surface 85 formed on the facing surface of the shaft portion 77 and an elastic wall 86 formed on the bearing boss 70 and holding the flat surface 85 in position. ..

  A sleeve wall 8 that is received by the opening frame 1 when the window 2 is closed is provided so as to project from the indoor surface of the window frame 2a (see FIG. 6). The sleeve wall 8 is integrally provided with a seal wall 8a that comes into close contact with the packing 9 attached to the opening frame 1 when the window 2 is closed, and a rib wall 8b that defines the frame guide groove 99. As shown in FIG. 13, a case structure except the mounting flange 31 of the main case 27 is fitted and mounted in the mounting portion 36 formed on the sleeve wall 8 and the rib wall 8b, and the periphery thereof is fixed to the window frame 2a. It is covered with a cover 47. A slide frame 97 that connects the slider 29 and the opening amount adjusting device 4 and the lock structure 5 is guided and supported by the frame guide groove 99 so as to be reciprocally slidable.

  As shown in FIG. 4 and FIG. 5, the check arm 15 of the opening adjustment device 4 engages and guides the connecting pin 11 when the window 2 is ventilated and opened, and the vicinity of the entrance and exit of the check groove 15. A pin groove 16 is formed so as to be branched into the. The pin groove 16 is engaged with the connecting pin 11 when the switching lever 28 is switched from the second position to the first position. The fixed metal fitting 19 of the lock structure 5 is formed with a receiving opening 23 that allows the movable metal fitting 20 to move in and out, and a locking groove 24 that engages with the movable metal fitting 20 when the switching lever 28 is switched to the first position. There is. The pin groove 16 and the locking groove 24 are inclined toward the indoor side (see FIG. 17), and the window 2 is made elastic by the packing 9 when the switching lever 28 is switched from the second position to the first position. The pulling operation can be performed against the opening frame 1 side.

  On the outdoor side of the opening frame 1, there is provided an emergency opening structure 7 for closing the opening amount adjusting device 4 and the lock structure 5 and switching from the locked state to the fully openable state. As shown in FIG. 20, the emergency opening structure 7 has a base frame 103 fixed to the opening frame 1, an emergency opening lever 104 pivotally supported by the base frame 103, and a reciprocating slide by the base frame 103. The slide frame 105 guided and supported by the slide frame 105, the interlocking link 106 connecting the emergency opening lever 104 and the slide frame 105, and the forced opening rod 107 fixed to the slide frame 105. A fixing metal piece 19 arranged on the side of the opening frame 1 and a bracket 108 supporting the arm pin 12 of the restraining arm 10 are fixed to the forced opening rod 107, respectively. By swinging the emergency opening lever 104 from the standby position to the forced opening position, the fixed fitting 19 is moved and separated from the movable fitting 20 by the forced opening rod 107, and at the same time, the bracket 108 and the restraint are held by the forced opening rod 107. The window 2 can be fully opened by moving the arm 10 to separate it from the connecting pin 11.

  In the window opening / closing device according to the present invention, both the opening adjustment device 4 and the lock structure 5 can be switched by the operation structure 6. The operation structure 6 includes a main case 27, a switching lever 28 housed in the main case 27, supported by the case 27 so as to be capable of reversing and swinging, and slidably guided and supported by the main case 27, and a switching lever 28. A slider 29 that is reciprocally slide-operated is provided. According to such an opening / closing device, by inverting the switching lever 28 between the first position and the second position, the opening adjustment device 4 and the lock structure 5 can be closed and switched to the ventilation state. .. Further, by sliding the switching lever 28 between the second position and the third position, the opening adjustment device 4 and the lock structure 5 can be switched between the ventilation possible state and the fully openable state.

  As described above, according to the operation structure 6 having the switching lever 28, which is operated to invert and swing or reciprocally slide, as the operation source, the switching lever 28 at each switching position does not project to the indoor side. Therefore, it is possible to prevent a part of the clothes from being caught on the switching lever 28, and also to prevent the atmosphere inside the room from being damaged by the switching lever 28, so that it is possible to provide a window opening / closing device that is slim and has excellent design. In particular, in a building with a curtain wall structure, the peripheral structure of the window 2 is simplified, giving a simple impression with no decoration or waste, but it is possible to provide a window opening / closing device that matches such an impression. Further, since the swing end when the switching lever 28 is reversely swung is the first position and the second position, and the slide end when the switching lever 28 is slid is the second position and the third position. There is no room for the switching lever 28 to be switched by mistake, and there is an advantage that the usability of the operating structure 6 can be improved.

  A swing shaft 39 and a slide shaft 40 are provided at the swing base end of the switching lever 28 so that these shafts 39 and 40 can slide back and forth along a guide groove 49 provided in the shaft support portion 34. Further, the slide shaft 40 can be rockably guided by the circular arc groove 50 formed in the middle of the guide groove 49. According to the operation structure 6 described above, when the switching lever 28 is inverted around the swing shaft 39, the slide shaft 40 is positively and reciprocally swung while guiding the slide shaft 40 in the arcuate groove 50 to move to the first position. Can be switched to the second position. Further, the swing shaft 39 and the slide shaft 40 can be reciprocally slid along the guide groove 49 to switch between the second position and the third position. Therefore, as compared with the conventional device using the L-shaped operation handle that is rotated as the operation source, the opening amount adjusting device 4 and the lock structure 5 can be switched quickly by the switching lever 28 and easily by one-touch operation. it can.

  According to the operation structure 6 described above, in the switching lever 28 in the first position, the swing shaft 39 is located at one end of the guide groove 49, and the slide shaft 40 is received by the groove end of the arc groove 50. , It can only be moved in the direction of the reversing operation toward the second position. Similarly, in the switching lever 28 in the second position, the swing shaft 39 is located at one end of the guide groove 49, and the slide shaft 40 is received in the middle of the guide groove 49, so that the switch lever 28 is inverted toward the first position. You can only move it in the direction you want to operate it. Further, in the switching lever 28 in the third position, the swing shaft 39 and the slide shaft 40 are located in the guide groove 49, and the slide shaft 40 is received by the other end of the guide groove 49. Can only be moved in the direction that slides back toward. Therefore, the erroneous operation of the switching lever 28 at each switching position can be eliminated, and the usability of the operating structure 6 can be improved.

  When the pair of lever accommodating portions 32 and 33 are formed in the main case 27 in a recessed manner, one of the lever accommodating portions 32 and 33 is operated when the switching lever 28 is switched between the first position and the second position. The switching lever 28 can be housed inside 33. In this way, when the switching lever 28 is housed in either one of the lever housing parts 32 and 33, the lever housing parts 32 and 33 on the side not housing the switching lever 28 are operated to open and close the window 2. Since it can also serve as the concave portion, the window 2 can be opened and closed properly in the ventilable state. Further, when the seat walls 26a and 26b are formed inside the lever accommodating portions 32 and 33, the switching lever 28 that has been switched between the first position and the second position is received by the seat walls 26a and 26b and switched. The lever 28 can be accommodated in the lever accommodating portions 32 and 33 in a constant posture at all times. Further, at the second position, since the finger hook piece 38 is provided on the surface of the switching lever 28 facing the outside of the main case 27, the finger tip is applied to the finger hook piece 38 to push and pull the switching lever 28. By doing so, the switching lever 28 can be reliably slid between the second position and the third position. The surface of the switching lever 28 in the first position and the second position is flush with the opening surface of the lever accommodating portions 32 and 33. Further, when the switching lever 28 is slid to the third position, the guide groove 49 is inclined such that the surface of the switching lever 28 sinks into the lever accommodating portion 33. According to such an operation structure 6, since the finger hook 38 can be pushed and pulled diagonally, compared with the case where the guide groove 49 is formed in parallel with the opening surface of the lever accommodating portions 32 and 33, the switching lever is provided. 28 can be appropriately slid between the second position and the third position.

