JP4220634B2 - Stay for window ventilation - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is capable of opening and restricting a window at a ventilation position by a check arm pivotally supported by an opening frame, and when necessary, can release the opening restriction action by the check arm and directly open the window from a closed state to a fully open position. About the stay.
[0002]
[Prior art]
This type of stay is known from Japanese Utility Model Publication No. 55-14700. There, the upper end of the check arm is pivotally supported on the window side, and a slide pin provided at the lower end of the check arm is guided and supported by a guide frame provided on the opening frame so as to be slidable up and down. Inside the guide frame is a lock lever that is oscillated and urged by a spring. When the window is opened from the closed position to the ventilation position, the lock lever automatically engages and captures the head of the slide pin. The window is locked so that it cannot be opened and closed. In order to unlock this lock lever, a release knob is provided on the guide frame. After releasing the lock lever by laterally sliding the release knob and further sliding the slide pin upward, the pin head can be extracted from the guide frame and the window can be fully opened.
[0003]
[Problems to be solved by the invention]
The stay can lock and hold the check arm so that it cannot slide with the lock lever by simply opening the window from the closed position to the ventilation position. When fully opening the window, the lock lever is unlocked and the slide pin is slid upward, and then the pin head is removed from the guide groove. In other words, the slide pin of the check arm can be extracted from the guide frame by opening the window beyond the ventilation position. In such stays, the lock lever can be unlocked in the ventilated open position, so when the child operates the lock lever with mischief, it is inevitable that the window will move in the opening direction. There is a risk of an accident.
[0004]
When closing a window that has been fully opened, the slide pin of the check arm must be engaged and connected to the guide frame in the vicinity of the ventilation position, which is problematic in terms of safety. Further, since the movement of the check arm is limited to the posture change in the vertical plane, it is difficult to apply it to, for example, a commonly used swing window.
[0005]
The purpose of the present invention is to prevent the window from being inadvertently opened beyond the ventilation position so that the infant can be prevented from falling down, and when necessary, it can be opened by the control arm only by switching the knob. An object of the present invention is to provide a stay for window ventilation in which the restriction action is released and the window can be easily fully opened. Another object of the present invention is to provide a window ventilation stay that can release the connected state of the check arm and the guide frame only when the window is fully closed, or can perform switching operation so that the window cannot be released. Still another object of the present invention is to provide a window ventilation stay that is provided with a lock that prevents the shutter from sliding open and cannot be fully opened unless the lock is unlocked.
[0006]
The object of the present invention is to provide a lock that prevents sliding displacement of the shutter when the window is fully opened, and can prevent the shutter from being closed and slid by mischief or the like when fully opened. An object of the present invention is to provide a stay for window ventilation that can prevent the check arm from colliding with the lid wall and being broken when the window is closed. Another object of the present invention is to provide a lock capable of preventing the sliding of the shutter at each of the position where the lid wall opens and closes the doorway, and prevents the shutter from being slid by mischief or the like. It is to provide a stay for window ventilation.
[0007]
Another object of the present invention is to simply close the window and operate the shutter even when the shutter is operated to the side of opening the doorway by mischief or the like in a state where the window is opened to the ventilation position. It is an object of the present invention to provide a window ventilation stay that can forcibly return the door to the original closed position, and thus can reliably prevent unauthorized opening of the window from the outside and falling of an infant due to mischief. Another object of the present invention is to provide a stay for window ventilation that can use a movement of a check arm to return a shutter that has been opened to a closed position and has a simple structure and low manufacturing costs. It is in.
[0008]
[Means for Solving the Problems]
The stay for window ventilation of the present invention includes a guide frame 6 fixed to the opening frame 1 and a check arm 5 whose one end is swingably supported by the window 2. A slide pin 13 provided at the swinging tip of the check arm 5 is provided on the guide frame 6. Run up and down The guide groove 12 engages and reciprocates freely. The guide frame 6 has an inlet / outlet 14 for allowing the slide pin 13 to enter and exit when the window 2 is closed. On the bottom side Closed end ~ side Open continuously. The guide frame 6 is provided with a shutter 7 that is guided and supported by the guide frame 6 so as to be slidable back and forth, and that opens and closes the entrance 14 and a knob 9 that slides the shutter 7. Therefore Slide the knob 9 A state in which the lid wall 15 provided on the shutter 7 opens the entrance 14 When it becomes Only the slide pin 13 allows the entrance / exit 14 to enter / exit.
[0009]
Specifically, a shutter lock 30 that faces the slide area of the shutter 7 and prevents the shutter 7 from being slid open is provided. The shutter lock 30 is provided so that the posture can be changed between a lock posture for receiving the shutter 7 and a lock release posture for allowing the shutter to open and slide, and is normally held in the unlock posture. In the ventilation open state, the slide pin 13 circumscribes the shutter lock 30 so that the shutter lock 30 is held in the locked posture.
[0010]
The shutter 7 is provided with a second lock 45 that engages with the guide frame 6 and prevents the shutter 7 from reciprocatingly sliding. The second lock 45 is supported by the shutter 7 so as to be displaceable between a locked posture that engages with the guide frame 6 and an unlocked posture that releases the engagement with the guide frame 6, and is biased to the locked posture by the spring 48. To do. The second lock 45 engages with the guide frame 6 at each of the position where the lid wall 15 of the shutter 7 opens the entrance 14 and the position where the entrance 14 closes to prevent the slide displacement of the shutter 7. Therefore, the second lock 45 is unlocked by the slide pin 13 against the urging force of the spring 48 only when the slide pin 13 engaged with the guide groove 12 faces the doorway 14 and is closed. Constitute.