  The shaft support 34 of the main case 27 is provided with a shaft holding lever 51 which is displaceably supported between the slide blocking posture and the slide permitting posture, and the regulating spring 52 urges the lever 51 toward the slide blocking posture. I did it. According to such an operation structure 6, the peripheral surface of the swing shaft 39 can be immovably received and held by the shaft holding portion 54 in a state where the switching lever 28 reversely swings between the first position and the second position. Therefore, the switching lever 28 can always be smoothly rotated in the stable state in the reverse swinging operation. Further, while the switching lever 28 is switched from the first position to the second position, the shaft holding lever 51 is switched to the slide permitting posture against the biasing force of the regulating spring 52 by the slide shaft 40. In this way, when the shaft holding lever 51 is switched to the slide permitting posture by the slide shaft 40 by utilizing the reversing swing motion of the switching lever 28, it is necessary to separately provide a structure for switching the shaft holding lever 51. Since it does not exist, the structure around the swing shaft 39 can be simplified accordingly. Further, the user does not need to be aware of the existence of the shaft holding lever 51, and only needs to perform the reverse swing operation of the switching lever 28, so that the usability of the operation structure 6 can be improved.

  A first click mechanism 57 that holds the switching lever 28 in the first position, the second position, and the third position is provided between the shaft support portion 34 and the switching lever 28. The first click mechanism 57 includes three click recesses 58, 59, 60, an engagement body 61 that engages and disengages with the click recesses 58, 59, 60, and a click spring 62 that biases the engagement body 61. I did it. According to such an operation structure 6, the switching lever 28 can be held in the first position, the second position, and the third position in a non-pivotable and non-sliding position, so that the switching lever 28 receives external vibration or shock and switches. Can be reliably prevented. Further, since it is possible to clearly determine that the switching lever 28 has been reliably switched by confirming the click feeling when the engaging body 61 falls into and engages with the respective click recesses 58, 59, 60, the switching lever 28 is It is possible to eliminate being left in an incompletely switched state.

  If the switching lever 28 is erroneously pushed from the second position to the third position in the ventilable state, the opening adjustment device 4 and the lock structure 5 are switched to the fully openable state, and the window 2 suddenly opens. There is a risk that it will be fully opened. In order to eliminate such a safety problem, a safety structure 30 is provided between the mounting flange 31 and the opposing surface of the slider 29 to prevent the switching lever 28 from being slid from the second position to the third position. There is. The safety structure 30 includes a movable shaft body 65 that moves together with the slider 29, a switching tool 67 that is displaceably supported by the second case 66, and an operating tool 68 that switches the switching tool 67 from outside the main case 27. Composed of. The switching tool 67 includes a stopper 78 that blocks the sliding movement of the movable shaft 65, and the stopper 78 prevents the sliding movement of the movable shaft 65 from being in a safe posture and the stopper 78 slides along the trajectory of the movable shaft 65. It is possible to perform switching operation between the safety release postures that retract to the outside. According to such an operating structure 6, the window 2 can be fully opened by sliding the switching lever 28 from the second position to the third position while the switching tool 67 is switched to the safety release posture by the operating tool 68. Therefore, it is possible to reliably prevent the window 2 from being accidentally opened completely and to improve the safety of the opening / closing device.

  The switching tool 67 includes a shaft portion 77, a stopper 78, and a positioning piece 79, and holds the switching tool 67 between the bearing boss 70 and the shaft portion 77 in the safety ensuring posture and the safety releasing posture. A second click mechanism is provided. The second click mechanism is composed of a flat surface 85 formed on the shaft portion 77 and an elastic wall 86 formed on the bearing boss 70. The switching tool 67, which has been switched to the safety ensuring posture or the safety releasing posture, is positioned by the positioning piece 79, and further, the elastic wall 86 is in close contact with the flat surface 85 and the position thereof is held in a state in which the rotation is restricted. Therefore, it is possible to reliably prevent the switching tool 67 from switching due to external vibration or shock. Further, after the shaft portion 77 has passed over the elastic wall 86 while elastically deforming it, by confirming the click feeling when the elastic wall 86 comes into close contact with the flat surface 85, it is clear that the switching tool 67 has been reliably switched. Therefore, it is possible to prevent the switching tool 67 from being left in an incomplete switching state.

  The window frame 2a of the window 2 is provided with a sleeve wall 8 including a seal wall 8a that is in close contact with the packing 9 and a rib wall 8b that defines the frame guide groove 99, and the mounting portion 36 formed on the sleeve wall 8 and the rib wall 8b. Then, the case structure except the mounting flange 31 of the main case 27 is fitted and mounted. Further, the periphery of the main case 27 is covered with a protective cover 47 fixed to the window frame 2a. Further, a slide frame 97 connecting the slider 29 and the opening adjusting device 4 and the lock structure 5 is guided and supported by a frame guide groove 99 so as to be reciprocally slidable. According to such an opening / closing device, when the window 2 is opened / closed between the ventilation possible position and the ventilation opening position, the operation structure 6 and the slide frame 97 can be prevented from being exposed to the outer surface of the sleeve wall 8. The appearance impression of can be simplified. In addition, since the slide frame 97 is reciprocally slidably guided and supported by the frame guide groove 99 of the sleeve wall 8, there is no need to separately provide a guide structure for the slide frame 97, which also has the advantage of simplifying the entire structure of the opening / closing device. is there.

  The pin groove 16 provided on the restraining arm 10 and the lock groove 24 provided on the fixture 19 are inclined toward the indoor side. According to such an operation structure 6, the window 2 can be pulled toward the opening frame 1 side against the elastic force of the packing 9 while the switching lever 28 is switched from the second position to the first position. In the closed and locked state, the window 2 can be brought into close contact with the packing 9 to surely exhibit the sealing function. Further, the switching lever 28 is swing-reversed to switch from the second position to the first position, but the switching lever 28 may be pushed against the elastic force of the packing 9 near the end of the reversing swing stroke. Since it is sufficient, the switching operation to the closed lock state can be performed easily and surely.

  The emergency opening structure 7 including the base frame 103, the emergency opening lever 104, the slide frame 105, the interlocking link 106, and the forced opening rod 107 is provided on the outdoor side of the opening frame 1. Further, the fixing fitting 19 arranged on the side of the opening frame 1 and the bracket 108 supporting the restraining arm 10 were fixed to the forced opening rod 107, respectively. The emergency opening structure 7 separates the fixed fitting 19 from the movable fitting 20 and simultaneously separates the bracket 108 and the restraining arm 10 from the connecting pin 11 when the emergency opening lever 104 is pivotally operated from the standby position to the forced opening position. Then, the window 2 can be fully opened from the outdoor side. As described above, according to the opening / closing device having the emergency opening structure 7, in an emergency such as a fire or an earthquake, a fire official or a rescue official who reaches the window 2 swings the emergency opening lever 104 to the forced opening position. By operating it, the window 2 can be fully opened from the outdoor side and fire extinguishing and rescue activities can be performed quickly. Further, since the fixing metal fitting 19 and the bracket 108 provided on the window frame 2a side are independently operated by the emergency opening structure 7 of a system different from the operating structure 6, the emergency opening structure 7 is configured to interlock with the operating structure 6. Compared to the case where the emergency opening structure 7 is provided, the structure of the emergency opening structure 7 can be simplified and the overall cost of the switchgear provided with the emergency opening structure 7 can be reduced.