[0011]
An arm pin 4 that pivotally supports the check arm 5 is fixed to the base 3 attached to the window 2. The check arm 5 is connected to the arm pin 4 so as to be tiltable. Further, the spring 21 disposed between the two 4 and 5 is urged to move in a direction to contact the base 3 and return to the closed position.
[0012]
Of the guide groove 12 On the top side In the vicinity of the ventilation end side, a lock body 8 having an engaging claw 23 that can be elastically deformed is provided. Thus, the slide pin 13 is engaged and captured by the lock body 8 in a state where the window 2 is opened to the ventilation position.
[0013]
A lock 35 is provided between the guide frame 6 and the shutter 7 so as to be relatively engaged to prevent the shutter 7 from sliding open. The lock 35 is provided so that it can be switched between a locked state and an unlocked state by a detachable key 39 only when the cover wall 15 of the shutter 7 closes the doorway 14.
[0014]
A lock 35 is provided between the guide frame 6 and the shutter 7 so as to be relatively engaged to prevent the shutter 7 from sliding open. The lock 35 can be switched between a locked state and an unlocked state with a detachable key 39 at each of the position where the lid wall 15 of the shutter 7 opens the entrance 14 and the position where the lid wall 15 closes the entrance 14. Provided. The shutter lock 30 is formed integrally with the lock body 8.
[0015]
A claw piece 52 is provided at the swinging tip of the check arm 5 in contact with and engaged with the knob 9 to return and slide the opened shutter 7 to the closed position. Thus, the shutter 7 that has been opened when ventilation is released is slid back to the closed position via the knob 9 with the claw piece 52 in conjunction with the closing operation of the window 2.
[0016]
A passive piece 54 is disposed on the inner surface of the shutter 7 facing the transition locus of the slide pin 13. The passive piece 54 is guided and supported by the shutter 7 so as to be able to reciprocate between a passive position that crosses the transition locus of the slide pin 13 and a standby position that retreats outside the transition locus of the slide pin 13. A switching mechanism 57 having reversibility is provided between the guide frame 6 and the passive piece 54 to operate the displacement of the passive piece 54 to the passive position in conjunction with the open slide displacement of the shutter 7. Thus, the shutter 7 that has been opened when ventilation is opened is slid back to the closed position via the passive piece 54 with the slide pin 13 in conjunction with the closing operation of the window 2.
[0017]
The switching mechanism 57 includes a switching groove 58 provided in the guide frame 6 along the moving direction of the slide pin 13 and a switching pin 59 that is mounted on the passive piece 54 and is operated to be displaced by the switching groove 58. The passive piece 54 is urged to move toward the standby position by a spring 56.
[0018]
A passive piece 61 that comes into contact with the check arm 5 or the slide pin 13 is provided on the inner surface of the shutter 7 facing the transition locus of the check arm 5. The shutter 7 that has been opened when the ventilation is released is slid back to the closed position via the passive piece 61 by the check arm 5 that slides and moves in conjunction with the closing operation of the window 2.
[0019]
The above passive piece 61 is the shutter 7 Near the bottom Provide. Accordingly, the passive piece 61 is slid back to the closed position side by the check arm 5 near the stroke end of the check arm 5 when the window 2 is closed.
[0020]
On the inner surface of the lid wall 15 of the shutter 7, a passive piece 61 that is returned and slid by the sland pin 13 is provided integrally with the lid wall 15. A recess 65 for receiving the slide pin 13 is provided on the inner edge of the guide groove 12 facing the doorway 14. Therefore, the engagement amount between the slide pin 13 and the passive piece 61 in the state in which the window 2 is closed is set to be smaller than the engagement amount between the both 13 and 61 at the time of the accompanying slide.
[0021]
[Operation and effect of the invention]
When the window 2 is closed, the slide pin 13 provided on the check arm 5 is located at the closed end of the guide groove 12 and faces the doorway 14. At this time, depending on whether the lid wall 15 of the shutter 7 closes or opens the entrance 14, a difference occurs in the behavior of the check arm 5 when the window 2 is opened. When the doorway 14 is opened, the slide pin 13 accompanies the window 2 and the check arm 5 and goes out of the guide frame 6. Accordingly, the window 2 can be fully opened. When the doorway 14 is closed by the lid wall 15, the slide pin 13 is received by the lid wall 15. Therefore, when the window 2 is opened, the slide pin 13 is slid along the guide groove 12, and at the groove end. It is accepted. Accordingly, the window 2 is held at the ventilation opening position by the check arm 5.
[0022]
As described above, in the present invention, even if the shutter 7 is tampered with when the window 2 is ventilated and opened, the window 2 cannot be opened any more, so it is possible to prevent an accidental fall of an infant due to tampering. it can. Since the window 2 can be fully opened or ventilated simply by sliding the shutter 7 to open / close the entrance / exit 14, it is possible to save time and effort when changing the opening amount of the window 2 compared to the conventional type of stay. be able to.
[0023]
The shutter lock 30 is provided so that it can be changed between a locked posture and an unlocked posture, and is held in the unlocked posture in a normal state (free state). However, when the slide pin 13 slides to the ventilation end of the guide groove 12 as the window 2 is opened to the ventilation position, the slide pin 13 circumscribes the shutter lock 30 that has been kept unlocked until then, and the shutter The lock 30 is switched to the locked posture. Therefore, in the ventilation open state, the shutter 7 cannot be slid to open the doorway 14. In other words, the shutter 7 cannot be slid open unless the fully opened window 2 is fully closed, so that the window 2 can be reliably prevented from being fully opened due to a gust of wind, and safety can be improved accordingly. . Since the sliding displacement of the slide pin 13 is used to switch to the shutter lock posture, for example, it is not necessary to provide a separate posture switching mechanism for the shutter lock 30, and this type of stay structure can be simplified and the posture switching can be made accordingly. Therefore, the posture of the shutter lock 30 can be switched reliably.
[0024]
In the stay in which the shutter 7 is provided with the second lock 45, the second lock 45 engages with the guide frame 6 at each position where the lid wall 15 opens or closes the doorway 14, and the shutter 7 slides. Blocking. However, when the slide pin 13 is displaced from the ventilation opening position side to a position facing the entrance / exit 14, the second lock 45 is unlocked by the slide pin 13 and the engagement with the guide frame 6 is released. Therefore, also in this case, the shutter 7 cannot be slid open unless the fully ventilated window 2 is once fully closed. After the shutter 7 is slid open, the window 2 can be fully opened. In this fully open state, if the shutter 7 is closed and slid by mischief or the like, the slide pin 13 collides with the lid wall 15 and is damaged when the window 2 is closed. In order to avoid such a situation, the second lock 45 can be engaged with the guide frame 6 even when the shutter 7 is slid open.
[0025]
According to the stay provided with the lock 35 that prevents the slide of the shutter 7 from being opened between the guide frame 6 and the shutter 7, there is no room for the shutter 7 to slide open due to mischief by locking the lock 35. You can do it all. In particular, according to the stay that locks the lock 35 at each position where the lid wall 15 opens or closes the doorway 14 and prevents the shutter 7 from sliding, the shutter can be opened not only when ventilation is opened but also when fully opened. 7 can be prevented from being tampered with. By using the shutter lock 30 or the second lock 45 and the lock 35 together, it is possible to prevent multiple accidents caused by falling or misoperation due to mischief or the like.
[0026]
If the shutter lock 30 is formed integrally with the lock body 8, the increase in the number of components of the stay can be avoided, and the manufacturing cost of the stay can be reduced accordingly. By connecting the check arm 5 to the arm pin 4 so as to be tiltable, the inclination of the surface between the swing end surface of the window 2 and the mounting surface of the guide frame 6 when the window 2 swings open is controlled. Since it can be absorbed by the arm 5, the stay of the present invention can be applied without any trouble even if it is a swing window whose one end is supported by a hinge.
[0027]
In the stay in which the lock body 8 is provided on the guide frame 6, the slide pin 13 is engaged and captured by the engagement claw 23 when the window 2 is opened from the closed position to the ventilation position. Therefore, if the wind is below a certain intensity, the window 2 can be held at the ventilation position, and the window 2 can be prevented from being returned to the closed position by a slight wind.
[0028]
When the ventilation-opened window 2 is closed, the check arm 5 moves along the guide groove 12 toward the closed end. Using this operation, the claw piece 52 provided on the check arm 5 is brought into contact with the knob 9 and the shutter 7 opened by tampering or the like is forcibly returned to the closed position and slid to the closed position. In the state where is fully closed, the doorway 14 can be reliably closed by the lid wall 15. That is, since it is possible to prevent the window 2 from being fully closed while the shutter 7 is opened, even if the shutter 7 is illegally opened from the outside during ventilation opening, the window 2 opens to the fully opened state. Can be prevented and the crime prevention function can be strengthened. Fall accidents due to mischief etc. can also be prevented. Since the knob 9 is operated by the claw piece 52 provided on the check arm 5 and the shutter 7 is returned and slid, there is no need to add new parts, and the shutter 7 is returned to the closed position in conjunction with the closing operation of the window 2. Although it is a window ventilation stay that can be operated and has a new function, the manufacturing cost can be reduced.
[0029]
In the window ventilation stay in which the passive piece 54 is disposed on the shutter 7 and the passive piece 54 is projected into the transition locus of the slide pin 13 by the switching mechanism 57 in a state in which the shutter 7 is opened, the above stay is also provided. In the same manner as described above, the shutter 7 can be forcibly returned to the closed position by the slide pin 13 simply by closing the window 2, and a fall accident due to unauthorized opening or mischief from the outside can be prevented. The passive piece 54 is displaced between the standby position and the passive position by the switching mechanism 57 having reversibility, so that the passive piece 54 reliably crosses the transition locus of the slide pin 13 in a state where the shutter 7 is opened. Therefore, the shutter 7 can always be reliably returned and slid. For example, the shutter 7 can be returned to the closed position without any trouble even when the transition locus of the slide pin 13 varies due to wear of parts during long-term use. Can do.
[0030]
According to the switching mechanism 57 constituted by the switching groove 58 provided in the guide frame 6 and the switching pin 59 guided by the groove 58, the reset function of the shutter 7 that has been opened is reduced by reducing the number of components. The manufacturing cost of the window ventilation stay provided can be reduced.
[0031]
The window ventilation stay, in which the passive piece 61 provided inside the shutter 7 is slid along with the sliding movement of the check arm 5, can be opened simply by closing the window 2 in the same manner as the previous stay. The shutter 7 at the position can be reset by forcibly returning and sliding. Therefore, even when the shutter 7 is illegally opened from the outside or switched to the open position by mischief, closing the window 2 returns the shutter 7 to the closed position, and the window 2 is fully opened. Can be surely prevented.
[0032]
When the window 2 is closed, the passive piece 61 is returned and operated by the check arm 5 near the stroke end of the check arm 5 because the shutter 7 is returned and slid just before the window 2 is closed. This is to make unauthorized opening impossible and to eliminate unauthorized opening operations using any device to enhance and improve the crime prevention effect.