It is a longitudinal section front view showing the operating structure in the opening and closing device for windows concerning the present invention. It is a front view which shows the example of application of the opening / closing apparatus for windows. It is a vertical front view of a switchgear in a fully openable state. It is a side view of the opening amount adjusting device in a fully openable state. It is a side view of the opening adjustment device in a ventilation possible state. It is a top view which shows the opening amount adjustment apparatus in a ventilation open position. It is the sectional view on the AA line in FIG. It is the BB sectional view taken on the line in FIG. It is an exploded front view showing the operating structure of a switchgear. It is a partially broken front view which shows the operation structure in a closed lock state. It is a partially broken front view showing an operating structure in a ventilable state. It is a partially broken front view showing an operating structure in a fully openable state. It is CC sectional view taken on the line in FIG. It is the DD sectional view taken on the line in FIG. It is the EE sectional view taken on the line in FIG. It is a vertical front view of the opening / closing device in a closed lock state. It is a side view of the opening adjustment device in a closed lock state. It is a vertical front view of a switchgear in a ventilation possible state. It is a side view which shows the operation structure of an opening / closing device, and an emergency opening structure. It is a side view of the emergency opening structure in a standby state and a forced opening state. It is a vertical front view equivalent to FIG. 1 which shows another Example of an operation structure.

(Embodiment) FIGS. 1 to 20 show an embodiment in which the window opening / closing device according to the present invention is applied to a window constituting a curtain wall. In FIG. 2, reference numeral 1 is an aluminum opening frame, 2 is a window, and the window 2 is supported by a hinge 3 fixed to the opening frame 1 so as to be swingable and openable. Between the window frame 2a on the swinging tip side of the window 2 and the opening frame 1, an opening amount adjusting device 4 for holding the window 2 in the ventilation open position, and a lock for locking the window 2 in the closed position in an unopenable manner. A structure 5 and an operation structure 6 for switching between the opening adjustment device 4 and the lock structure 5 are provided. Further, on the outdoor surface of the opening frame 1, an emergency opening structure 7 (see FIG. 19) for switching the opening amount adjusting device 4 and the lock structure 5 from the closed state to the fully openable state is provided. The opening adjustment device 4 and the lock structure 5 are switched by the operation structure 6, and are closed and locked (a state shown in FIGS. 16 and 17), a ventilation possible state (a state shown in FIGS. 5 and 18), and The state is switched to the fully openable state (state shown in FIG. 4). The details will be described later. On the indoor surface of the window frame 2a, a sleeve wall 8 that is received by the opening frame 1 when the window 2 is closed is provided in a protruding manner, and the operation structure 6 is incorporated in the sleeve wall 8. The sleeve wall 8 is integrally provided with a seal wall 8a that comes into close contact with the packing 9 attached to the opening frame 1 when the window 2 is closed, and a rib wall 8b that defines a frame guide groove 99 described later.

(Opening amount adjustment device)
In FIG. 3 and FIG. 4, the opening adjustment device 4 includes a check arm 10 arranged on the side of the opening frame 1, a connecting pin 11 arranged on the side of the window frame 2a, and a check arm 10 fixed to the bracket 108. An arm pin 12 that swingably supports the inside and the outside, and an arm spring 13 that biases the check arm 10 to swing indoors are included. A recess 14 for receiving the connecting pin 11 is bent and formed in a middle portion of the upper and lower sides of the check arm 10, and a check groove 15 for engaging and guiding the connecting pin 11 is formed on an arm wall below the recess 14. is there. In addition, a pin groove 16 is branched and formed in the vicinity of the entrance / exit of the check groove 15. As shown in FIG. 4, the check groove 15 includes an inverted J-shaped main groove 15a and an inlet / outlet groove 15b continuous to the upper end of the main groove 15a, and a pin groove 16 is formed below the inlet / outlet groove 15b. There is.

  As shown in FIGS. 3 and 4, when the window 2 is closed, the connecting pin 11 is located in the recess 14, and the connecting pin 11 in this state is lowered by the operating structure 6 to move the connecting pin 11 downward. 11 engages with the inlet / outlet groove 15b of the check groove 15 (see FIG. 5 and FIG. 8) to enable ventilation. When the window 2 is operated to open in this state, the connecting pin 11 enters the main groove 15a side and, while relatively moving with the groove 15a, the check arm 10 is oscillated along with the outdoor side to move the check arm at the ventilation open position. 10 holds the window 2 in an open and immovable position. FIG. 6 shows a state in which the window 2 is opened to the ventilation open position in this way. The restraining arm 10 in this state is slightly tilted by compressing and deforming the arm spring 13. When the window 2 is closed from the ventilation open position, the restraining arm 10 swings toward the indoor side along with the connecting pin 11, and when the window 2 is closed, the connecting pin 11 engages with the inlet / outlet groove 15b. Return to the state shown in. In the closed and locked state, the pin groove 16 is inclined downward toward the indoor side in order to pull the window 2 toward the opening frame 1 side against the elastic force of the packing 9.

(Lock structure)
3 to 5 and 7, the lock structure 5 includes a fixing metal fitting 19 arranged above and below the opening frame 1 and an engaging pin (movable metal fitting) arranged on the window frame 2a side and engaged with and disengaged from the fixing metal fitting 19. ) 20. The fixing member 19 is formed by bending a stainless plate material in a step shape, and integrally includes a connecting seat 21 and an engaging wall 22 (see FIG. 7). The engaging wall 22 is formed with a vertically long rectangular receiving opening 23 that allows the engaging pin 20 to come in and out, and a lock groove 24 is formed at a lower end corner portion thereof. Although only the upper lock structure 5 is shown in FIGS. 4 and 5, the lower lock structure 5 has the same structure. In the closed and locked state, in order to pull the window 2 toward the opening frame 1 side against the elastic force of the packing 9, the locking groove 24 is inclined downward toward the indoor side like the pin groove 16. ..

  As shown in FIG. 3, when the window 2 is closed, the engagement pin 20 is located in the receiving opening 23, and when the engagement pin 20 in this state is lowered by the operation structure 6, the engagement pin 20 is engaged. The pin 20 engages with the locking groove 24 to lock the window 2 so that it cannot be opened (see FIG. 16). This state is the closed lock state. When the engaging pin 20 is lifted by the operating structure 6 from the closed lock state, the engaging pin 20 separates from the locking groove 24 and returns into the receiving opening 23, so that the window 2 can be swung open. When the engagement pin 20 is engaged with the locking groove 24, the locking groove 24 is moved in order to pull the window 2 toward the opening frame 1 side against the elasticity of the packing 9 provided in the opening frame 1. It is inclined downward toward the inside. When the engaging pin 20 is engaged with the locking groove 24, the connecting pin 11 of the opening adjusting device 4 moves downward and engages with the pin groove 16 to move the upper and lower three portions of the window 2 to the opening frame 1 side. It can be pulled and operated. Further, by pushing the switching lever 28 against the elastic force of the packing 9 near the end of the reverse swing stroke of the switching lever 28, the switching operation to the closed lock state can be performed easily and surely. The lock structure 5 may be provided in the number of 1 to 3, depending on the difference in the vertical size of the window 2. When the window 2 has a large vertical size, the engaging pin 20 and the locking groove 24 are provided at four or more locations. Therefore, the engaging pin 20 is pulled in the locking groove 24 at four or more locations, The window 2 can be brought into close contact with the packing 9.