[0033]
According to the stay in which the passive piece 61 is provided integrally with the lid wall 15 and is returned and operated by the slide pin 13, the number of parts is reduced compared to the stay in which the passive piece 54 is switched between the passive position and the standby position. As a result, the cost can be reduced, and the failure of the stay can be prevented by the reduced number of moving parts, thereby improving the reliability. A recess 65 for receiving the slide pin 13 is provided at the groove inner edge of the guide groove 12 facing the entrance / exit 14. The slide piece 13 is moved by the passive piece 61 when the shutter 7 is opened and slid to fully open the window 2. This is because the opening operation of the shutter 7 is performed without hindrance by being pushed away to the concave portion 65 side.
[0034]
【Example】
(Example 1)
In FIG. 2, reference numeral 1 denotes an opening frame, and 2 denotes a window. The opening frame 1 and the window frame 2 are each formed by assembling plastic strips and aluminum strips into a square frame shape. One end of the window 2 is supported by a hinge fixed to the opening frame 1 and can be opened and closed around a vertical hinge center. When the window 2 is closed, the window 2 can be fixed at the closed position by a lock or latch (not shown). In order to hold the window 2 in an open state in the ventilation position, the stay of the present invention is disposed between the opening frame 1 and the window vertical frame on the swinging tip side of the window 2.
[0035]
In FIG. 1, the stay includes a base 3 that is screwed to the window 2, a check arm 5 that is pivotally supported in an inward and outward direction by an arm pin 4 that is fixed to the base 3, and a guide that is fixed to the opening frame 1. The frame 6, the shutter 7 and the lock body 8 assembled in the guide frame 6, and a knob 9 that is outside the guide frame 6 and slides the shutter 7 is configured.
[0036]
As shown in FIG. 3, the guide frame 6 is formed of a press-formed frame body having a U-shaped cross section that is long in the vertical direction and has an opening on the side of the mounting surface, and mounting leg pieces 11 are integrally provided above and below the frame. A long guide groove 12 is opened on the main surface wall of the guide frame 6 so that the slide pin 13 fixed to the swinging tip of the check arm 5 is slidably engaged and guided. At the lower end (closed end) of the guide groove 12, an entrance / exit 14 is opened from the main surface wall of the guide frame 6 to the surface wall on the outdoor side, and is continuous with the guide groove 12.
[0037]
A shutter 7 is provided to open / close the above-described entrance / exit 14 so that the window 2 is fully opened or ventilated. The shutter 7 is made of a U-shaped plastic molded product having a pair of front and rear walls that slide along both side walls of the guide frame 6 and a bottom wall that connects both walls. Thus, the doorway 14 is opened and closed. The knob 9 is connected and fixed to the shutter 7 through two pins 16 inserted through the front wall on the indoor side (see FIG. 6). For this purpose, a pin groove 17 that allows the pin 16 to slide up and down is provided in the indoor side wall of the guide frame 6. An arm 18 having the same width as that of the lid wall 15 is projected from the upper end of the lid wall 15, and a slide projection 19 is provided on a side surface of the projected end on the outdoor side. In order to slide-guide the slide protrusion 19, a slide groove 20 is provided in the outdoor side wall of the guide frame 6. The knob 9 includes an operation portion 9a made of a plastic molded product and a connecting arm 9b obtained by bending a metal plate material into an L shape. One end of the continuous arm 9b is caulked and fixed to the shutter 7 with a pin 16.
[0038]
The check arm 5 is formed of a band-shaped press metal fitting whose both ends are rounded. The slide pin 13 is fixed to the lower end of the check arm 5 and the upper end is pivotally supported by the arm pin 4. The hole that fits outside the arm pin 4 is formed to be slightly larger than the pin diameter so that when the window 2 is opened, the check arm 5 can be tilted with respect to the arm pin 4 as shown in FIG. Further, when the window 2 is closed, a compression coil-shaped spring 21 is provided between the flange portion of the protruding end of the arm pin 4 and the check arm 5 in order to return the check arm 5 in parallel along the vertical window frame. Is intervening. This spring 21 also serves as a kick spring, and biases it in a direction (see the arrow in FIG. 7) for closing the check arm 5 and returning it to the posture. The slide pin 13 is composed of a roller 13a having a flange portion at the protruding end and a Sarabis pin 13b that pivotally supports the roller 13a, and prevents the pin 13b from being hung. The roller 13a is pivotally supported so as to be freely rotatable by being caulked and fixed to the arm 5. The flange portion of the roller 13a is formed to have a larger diameter than the groove width of the previous guide groove 12, and the roller shaft portion is set to be smaller than the groove width of the groove. This is to allow the check arm 5 to tilt.
[0039]
The lock body 8 is made of an inverted L-shaped plastic molded product in which an engagement claw 23 projects downward from one end of the base 8a, and a headed fitting shaft 24 projects from the upper surface of the base 8a. The lock body 8 is inserted into and engaged with the guide frame 6 from the side of the opening surface. For this purpose, an engaging groove 25 for the fitting shaft 24 is provided over the upper mounting leg piece 11 and the frame end wall continuous therewith.
[0040]
In the stay configured as described above, the shutter 7 is slid downward in a normal state, and the doorway 14 is closed by the lid wall 15. When the window 2 is opened from the closed position in this state, the slide pin 13 tries to go outside through the doorway 14 but is received by the lid wall 15. Therefore, as the window 2 is opened, the slide pin 13 only has to slide upward along the guide groove 12. Be captured. Ventilate in this state.
[0041]
When the window 2 is pulled toward the indoor side against the elasticity of the engaging claw 23, the slide pin 13 slides downward along the guide groove 12, so that the window 2 can be closed. When the window 2 is fully opened, the shutter 7 is slid upward through the knob 9 to open the doorway 14. When the window 2 is opened in this state, the slide pin 13 goes out of the guide frame 6 from the entrance / exit 14 without any trouble, so that the check arm 5 is hung vertically and received by the standing wall 3a (see FIG. 7) of the base 3. The window 2 can be opened to the limit position while being accompanied. When the window 2 is closed from the fully opened position, the slide pin 13 enters the lower end side of the guide groove 12 through the entrance / exit 14, so that the shutter 7 is then slid downward to close the entrance / exit 14 with the lid wall 15; It is possible to activate the check arm 5 for checking.
[0042]
When the window 2 is closed, the window vertical frame and the window horizontal frame are received by the seals 1a and 1b (see FIG. 2) provided in the opening frame 1 to maintain airtightness. In this embodiment, the connecting arm 9b of the knob 9 is positioned between the contact portion between one window vertical frame and the seal 1a, and when the window 2 is closed, the operation portion 9a facing the room is slid up and down. Thus, the shutter 7 can be opened and closed. As described above, according to the operation structure in which the thin metal plate connecting arm 9b is disposed between the window 2 and the seal 1a, it is necessary to form a notch or a groove for allowing the connecting arm 9b to pass through the opening frame 1. Therefore, it is possible to save the labor of construction by that amount, and to prevent the strength of the opening frame 1 from being lowered due to the provision of notches and grooves. It is also possible to avoid the loss of airtightness.
[0043]
(Example 2)
8 to 10 show a second embodiment regarding the stay. In this case, a shutter lock 30 is provided integrally with the lock body 8 so that the shutter 7 can be locked and held by the shutter lock 30 so as not to be slidable in a state where the window 2 is ventilated.
[0044]
The shutter lock 30 is composed of a V-shaped fulcrum portion 31 extending from the base portion 8 a and a lock arm 32 projecting downward from the fulcrum portion 31 along the guide groove 12. The projection 33 for receiving the tip of the arm 18 is projected. As shown in FIG. 10, the arm 18 in the free state is bent in a gentle hemispherical shape, and the projection 33 is located in the slide region of the arm 18. The shutter 7 in this state can freely slide up and down.
[0045]
However, as shown in FIG. 9, in the state where the window 2 is ventilated and opened, the collar portion of the roller 13 a contacts the slide arm 13 against the lock arm 32, and the fulcrum 31 is tilted around the lock arm 32. Then, press and deform. Therefore, the protrusion 33 approaches the outdoor side wall of the guide frame 6 and enters the slide region of the arm 18. Accordingly, even when the shutter 7 is to be slid upward, the protruding end of the arm 18 is received by the projection 33, and therefore it is possible to prevent the shutter 7 from being slid open due to mischief or the like. In this embodiment, a mounting piece 9 c is provided continuously at the end of the connecting arm 9 b of the knob 9 and is fixed by caulking to the inner bottom of the shutter 7 with a pin 16. Since the other embodiments are the same as the previous embodiment, the same reference numerals are given and the description thereof is omitted. The same applies to the following embodiments.
[0046]
(Example 3)
11 and 12 show a third embodiment related to the stay. In this case, a lock 35 is added to the shutter 7 so that the shutter 7 cannot be slid and released unless the lock 35 is unlocked. The lock 35 includes a case part 36 shaped integrally with the shutter 7, a lock bolt 37 guided and supported by the case part 36 so as to be slidable and retractable, and a key shaft 38 for operating the lock bolt 37. The key shaft 38 is rotatably supported by the case portion 36, has a key groove 40 for inserting a key 39 at one end thereof, and an eccentric pin 41 for operating the lock bolt 37 to be moved back and forth at the other end. . The pin 41 is engaged with a long hole 42 provided in the lock bolt 37.
[0047]
As shown in FIG. 11, the lock bolt 37 engages with a lock hole 43 provided in the side wall on the indoor side of the guide frame 6 to prevent the shutter 7 from being slid. At that time, the lid wall 15 of the shutter 7 is in a state in which the doorway 14 is closed. Therefore, there is no room for the shutter 7 to be slid and released due to mischief. Since the key 39 is common to the respective stays, it is possible to save time and labor when all the windows 2 are simultaneously released.
[0048]
(Example 4)
13 to 16 show a fourth embodiment related to the stay. In this case, the shutter 7 is provided with a second lock 45 so that the shutter 7 can be prevented from being slid by mischief or the like in each of the positions in which the lid wall 15 opens and closes the entrance 14. did. As shown in FIG. 16, the second lock 45 is made of a plate-like plastic molded product that is long in the vertical direction, has a lock piece 46 at its upper end, and has a fulcrum shaft 47 at the lower surface in the middle in the vertical direction. The fulcrum shaft 47 is pivotally supported by the shutter 7, and a compression coil spring 48 is disposed between the lower end of the second lock 45 and the front wall of the shutter 7, so that the entire second lock 45 is locked. Rush. In this lock urging state, the lower half arm portion of the second lock 45 protrudes into the slide area of the slide pin 13. Further, the lock piece 46 is engaged with either one of the lock holes 49 and 50 provided in the side wall on the indoor side of the guide frame 6. Accordingly, the shutter 7 is locked and held in a non-slidable manner at each of the position where the lid wall 15 opens the entrance 14 and the position where the entrance 14 is closed.