(Operation structure)
2 and 9, the operation structure 6 is operated by a vertically elongated main case 27 mounted on the window frame 2a, a switching lever 28 supported by the main case 27 so as to be capable of reversing and swinging, and a reciprocating sliding operation by the switching lever 28. And a safety structure 30 assembled on the inner surface of the upper part of the main case 27. The main case 27 includes a mounting flange 31 that is fastened to the window frame 2a, a pair of lever accommodating portions 32 and 33 that are formed in the upper and lower portions of the mounting flange 31, and a shaft provided between the lever accommodating portions 32 and 33. It is made of a die cast product integrally provided with the support portion 34, and its upper and lower ends are fixed to the window frame 2a with screws 35 (see FIG. 10).

  As shown in FIG. 13, in the operation structure 6, the case structure except the mounting flange 31 of the main case 27 is fitted and mounted in the mounting portion 36 formed by cutting the sleeve wall 8 and the rib wall 8b of the window frame 2a. The mounting flange 31 is fixed to the sleeve wall 8 with screws 35. In FIG. 13, reference numeral 47 is a protective cover that surrounds the main case 27 and the slider 29, and the protective cover 47 is fixed to the window frame 2a and the seal wall 8a with screws 48. As described above, when the case structure excluding the mounting flange 31 of the main case 27 is fitted and mounted in the mounting portion 36 and the periphery of the main case 27 is covered with the protective cover 47 fixed to the window frame 2a, the window 2 can be ventilated. To prevent the operation structure 6 and the slide frame 97 from being exposed to the outer surface of the sleeve wall 8 when opening and closing between the position and the ventilation opening position, and to make the appearance of the operation structure 6 simple. You can

  The switching lever 28 is a die-cast molded product whose lever cross section is tapered from the swing base end toward the swing tip, and the switch lever 28 is slid on the lever surface near the swing tip. A finger hook piece 38 for performing the operation is integrally provided. The switching lever 28 is pivotally supported by a swing shaft 39 provided on the pivotal support portion 34 of the main case 27 so as to be vertically reversible. Specifically, the reversing operation is performed between a first position in which the entire lever is accommodated in the upper lever accommodating portion 32 (a state shown in FIG. 10) and a second position in which the entire lever is accommodated in the lower lever accommodating portion 33. The switching lever 28 is pivotally supported by a swing shaft 39 so as to be able to perform. As shown in FIG. 11, when the switching lever 28 is switched to the second position, the finger hook piece 38 projects outside the main case 27. A slide shaft 40 is fixed to the lever end of the switching lever 28 on the swing base end side in addition to the swing shaft 39. When the switching lever 28 is in the first position, the opening adjustment device 4 and the lock structure 5 are switched to the closed and locked state. Seat walls 26a and 26b for receiving the switching lever 28 switched to the first position and the second position are formed in the lever accommodating portions 32 and 33 so as to bulge.

  The slider 29 is composed of a vertically long stainless steel frame having a U-shaped cross section. Vertically long slide grooves 41 are formed on the front and rear walls of the slider 29. A horizontal passive groove 42 is formed above the lower slide groove 41. Has been formed. Also, a vertically long slide groove 43 is formed in the bridge wall connecting the front and rear walls, the interlocking pins 44 are fixed above and below the groove 43, and a movable shaft body 65 described later is fixed to the inner surface of the upper end of the bridge wall. There is. By guiding the slide grooves 41 and 43 by the two guide pins 45 fixed to the main case 27 and the guide boss 46 fixed to the bottom wall of the main case 27 facing the bridge wall, the slider 29 is moved. The main case 27 is guided and supported so as to be vertically slidable. When the slider 29 is attached to the main case 27, the passive groove 42 is engaged with the slide shaft 40 (see FIG. 13). Therefore, the slider 29 can be slid up and down by reversing the switching lever 28 between the first position and the second position. In this way, the passive groove 42 and the slide shaft 40 convert the reversing swing motion of the switching lever 28 into a reciprocating slide motion while absorbing the pivotal motion of the slide shaft 40.

  The switching lever 28, which has been switched to the second position, is slide-guided by the main case 27 and can be slid from the second position to the third position. Therefore, the shaft support 34 of the main case 27 is formed with a guide groove 49 for slidingly guiding the swing shaft 39 and the slide shaft 40. Further, an arcuate groove 50 for swinging and guiding the slide shaft 40 is formed in the middle of the guide groove 49. The guide groove 49 is formed in a straight groove shape in a state of being inclined upward from the lower end to the upper end, and the circular arc groove 50 is formed in a semicircular groove shape. When the switching lever 28 is operated to the first position, the swing shaft 39 is located at the lower end (one end) of the guide groove 49 and the slide shaft 40 is located below the arc groove 50, as shown in FIG. Accepted by. When the switching lever 28 is switched to either the first position or the second position, the lever housing portion 32 or the lever housing portion 33 on the side not housing the switching lever 28 opens and closes the window 2. Function as an operating recess.

  When the switching lever 28 is operated to the second position, the swing shaft 39 is located at the lower end (one end) of the guide groove 49 and the slide shaft 40 is located in the middle of the guide groove 49 as shown in FIG. And faces the branch opening of the arc groove 50. When the switching lever 28 is inverted from the first position to the second position, the slide shaft 40 rotates counterclockwise around the guide groove 49 and pushes up the slider 29 via the passive groove 42. To do. The pushing stroke at this time is shown by S1 in FIG. When the switching lever 28 is switched to the second position, the opening adjustment device 4 and the lock structure 5 are switched to the ventilation possible state. As described above, when the switching lever 28 is switched between the first position and the second position, the surface of the switching lever 28 is flush with the opening surface of the lever accommodating portions 32 and 33.

  When the switching lever 28 is switched to the second position and a fingertip is applied to the finger hook 38 and the switching lever 28 is pushed, the swing shaft 39 and the slide shaft 40 slide along the guide groove 49. Switch to the third position. In this state, as shown in FIG. 12, the slide shaft 40 is received by the upper end (the other end) of the guide groove 49. When the switching lever 28 is slid from the second position to the third position, the slider 29 slides upward by the stroke S2 shown in FIG. When the switching lever 28 is switched to the third position, the opening adjustment device 4 and the lock structure 5 are switched to the fully openable state. When the switching lever 28 is slid to the third position, the surface of the switching lever 28 is sunk into the lower lever accommodating portion 33 (see FIG. 1C).

  As described above, the swing shaft 39 and the slide shaft 40 are slidably supported by the guide groove 49. Therefore, both the shafts 39 and 40 may move along the guide groove 49 at the first position and the second position. In order to restrict the free sliding movement of the swing shaft 39 and the slide shaft 40, a shaft holding lever 51 that holds the swing shaft 39 in a slidable position is provided on the shaft support portion 34, and the lever 51 controls the spring 52. The rocking force is applied. In FIG. 10, the shaft holding lever 51 is swingably supported by a lever pin 53 fixed to the shaft support portion 34, and the shaft holding portion 54 that receives the peripheral surface of the swing shaft 39 is obliquely supported at the swing tip thereof. Is formed. Further, the receiving wall 55 is bent from the swinging base end of one side edge of the shaft holding lever 51 to the swinging end. The regulating spring 52 is a torsion coil spring, and one of the spring arms is received by the mounting flange 31 and the other of the spring arms is received by the receiving wall 55 to rotate the shaft holding lever 51 counterclockwise in FIG. It urges to swing in the direction.

  The shaft holding lever 51 has a slide blocking posture (a state shown in FIG. 10) in which the swing shaft 39 positioned at the lower end (one end) of the guide groove 49 is received by the shaft holding portion 54 (state shown in FIG. 10), and the shaft holding portion 54 has the guide groove 49. It can be oscillated and displaced between the slide permitting postures (the state shown in FIG. 11) retracting to the outside, and the regulating springs 52 urge the slide preventing postures. The shaft holding lever 51 is switched to the slide permission posture by utilizing the operation of the slide shaft 40 moving from the circular arc groove 50 into the guide groove 49 when the switching lever 28 is inverted from the first position to the second position. Operated. At this time, the slide shaft 40 contacts the receiving wall 55 and swings the shaft holding lever 51 in the clockwise direction against the biasing force of the regulating spring 52.

(First click mechanism)
At each of the first position, the second position, and the third position, in order to hold the switching lever 28 in position, a first click mechanism 57 is provided between the shaft support portion 34 of the main case 27 and the facing surface of the switching lever 28. It is provided. As shown in FIG. 13, the first click mechanism 57 includes three click concave portions 58 to 60 provided on the switching lever 28 and a steel ball (which is provided on the shaft support portion 34 and disengages from one of the click concave portions 58 to 60 ( (Engagement body) 61 and a click spring 62 that biases the steel ball 61 toward the click recesses 58 to 60. When the switching lever 28 is in the first position, the steel ball 61 engages with the click recess 58, and when the lever 28 is in the second position, the steel ball 61 engages with the click recess 59. When 28 is in the third position, steel ball 61 engages click recess 60. The formation positions of the click recesses 58 to 60 are shown in FIG.

  As described above, according to the operation structure 6 in which the first click mechanism 57 is provided between the shaft support portion 34 and the switching lever 28, the switching lever 28 cannot be swung at the first position, the second position, and the third position, and Since the position can be held so as not to slide, it is possible to reliably prevent the switching lever 28 from switching due to external vibration or shock. Further, since it is possible to clearly determine that the switching lever 28 has been reliably switched by confirming the click feeling when the engaging body 61 falls into and engages with the respective click recesses 58, 59, 60, the switching lever 28 is It is possible to eliminate being left in an incompletely switched state.

(Safety structure)
As described above, when the switching lever 28 is switched to the second position, the opening adjustment device 4 and the lock structure 5 are switched to the ventilable state. However, if the switching lever 28 is erroneously pushed in while the ventilation is possible, the opening adjustment device 4 and the lock structure 5 are switched to the fully openable state, and the window 2 may suddenly be fully opened. Yes, there is a problem in ensuring safety. In order to solve such a safety problem, a safety structure 30 is provided between the mounting flange 31 of the main case 27 and the facing surface of the slider 29.

  9, 10, and 14, the safety structure 30 includes a movable shaft 65 that moves along with the slider 29, and a switching tool that is rotatably supported by a second case 66 fixed to the inner surface of the mounting flange 31. 67, an operation knob (operation tool) 68 for switching the switching tool 67 from outside the main case 27, and a guide frame 69 fixed to the second case 66. The movable shaft body 65 is a flat round shaft, and its side end is caulked and fixed to the bridge wall of the slider 29. The second case 66 is made of a vertically long quadrangular plastic molded product, and a bearing boss 70 is formed in the upper and lower center inside thereof, and a fastening boss 71 and a lower stopper 72 are formed above and below the inside of the case. As shown in FIG. 10, the second case 66 is assembled on the outer side of the upper part of the lever accommodating portion 32 on the upper side of the main case 27, the second case 66 and the main case 27 are fixed by the guide pins 45, and the main case 27 The second case 66 is integrated with the main case 27 by fastening the fastening boss 71 with the screw 74 screwed into the screw boss 73.

  The switching tool 67 includes a shaft portion 77 having a round tubular shape with a bottom that is rotatably supported by the bearing boss 70, and an upper stopper (stopper) that projects from the peripheral edge of the bottom wall of the shaft portion 77 in the axial direction. The die-cast molded product integrally includes 78 and a positioning piece 79 (see FIG. 14) that projects in the radial direction at a position where the bottom wall of the shaft portion 77 faces. A connecting hole 80 having an oval cross section is formed in the shaft 77. When the switching tool 67 is attached to the bearing boss 70, an oval operation hole 81 for inserting the operation knob 68 into the shaft 77 is provided on the wall surface of the mounting flange 31 that faces the inner surface of the tubular wall of the switching tool 67. Is open. When the switching tool 67 is rotated by the operation knob 68, the switching tool 67 has an upper stopper 78 for preventing the movable shaft 65 from sliding upward (a state shown in FIG. 11) and an upper stopper 78. Can be switched to a safety release posture (state shown in FIG. 12) in which the movable shaft 65 retreats out of the slide trajectory. The second case 66 is formed with four stepped portions 82 that receive the positioning piece 79 in each posture.

  As described above, according to the operating structure 6 including the safety structure 30, the switching lever 28 is moved from the second position to the second position when the switching tool 67 is switched to the safety release posture by the operating tool 68 in the second position. The window 2 can be fully opened by sliding it to the 3 position. Therefore, it is possible to reliably prevent the window 2 from being accidentally opened completely and to improve the safety of the opening / closing device. The switching tool 67 can be switched to the safety release posture even when the switching lever 28 is switched to the first position.

  A second click mechanism is provided between the bearing boss 70 and the shaft portion 77 in order to hold the switching tool 67 in the safety ensuring posture and the safety releasing posture. As shown in FIG. 15, the second click mechanism has a pair of upper and lower flat surfaces 85, which are formed on the opposed surfaces of the shaft portion 77 and the opposed surfaces of the bearing boss 70 and which hold the flat surface 85 in position. Of the elastic wall 86, and the arcuate peripheral surface of the shaft portion 77 rides over the elastic wall 86 while elastically deforming the elastic wall 86, so that the switching tool 67 can be held in each position. The switching lever 28 can be slid from the second position to the third position to fully open the window 2 only when the switching tool 67 is switched to the safety release posture by the operation knob 68.

  The operation knob 68 is formed by inserting and fixing an operation shaft 88 made of stainless steel into a knob body 87 made of a plastic molded product. The operation shaft 88 has an oval cross section similar to the operation hole 81, and a neck shaft 89 having a diameter smaller than the hole width of the operation hole 81 is formed at the base end thereof. An index 90 (see FIG. 12) that displays the switching position of the operation knob 68 is formed on the surface of the knob body 87. By visually observing the index 90, the operation knob 68 was switched to the safety release posture. You can clearly know that you are in a state. Since the operation shaft 88 in this state is orthogonal to the operation hole 81, it cannot be pulled out from the operation hole 81. As described above, since the operation knob 68 is used only when the window 2 is fully opened, the operation knob 68 is normally removed from the operation hole 81 with the switching tool 67 switched to the safety ensuring posture. The building manager keeps it in a designated place.

  The guide frame 69 is made of a stainless steel frame body having a U-shaped cross section, and is shallow to engage and hold the movable shaft body 65 at three positions above and below the bridge wall at the first position to the third position. The seat 93 is formed as a recess. The guide frame 69 is externally fitted and attached to the second case 66 and fixed by the guide pins 45, and further, the front and rear walls of the guide frame 69 are fixed by screws 94 screwed into the second case 66. At the front-rear center of the bridging wall, a vertically long slide groove 95 that allows the movable shaft body 65 to slide is formed in a state of dividing each seat 93.

  As described above, according to the safety structure 30 including the second click mechanism, the switching tool 67, which is switched to the safety ensuring position or the safety releasing position, can be held in the position while being restricted in rotation by the positioning piece 79. It is possible to reliably prevent the switching tool 67 from switching due to external vibration or shock. Also, by confirming the click feeling when the shaft portion 77 elastically deforms the elastic wall 86 and gets over it and comes into close contact with the flat surface 85, it is possible to clearly determine that the switching tool 67 has been reliably switched, It is possible to prevent the switching tool 67 from being left in an incompletely switched state.