[0049]
In the above state, when the window 2 is closed from the ventilation opening position or is closed from the full opening position, the slide pin 13 faces the entrance 14 and is positioned at the closed end of the guide groove 12. At this time, the slide pin 13 contacts the lower half arm portion of the second lock 45 and swings the second lock 45 in a direction to release the lock against the urging force of the spring 48. That is, unless the window 2 is closed, the shutter 7 cannot be switched to the upper or lower side. Therefore, like the stay provided with the shutter lock 30, the shutter 7 can be prevented from being tampered with when the ventilation is opened, and the shutter 7 can be tampered with the window 2 fully opened. Thus, the lid wall 15 can be prevented from switching to a state in which the doorway 14 is closed.
[0050]
In this embodiment, in order to further prevent the misoperation of the shutter 7 and to increase safety, in this embodiment, the lock wall 35 is located at each position of the state in which the lid wall 15 opens the doorway 14 and the state in which the doorway 14 is closed. Can be locked. Therefore, as shown in FIG. 15, lock holes 43 and 43 corresponding to the previous positions are provided above and below the side wall on the indoor side of the guide frame 6. Furthermore, insertion holes for the key 39 were provided in two places at the top and bottom. In addition, although the check arm 5 in this embodiment is provided with a step portion near the upper end and the structure of the base 3 is changed, all correspond to the difference in the sash structure, and the difference in the gist of the invention is Absent.
[0051]
When the ventilation is open, the knob 9 can be slid by inserting a hand from the outdoor side. Even with the shutter 7 provided with the lock 35, the unlocking can be tried. A reset function is added to deal with such unauthorized opening of the shutter 7 from the outside or opening operation of the shutter 7 due to mischief, and the check arm 5 and the slide pin 13 when closing the window 2 opened for ventilation are operated. Using the movement, the shutter 7 can be returned from the open position to the closed position. A reset structure using the movement of the check arm 5 is shown in the fifth embodiment, and a reset structure using the movement of the slide pin 13 is shown in the sixth embodiment.
[0052]
(Example 5)
17 to 19 show a fifth embodiment of a stay having a reset function. Although there are some structural differences, the basic structure of the stay is the same as the stay described in the first embodiment. The difference is that a claw piece 52 is provided at the swinging tip of the check arm 5 so that the shutter 7 that has been opened by mischief can be returned to the closed position by the claw piece 52 via the connecting arm 9 b of the knob 9. There is in point. Specifically, the groove center line P in the middle portion of the guide groove 12 is biased toward the knob 9, and the transition locus of the claw piece 52 is the opening / closing locus of the connecting arm 9 b of the knob 9 in this groove bias portion. It was made to overlap.
[0053]
In FIG. 17, the transition locus H of the tip portion of the claw piece 52 is indicated by a two-dot chain line. As can be understood from the locus H, when the shutter 7 is fully opened to the upper limit, when the window 2 is closed from the ventilation position, the claw piece 52 is pushed to the knob 9 side at the groove biased portion, and the inclined edge thereof. Contacts and engages the connecting arm 9b. When the window 2 is further closed, the shutter 7 is forcibly slid to the closing side in conjunction with the lowering of the check arm 5, and the doorway 14 is closed by the lid wall 15 as shown in FIG. Therefore, even if the shutter 7 is opened improperly when ventilation is released, the window 2 cannot be fully opened. The claw piece 52 releases the contact state with the connecting arm 9b immediately before the shutter 7 completely closes the entrance / exit 14. Therefore, after the window 2 is fully closed, the shutter 7 is slid from the indoor side to open the entrance / exit 14, allowing the slide pin 13 to be pulled out and the window 2 to be fully opened.
[0054]
In the fifth embodiment, the groove center line P of the guide groove 12 is biased toward the knob 9 to increase the amount of engagement of the claw piece 52 with the connecting arm 9b, but this is not necessary. This is because if the protrusion amount of the claw piece 52 is adjusted, the shutter 7 can be returned and slid without trouble even when the guide groove 12 is formed as a straight groove.
[0055]
(Example 6)
20 to 24 show a sixth embodiment related to the reset structure. In this embodiment, the shutter 7 is provided with a passive piece 54, which is lowered by the slide pin 13 so that the shutter 7 can be returned to the closed position and slid.
[0056]
As shown in FIG. 24, the passive piece 54 is made of a horizontally long angle shaft plastic block, and is guided and supported by guide recesses 55 provided on the front and rear walls of the shutter 7 so that the passive piece 54 can move freely. A compression coil spring 56 disposed between the spring receiving holes at both ends in the longitudinal direction is urged toward the standby position. Reversibility is provided between the passive piece 54 and the guide frame 6 in order to move the passive piece 54 from the standby position to the passive position that crosses the transition locus of the pin 13 by using the opening operation of the shutter 7. A switching mechanism 57 is provided.
[0057]
The switching mechanism 57 includes a switching groove 58 provided on the inner and outer walls of the guide frame 6 along the moving direction of the slide pin 13, and a switching pin 59 fixed to the passive piece 54 and supported at both ends by the switching groove 58. Consists of. The switching groove 58 is formed in a U-shaped groove, and when the shutter 7 is in the closed position, the switching pin 59 is held on the mounting surface side of the guide frame 6 and the passive piece 54 is positioned in the standby position.
[0058]
At this time, the slide pin 13 can freely slide up and down between the shutter 7 and the main surface wall. However, when the shutter 7 is opened, the switching pin 59 is pushed up by the switching groove 58 against the urging force of the spring 56. As a result, the passive piece 54 is held at the passive position across the transition locus of the slide pin 13. Accordingly, when the window 2 is closed from the ventilation position as shown in FIG. 21, the slide pin 13 comes into contact with the passive piece 54 and moves the shutter 7 to the closing side in this state. When the shutter 7 approaches the fully closed state, as shown in FIG. 23, the passive piece 54 is returned to the standby position side, so that the slide pin 13 does not contact the passive piece 54 thereafter. Therefore, when the window 2 is fully closed and the shutter 7 is opened, the door 14 can be opened and the window 2 can be fully opened.