  The opening adjustment device 4, the lock structure 5, and the operation structure 6 are operably connected to each other via an interlocking frame 96 and a slide frame 97 connected to the upper and lower sides of the interlocking frame 96. Specifically, as shown in FIG. 9, the connecting holes 98 provided in the interlocking frame 96 are engaged with the interlocking pins 44, and further, the slide frames 97 are fastened and fixed to the upper and lower ends of the interlocking frame 96 as shown in FIG. Then, the interlocking frame 96 and the slide frame 97 can be moved together with the slider 29. As shown in FIGS. 7 and 8, the slide frame 97 is made of an aluminum strip having a hat-shaped cross section with a small thickness, and its front and rear walls are slidably guided and supported by frame guide grooves 99. Seat plates 100 for fixing the connecting pin 11 of the opening adjusting device 4 and the engaging pin 20 of the lock structure 5 are fixed to upper and lower two positions of the upper slide frame 97. A seat plate 100 for fixing the engagement pin 20 of the lock structure 5 is fixed to the lower slide frame 97 near the lower end. As described above, according to the opening / closing device that guides and supports the slide frame 97 with the frame guide groove 99, it is not necessary to separately provide a guide structure for the slide frame 97, so that the entire structure of the opening / closing device can be simplified.

(Emergency open structure)
The emergency open structure 7 is shown in FIGS. 19 and 20. The emergency opening structure 7 includes a base frame 103 fixed to the outdoor surface of the opening frame 1, a spatula-shaped emergency opening lever 104 pivotally supported by the base frame 103, and a base frame 103 that slides vertically (reciprocates). A slide frame 105 that is slidably guided and supported, an interlocking link 106 that connects the emergency opening lever 104 and the slide frame 105 in an interlocking manner, and a forced opening rod 107 fixed to the slide frame 105. On the upper part of the forced opening frame 107, the connection seat 21 of the fixing metal fitting 19 that constitutes the lock structure 5 is fixed, and on the lower side of the fixing metal fitting 19, the bracket 108 that supports the arm pin 12 of the opening adjustment device 4 is fixed. is there. Further, the connection seat 21 of the fixing fitting 19 that constitutes the lock structure 5 is fixed to the lower portion of the forced opening frame 107. The base frame 103, the emergency release lever 104, the slide frame 105, the interlocking link 106, and the bracket 108 are each formed of a stainless plate material. The forced opening rod 107 is made of an aluminum strip, and is vertically slidably guided and supported by a vertical groove 109 provided in the opening frame 1, as shown in FIGS. 7 and 8.

  The base frame 103 includes a pair of upper and lower fastening seats 110 that are fastened and fixed to the opening frame 1 and a guide frame portion 111 that integrally connects the side ends of the fastening seat 110 to each other. A support shaft 112 fixed to the lower end of the 111 pivotally supports the lower end base of the emergency opening lever 104. A pair of upper and lower slide pins 113 are fixed to the slide frame 105. The slide frame 105 is guided and supported by a vertically long guide groove 114 formed in the guide frame portion 111, so that the slide frame 105 is guided by the guide frame portion 111. You can slide up and down along. One end of the interlocking link 106 is connected to the lower slide pin 113, and the other end of the link 106 is connected to the emergency opening lever 104 by a link pin 115.

  The emergency release lever 104 is provided with a grip 118 extending upward, and the grip 118 is swung between a standby position (state of FIG. 20 (a)) and a forced release position (state of FIG. 20 (b)). Can be operated. FIG. 20A shows a state in which the emergency opening lever 104 is at the standby position, and the opening amount adjusting device 4 and the lock structure 5 are switched by the operation structure 6 to be in the close lock state. When the emergency opening lever 104 is oscillated from the standby position to the forced opening position, the slide frame 105 slides down, and at the same time, the forced opening rod 107 accompanies the slide frame 105 and slides down. Therefore, the restraining arm 10 and the upper and lower fixing fittings 19 are moved downward, the connecting pin 11 is disengaged from the pin groove 16, and the engaging pin 20 is disengaged from the locking groove 24. Since the window 2 in this state is released from the restraint by the opening adjustment device 4 and the lock structure 5, the window 2 can be opened from the outdoor side.

  As described above, according to the switchgear equipped with the emergency opening structure 7, in an emergency such as a fire or an earthquake, a fire official or a rescue official who reaches the window 2 swings the emergency open lever 104 to the forced open position. By operating the window 2, the window 2 can be fully opened from the outdoor side, and fire extinguishing and rescue activities can be performed quickly. Further, since the fixing metal fitting 19 and the bracket 108 provided on the window frame 2a side are independently operated by the emergency opening structure 7 of a system different from the operating structure 6, the emergency opening structure 7 is configured to interlock with the operating structure 6. Compared to the case where the emergency opening structure 7 is provided, the structure of the emergency opening structure 7 can be simplified and the overall cost of the switchgear provided with the emergency opening structure 7 can be reduced.

(Main effects of switchgear)
In the opening / closing device for windows described above, the operating structure 6 switches between the opening adjustment device 4 for holding the window 2 in the ventilation open position and the lock structure 5 for locking the closed window 2 in the unopenable state. I made it possible to operate. The operation structure 6 is accommodated in the main case 27, the switching lever 28 supported in the main case 27 so as to be reversibly swingable, and further slidably supported, and is reciprocally slid by the switching lever 28. A slider 29 is provided. According to such an opening / closing device, by inverting the switching lever 28 between the first position and the second position, the opening adjustment device 4 and the lock structure 5 can be closed and switched to the ventilation state. .. Further, by sliding the switching lever 28 between the second position and the third position, the opening adjustment device 4 and the lock structure 5 can be switched between the ventilation possible state and the fully openable state.

  As described above, according to the operation structure 6 having the switching lever 28, which is operated to invert and swing or reciprocally slide, as the operation source, the switching lever 28 at each switching position does not project to the indoor side. Therefore, it is possible to prevent a part of the clothes from being caught on the switching lever 28, and also to prevent the atmosphere inside the room from being damaged by the switching lever 28, so that it is possible to provide a window opening / closing device that is slim and has excellent design. In particular, in a building with a curtain wall structure, the peripheral structure of the window 2 is simplified, giving a simple impression with no decoration or waste, but it is possible to provide a window opening / closing device that matches such an impression. Further, since the swing end when the switching lever 28 is reversely swung is the first position and the second position, and the slide end when the switching lever 28 is slid is the second position and the third position. There is no room for the switching lever 28 to be switched by mistake, and there is an advantage that the usability of the operating structure 6 can be improved.

  A swing shaft 39 and a slide shaft 40 are provided at the swing base end of the switching lever 28 so that these shafts 39 and 40 can slide back and forth along a guide groove 49 provided in the shaft support portion 34. Further, the slide shaft 40 can be rockably guided by the circular arc groove 50 formed in the middle of the guide groove 49. According to such an operation structure, when the switching lever 28 is inverted around the swing shaft 39, the slide shaft 40 is positively and reciprocally rocked while being guided by the arcuate groove 50 to move to the first position. It is possible to switch to the second position. Further, the swing shaft 39 and the slide shaft 40 can be reciprocally slid along the guide groove 49 to switch between the second position and the third position. Therefore, as compared with the conventional device using the L-shaped operation handle that is rotated as the operation source, the opening amount adjusting device 4 and the lock structure 5 can be switched quickly by the switching lever 28 and easily by one-touch operation. it can.

  Further, in the switching lever 28 in the first position, the swing shaft 39 is located at one end of the guide groove 49, and the slide shaft 40 is received by the groove end of the circular arc groove 50. You can only move it in the direction you want to. Similarly, in the switching lever 28 in the second position, the swing shaft 39 is located at one end of the guide groove 49, and the slide shaft 40 is received in the middle of the guide groove 49, so that the switch lever 28 is inverted toward the first position. You can only move it in the direction you want to operate it. Further, in the switching lever 28 in the third position, the swing shaft 39 and the slide shaft 40 are located in the guide groove 49, and the slide shaft 40 is received by the other end of the guide groove 49. Can only be moved in the direction that slides back toward. Therefore, the erroneous operation of the switching lever 28 at each switching position can be eliminated, and the usability of the operating structure 6 can be improved.

  Since the passive groove 42 that engages with the slide shaft 40 is formed in the pair of walls of the slider 29, and the reverse swing motion of the switching lever 28 is directly converted into the reciprocating slide motion by the slide shaft 40 and the passive groove 42, The structure of the operation structure 6 can be simplified as compared with the conventional device, and the cost of the operation structure 6 can be reduced. Incidentally, in the conventional device using the L-shaped operation handle as the operation source, the rotational movement of the operation handle has to be converted into the vertical movement by the motion conversion mechanism, which increases the cost.

  When the pair of lever accommodating portions 32 and 33 are formed in the main case 27 in a recessed manner, one of the lever accommodating portions 32 and 33 is operated when the switching lever 28 is switched between the first position and the second position. The switching lever 28 can be housed inside 33. In this way, when the switching lever 28 is housed in either one of the lever housing parts 32 and 33, the lever housing parts 32 and 33 on the side not housing the switching lever 28 are operated to open and close the window 2. Since it functions as a concave portion, the window 2 can be opened and closed properly in a ventilable state.

  If the seat walls 26a and 26b are formed inside the lever accommodating portions 32 and 33, the switching lever 28 that has been switched between the first position and the second position is received by the seat walls 26a and 26b, and the switching lever 28 is received. Can be accommodated in the lever accommodating portions 32 and 33 in a constant posture at all times. Further, at the second position, since the finger hook piece 38 is provided on the surface of the switching lever 28 on the side facing the outside of the main case 27, the finger tip is applied to the finger hook piece 38 to push and pull the switching lever 28. By doing so, the switching lever 28 can be reliably slid between the second position and the third position.

  The surface of the switching lever 28 at the first position and the second position is flush with the opening surface of the lever accommodating portions 32 and 33. Further, when the switching lever 28 is slid to the third position, the guide groove 49 is inclined such that the surface of the switching lever 28 sinks into the lever accommodating portion 33. According to such an operation structure 6, since the finger hook 38 can be pushed and pulled diagonally, compared with the case where the guide groove 49 is formed vertically, the switching lever 28 can be moved between the second position and the third position. The slide operation can be accurately performed between.

The shaft support 34 of the main case 27 is provided with a shaft holding lever 51 which is displaceably supported between the slide blocking posture and the slide permitting posture, and the regulating spring 52 urges the lever 51 toward the slide blocking posture. I did it. According to such an operation structure 6, the peripheral surface of the swing shaft 39 can be immovably received and held by the shaft holding portion 54 in a state where the switching lever 28 reversely swings between the first position and the second position. Therefore, the switching lever 28 can always be smoothly rotated in the stable state in the reverse swinging operation. Further, while the switching lever 28 is switched from the first position to the second position and the slide shaft 40 moves from the circular arc groove 50 into the guide groove 49, the shaft holding lever 51 causes the slide shaft 40 to attach the restriction spring 52. It has been made possible to switch to a slide permitting posture against the influence of power. As described above, when the shaft holding lever 51 is switched to the slide permitting posture by the slide shaft 40 by utilizing the reversing swing motion of the switching lever 28, it is necessary to separately provide a structure for switching the shaft holding lever 51. Since it does not exist, the structure around the swing shaft 39 can be simplified accordingly. In addition, the user does not need to be aware of the existence of the shaft holding lever 51, and the switching lever 28 only needs to be inverted and rocked, so that the usability of the operation structure 6 can be improved.

  FIG. 21 shows another embodiment in which a part of the operation structure 6 is changed. There, the swing shaft 39 of the switching lever 28 is formed to have an oval cross section, and the width of the guide groove 49 is set to be smaller than the diameter of the circular arc peripheral surface of the swing shaft 39. Further, in the state where the switching lever 28 is switched to the first position, the opposing flat surface of the swing shaft 39 having an oval cross section is not parallel to the groove wall of the guide groove 49. According to such a switching lever 28, the swing shaft 39 is restricted from moving along the guide groove 49 when the lever 28 is switched to the first position, so that the shaft holding lever 51, the restriction spring 52, and the lever pin. 53 can be omitted. Further, when the switching lever 28 is switched to the second position, the opposing flat surface of the swing shaft 39 is parallel to the groove wall of the guide groove 49, and the slide displacement can be performed toward the third position.

  In the above embodiment, the lever accommodating portions 32 and 33 are formed in the upper and lower portions of the main case 27, but this is not necessary, and the lever accommodating portions 32 and 33 can be omitted. In short, it suffices that the switching lever 28 is located within the outline of the main case 27 in the state where the switching lever 28 is switched between the first position and the second position. Further, a T-shaped or ball-shaped handle may be provided at the swinging tip of the switching lever 28. The opening / closing device of the present invention can be used in a state where the emergency opening structure 7 is omitted, and it is a single-sided window, a vertical sliding window, a horizontal sliding window, a vertical rotating window, a horizontal rotating window, a drake window, a tumbling window. It can be widely applied to

1 Opening frame 2 Window 4 Opening amount adjusting device 5 Locking structure 7 Emergency opening structure 10 Checking arm 11 Connecting pin 15 Checking groove 19 Fixing metal fitting 20 Engaging pin (movable metal fitting)
24 Lock Groove 27 Main Case 28 Switching Lever 29 Slider 30 Safety Structure 39 Swing Shaft 40 Slide Shaft 49 Guide Groove 50 Circular Groove

Claims (11)