[0059]
(Example 7)
25 to 27 show a seventh embodiment related to the shutter reset structure. In this embodiment, a passive piece 61 is provided on the inner surface of the lid wall 15 of the shutter 7, and this is lowered by the slide pin 13 so that the shutter 7 can be slid to the closed position.
[0060]
As shown in FIG. 26, the passive piece 61 is formed of a mountain-shaped protrusion having a partial arc-shaped receiving surface 62 and an inclined guide surface 63 and is formed integrally with the lid wall 15. An escape recess 64 equal to the protruding dimension of the passive piece 61 is provided on the wall surface facing the passive piece 61. When the window is closed from the ventilation position, the slide pin 13 comes into contact with the receiving surface 62 of the passive piece 61, and the shutter 7 is moved to the closing side in this state. At this time, as the timing at which the slide pin 13 contacts the receiving surface 62 is delayed, the opening gap between the window 2 and the opening frame 1 can be reduced, and there is no room for unauthorized opening of the shutter 7 from the outside. For this purpose, as shown in FIG. 25, the passive piece 61 is provided on the closing start end side of the lid wall 15 so that the slide pin 13 contacts the passive piece 61 near the stroke end of the check arm 5.
[0061]
When the window 2 is fully opened, the shutter 7 is opened and slid with the window 2 closed to open the entrance / exit 14, and at this time, the passive piece 61 is in contact with the flange at the shaft end of the slide pin 13. It will interfere. In order to avoid this contact interference, a recess 65 is provided on the inner edge of the guide groove 12 facing the doorway 14. That is, when the protruding end of the passive piece 61 contacts the slide pin 13, the slide pin 13 is moved to the escape recess 64 side as shown by an imaginary line in FIG. Yes.
[0062]
In addition to the above embodiments, the window 2 is fully opened only when the shutter 7 is biased downward by a spring and the shutter 7 is slid upward against the biasing force of the spring and the doorway 14 is held open. Can be possible. The shutter 7 can be arranged such that the lid wall 15 closes the entrance / exit 14 when sliding upward. In this case, the shutter 7 may be disposed on the outer surface of the guide frame 6. The stay of the present invention can be used by being disposed between the upper and lower surfaces of the window 2 and the opening frame. Further, the present invention can be applied without trouble even when the window 2 is a sliding window or a rotary window. In addition, in each Example, although the attachment state in which the entrance / exit 14 was located in the lower end side of the guide frame 6 was shown, it can be used in the reverse mounting form, ie, the state in which the entrance / exit 14 is located in the upper end side of the guide frame 6. .
[Brief description of the drawings]
FIG. 1 is a side view of a stay when ventilation is opened.
FIG. 2 is a plan view of a stay.
FIG. 3 is an exploded perspective view of a stay.
FIG. 4 is a side view in which a part of the guide frame is broken.
FIG. 5 is a side view of the guide frame in a state where an entrance is opened.
6 is a cross-sectional view taken along line AA in FIG.
FIG. 7 is a side view showing the support structure of the check arm.
8 is a cross-sectional view taken along line BB in FIG.
FIG. 9 is a partially broken side view showing a second embodiment regarding the stay.
FIG. 10 is a side view of the second embodiment showing a posture of the shutter lock in a free state.
FIG. 11 is a partially broken side view showing Example 3 relating to the stay.
12 is a sectional view taken along line CC in FIG. 11. FIG.
FIG. 13 is a partially broken side view showing Example 4 relating to the stay.
FIG. 14 is a partially cutaway side view of the guide frame in a state where the doorway is closed in the fourth embodiment.
15 is a front view of a stay of Example 4. FIG.
FIG. 16 is a perspective view of a shutter according to a fourth embodiment.
FIG. 17 is a side view showing a fifth embodiment relating to the stay.
18 is a side view of the main part of the guide frame showing the operation of the claw pieces in Embodiment 5. FIG.
FIG. 19 is a sectional view taken along line DD in FIG.
FIG. 20 is a longitudinal sectional view showing a sixth embodiment related to the reset mechanism.
21 is a cross-sectional view taken along line EE in FIG.
FIG. 22 is a longitudinal side view showing a state of a passive piece at reset in the sixth embodiment.
23 is a cross-sectional view taken along line FF in FIG.
24 is an exploded perspective view showing a related structure of a shut and a passive piece in Example 6. FIG.
FIG. 25 is a side view showing a seventh embodiment related to the reset mechanism.
FIG. 26 is a longitudinal side view showing a state of a passive piece at reset in the seventh embodiment.
27 is a cross-sectional view taken along the line GG in FIG.