An opening adjustment device (4) provided between the window (2) and the opening frame (1) for holding the window (2) at the ventilation open position, and the window (2) that has been closed cannot be opened. And a lock structure (5) for locking, and an operation structure (6) for switching between the opening adjustment device (4) and the lock structure (5).
The operation structure (6) is housed in the main case (27) mounted on the window frame (2a) and the main case (27), is supported by the case (27) so as to be capable of reversing and swinging, and is in the first position. A switching lever (28) that is flipped between the second position and the second position, is slidably guided and supported by the main case (27), and is reciprocally slid between the second position and the third position; A slider (29) slidably guided and supported by (27) and reciprocally slid by a switching lever (28);
The opening adjustment device (4) and the lock structure (5) are connected to the slider (29) in an interlockable manner,
By reversing the switching lever (28) between the first position and the second position, the opening adjustment device (4) and the lock structure (5) can be closed and switched to the locked state and the ventilation possible state.
By sliding the switching lever (28) between the second position and the third position, the opening adjustment device (4) and the lock structure (5) can be switched between the ventilable state and the fully openable state. An opening and closing device for windows characterized by. The swing shaft (39) and the slide shaft (40) are arranged adjacent to each other at the swing base end of the switching lever (28), and the swing shaft (39) and the slide shaft (40) are the shaft supporting portions of the main case (27). Supported by (34),
A guide groove (49) that slides and guides the swing shaft (39) and the slide shaft (40) is formed in the shaft support portion (34), and a slide shaft (40) is branched from a midway portion of the guide groove (49). An arc groove (50) for rocking guide is formed,
When the switching lever (28) is operated to the first position, the swing shaft (39) is located at one end of the guide groove (49), and the slide shaft (40) is received at the groove end of the arc groove (50). Has been
When the switching lever (28) is operated to the second position, the swing shaft (39) is located at one end of the guide groove (49) and the slide shaft (40) is located in the middle of the guide groove (49). Facing the branch of the arc groove (50),
When the switching lever (28) is operated to the third position, the swing shaft (39) and the slide shaft (40) are located in the guide groove (49), and the slide shaft (40) is in the guide groove (49). ) The opening / closing device for windows according to claim 1, which is received at the other end. The main case (27) includes a mounting flange (31) that is fastened to the window frame (2a) and a pair of lever accommodating portions (32, 33) that are recessed in the mounting flange (31).
In the state where the switching lever (28) is switched to either the first position or the second position, the lever housing portion (32, 33) on the side not housing the switching lever (28) has the window (2). The opening / closing device for a window according to claim 1 or 2, which also serves as an operating recess for opening and closing. Seat walls (26a, 26b) for receiving the switching lever (28) that has been switched between the first position and the second position are formed inside the lever housing portion (32, 33) that houses the switching lever (28). Cage,
In the second position, a finger hook piece (38) for slidingly operating the switching lever (28) is provided on the surface of the switching lever (28) facing the outside of the main case (27) so as to project.
In the state where the switching lever (28) is switched between the first position and the second position, the surface of the switching lever (28) is flush with the opening surface of the lever accommodating portion (32, 33),
The guide groove (49) is inclined such that the surface of the switching lever (28) is sunk into the lever accommodating portion (33) when the switching lever (28) is slid to the third position. An opening / closing device for a window according to item 3. In the state where the switching lever (28) reverses and swings between the first position and the second position, a shaft holding lever (51) for holding the swing shaft (39) in a slidable position is provided on the shaft support (34). Is provided,
The shaft holding lever (51) includes a shaft holding portion (54) for receiving the swing shaft (39),
The shaft holding lever (51) has a slide blocking posture in which the shaft holding portion (54) receives the swing shaft (39) located at one end of the guide groove (49), and the shaft holding portion (54) has the guide groove (49). ) Is supported so as to be displaceable between the slide permitting postures retracted to the outside, and is biased toward the slide preventing postures by the regulation spring (52),
While the slide shaft (40) moves from the circular arc groove (50) into the guide groove (49), the slide shaft (40) slides the shaft holding lever (51) against the biasing force of the restriction spring (52). The opening / closing device for windows according to any one of claims 2 to 4, which is switched to a permitted posture. A first click mechanism (57) for holding the switching lever (28) in the first position, the second position and the third position between the facing surfaces of the shaft support (34) of the main case (27) and the switching lever (28). ) Is provided,
The first click mechanism (57) has a click recess (58, 59, 60) provided on one of the shaft support (34) and the switching lever (28), and a click recess (58, 59. The engagement body (61) engaging with and disengaging from the 60) and the click spring (62) urging the engagement body (61) toward the click recess (58, 59, 60). An opening / closing device for a window according to any one of 5. A safety structure (30) for preventing the switching lever (28) from being slid from the second position to the third position between the mounting flange (31) of the main case (27) and the facing surface of the slider (29). Is provided,
The safety structure (30) is a displaceably supported switch between a movable shaft (65) that reciprocates along with a slider (29) and a second case (66) fixed to the inner surface of a mounting flange (31). A tool (67) and an operating tool (68) for switching the switching tool (67) from outside the main case (27);
The switching tool (67) includes a stopper (78) that prevents the movable shaft body (65) from sliding, and the stopper (78) prevents the movable shaft body (65) from sliding. The stopper (78) can be switched between safety releasing postures in which the stopper (78) retracts to the outside of the slide locus of the movable shaft (65),
The window (2) can be fully opened by sliding the switching lever (28) from the second position to the third position while the switching tool (67) is switched to the safety release posture by the operating tool (68). A switchgear for windows according to item 3 or 4. The switching tool (67) is provided from a bottomed round tubular shaft portion (77) that is rotatably supported by the bearing boss (70) of the second case (66), and from the periphery of the bottom wall of the shaft portion (77). It is provided with a stopper (78) protruding in the axial direction and a positioning piece (79) protruding in the radial direction at a position where the bottom wall of the shaft portion (77) faces each other.
A second click mechanism is provided between the bearing boss (70) and the shaft portion (77) for holding the switching tool (67) in the safety ensuring posture and the safety releasing posture.
The second click mechanism includes a flat surface (85) formed on the facing surface of the shaft portion (77) and an elastic wall (86) formed on the bearing boss (70) to hold the flat surface (85) in position. The opening / closing device for windows according to claim 7. A sleeve wall (8), which is received by the opening frame (1) when the window (2) is closed, is provided so as to project on the indoor surface of the window frame (2a).
The sleeve wall (8) includes a seal wall (8a) that comes into close contact with the packing (9) attached to the opening frame (1) when the window (2) is closed, and a rib wall (that defines the frame guide groove (99). 8b) is integrally provided,
A case structure excluding the mounting flange (31) of the main case (27) is fitted and mounted in the mounting portion (36) formed on the sleeve wall (8) and the rib wall (8b), and the periphery thereof is fitted into the window frame (2a). ) Is covered with a protective cover (47) fixed to
9. A slide frame (97) connecting the slider (29) with the opening adjustment device (4) and the lock structure (5) is guided and supported by the frame guide groove (99) so as to be reciprocally slidable. A switchgear for a window according to any one of 1. The restraining arm (10) of the opening adjustment device (4) engages and guides the connecting pin (11) when the window (2) is ventilated and the restraining groove (15) and the entrance and exit of the restraining groove (15). Has a pin groove (16) formed in the vicinity of
The pin groove (16) is engaged with the connecting pin (11) when the switching lever (28) is switched from the second position to the first position,
The movable fitting (20) in the state where the receiving opening (23) for allowing the movable fitting (20) to enter and exit the fixing fitting (19) of the lock structure (5) and the switching lever (28) are switched to the first position. A locking groove (24) for engaging with
The pin groove (16) and the locking groove (24) are inclined toward the indoor side, and when the switching lever (28) is switched from the second position to the first position, the window (2) is packed (9). The opening / closing device for windows according to claim 9, which can be pulled toward the side of the opening frame (1) against the elastic force of (1). On the outdoor side of the opening frame (1), an emergency opening structure (7) for closing the opening adjustment device (4) and the lock structure (5) and switching from the locked state to the fully openable state is provided,
The emergency opening structure (7) includes a base frame (103) fixed to the opening frame (1), an emergency opening lever (104) pivotally supported by the base frame (103), and a base frame (103). ), A slide frame (105) that is slidably guided in a reciprocating manner, an interlocking link (106) that connects the emergency release lever (104) and the slide frame (105), and a forced release that is fixed to the slide frame (105). Equipped with a rod (107),
A fixing metal fitting (19) arranged on the side of the opening frame (1) and a bracket (108) supporting the arm pin (12) of the restraining arm (10) are fixed to the forced opening rod (107), respectively.
By swinging the emergency opening lever (104) from the standby position to the forced opening position, the fixed fitting (19) is moved and separated from the movable fitting (20) by the forced opening rod (107), and at the same time, forced The window (2) can be fully opened by moving the bracket (108) and the restraining arm (10) by an opening rod (107) to separate them from the connecting pin (11). Switchgear for windows as described.

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