[Explanation of symbols]
1 Opening frame
2 windows
5 Check arm
6 Guide frame
7 Shutter
8 Lock body
12 Guide groove
13 Slide pin
14 Entrance
15 lid wall

Claims (13)

A guide frame (6) fixed to the opening frame (1) and a check arm (5) whose one end is swingably supported by the window (2);
For window ventilation, a slide pin (13) provided at the swinging tip of the check arm (5) is engaged and guided in a reciprocatingly slidable manner by a guide groove (12) provided in the guide frame (6) and running in the vertical direction . The stay of
In the guide frame (6), an entrance / exit (14) that allows the slide pin (13) to enter and exit in a state in which the window (2) is closed opens continuously to the closed end side, which is the lower end side of the guide groove (12). Has been
The guide frame (6) is provided with a shutter (7) that is supported by the guide frame (6) so as to be slidable in a reciprocating manner, and that opens and closes the entrance (14), and a knob (9) that slides the shutter (7). And
Only when the knob (9) is slid and the cover wall (15) provided on the shutter (7) opens the doorway (14), the slide pin (13) moves the doorway (14) in and out. Stay for window ventilation that can go in and out. Facing the slide area of the shutter (7), a shutter lock (30) for preventing the shutter (7) from being slid open is provided,
The shutter lock (30) is provided so that the posture can be changed between a locked posture for receiving the shutter (7) and an unlocked posture that allows the shutter to open and slide, and is normally held in the unlocked posture,
The stay for window ventilation according to claim 1, wherein the slide pin (13) circumscribes the shutter lock (30) and keeps the shutter lock (30) in the locked position in the ventilation open state. The shutter (7) is provided with a second lock (45) that engages with the guide frame (6) and prevents the shutter (7) from sliding back and forth.
The second lock (45) is supported by the shutter (7) so as to be displaceable between a lock posture engaging with the guide frame (6) and a lock release posture releasing the engagement with the guide frame (6). The spring (48) is biased to the locked posture,
The second lock (45) is engaged with the guide frame (6) at each of the position where the lid wall (15) of the shutter (7) opens the entrance (14) and the position where the entrance (14) is closed. In combination, the slide displacement of the shutter (7) is prevented,
The second lock (45) resists the biasing force of the spring (48) by the slide pin (13) only when the slide pin (13) engaged with the guide groove (12) faces the doorway (14) and the window is closed. The window ventilation stay according to claim 1, wherein the stay is configured to be unlocked. The arm pin (4) that pivotally supports the check arm (5) is fixed to the base (3) attached to the window (2),
The check arm (5) is connected to the arm pin (4) so as to be tiltable, and is returned to the direction of contact with the base (3) by the spring (21) arranged between the two (4, 5) and to the closed position. The stay for window ventilation according to claim 1, wherein the stay is biased in a moving direction. In the vicinity of the ventilation end side, which is the upper end side of the guide groove (12), a lock body (8) provided with an elastically deformable engaging claw (23) is provided,
The stay for window ventilation according to claim 1, 2, 3 or 4, wherein the slide pin (13) is engaged and captured by the lock body (8) in a state in which the window (2) is opened to the ventilation position. A lock (35) is provided between the guide frame (6) and the shutter (7) to engage with each other and prevent the shutter (7) from sliding open,
The lock (35) is provided so that it can be switched between a locked state and an unlocked state with a detachable key (39) only when the lid wall (15) of the shutter (7) closes the doorway (14). The stay for window ventilation according to claim 1, 2, 3, 4 or 5. A lock (35) is provided between the guide frame (6) and the shutter (7) to engage with each other and prevent the shutter (7) from sliding open,
The lock (35) has a detachable key (15) at each of a position where the lid wall (15) of the shutter (7) opens the entrance (14) and a position where the lid wall (15) closes the entrance (14). The stay for window ventilation according to claim 1, 2, 3, 4 or 5, which is provided so as to be switchable between a locked state and an unlocked state in 39).   The stay for window ventilation according to claim 5, wherein the shutter lock (30) is formed integrally with the lock body (8). A claw piece (52) is provided at the swinging tip of the check arm (5) to engage and engage with the knob (9) to return the shutter (7), which has been operated to open, to the closed position.
The shutter (7) that is opened when ventilation is released is operated to slide back to the closed position via the knob (9) with the claw piece (52) in conjunction with the closing operation of the window (2). The stay for window ventilation according to claim 1, 4 or 5. A passive piece (54) is arranged on the inner surface of the shutter (7) facing the transition locus of the slide pin (13),
The passive piece (54) is guided by the shutter (7) so as to be able to reciprocate between a passive position that crosses the transition locus of the slide pin (13) and a standby position that recedes outside the transition locus of the slide pin (13). Supported,
Switching mechanism (with reversibility) between the guide frame (6) and the passive piece (54) that moves the passive piece (54) to the passive position in conjunction with the open slide displacement of the shutter (7). 57) is provided,
The shutter (7) that has been opened when ventilation is released can be slid back to the closed position via the passive piece (54) with the slide pin (13) in conjunction with the closing operation of the window (2). And
The switching mechanism (57) is mounted on the switching groove (58) provided in the guide frame (6) along the moving direction of the slide pin (13) and the passive piece (54) and is operated by the switching groove (58). And a switching pin (59) to be
The stay for window ventilation according to claim 1, 4 or 5, wherein the passive piece (54) is urged to move toward the standby position by a spring (56) . A passive piece (61) that contacts the check arm (5) or the slide pin (13) is provided on the inner surface of the shutter (7) facing the transition locus of the check arm (5).
The shutter (7), which has been opened when ventilation is released, is returned to the closed position via the passive piece (61) by the check arm (5) that slides and displaces in conjunction with the closing operation of the window (2). 6. A stay for window ventilation according to claim 1, 4 or 5 . The passive piece (61) is provided near the lower end of the shutter (7), and the passive piece (61) is located near the stroke end of the check arm (5) when closing the window (2). The stay for window ventilation according to claim 10, wherein the return slide operation is performed to the closed position side . On the inner surface of the lid wall (15) of the shutter (7), a passive piece (61) that is returned and operated by the sland pin (13) is provided integrally with the lid wall (15).
The stay for window ventilation according to claim 11 or 12, wherein a recess (65) for receiving the slide pin (13) is provided on the inner edge of the guide groove (12) facing the doorway (14) .

Images