FR2960014A1 - BAY ASSEMBLY - Google Patents

Abstract

This assembly comprises an opening equipped with a control rod (2), and mounted movably on a frame between an open position and a closed position, a slide (3) defining an opening (30) having a first portion (300) s extending along a longitudinal axis (X'-X), an articulated arm (4) having a first end (40) mounted free to rotate on the frame or on the opening, and a second end (41) opposite mounted slidably in the opening between a first position in which the opening is in the closed position, and a second position in which the opening is in a predetermined open position, and is remarkable in that the opening has a second portion (301) extending in an oblique direction (Y'-Y) relative to the longitudinal axis, and shaped to receive the second end of the articulated arm in second position, and in that the rod is arranged to rotate the arm a intergrated between a locking position and an unlocking position.

Description

The present invention relates to a rack assembly. A rack assembly conventionally comprises: - a frame intended to be mounted in the bay, - an opening, in particular window type, mounted movable on the frame between an open position in which it releases a passage through the frame and a closed position in which it closes said passage, the opening being equipped with a control rod intended to be moved by a control handle between a locking position and an unlocking position, - a slide defining an opening having a first portion s' extending along a longitudinal axis, - at least one articulated arm having a first end mounted free to rotate on the frame or on the opening, and an opposite second end slidably mounted in the opening between a first position in which the opening is in the closed position, and a second position in which the opening is in a predetermined open position. When the opening is in the predetermined open position, the opening can be inadvertently moved to the closed position, in particular by air movements. This involuntary closure of the opening can cause nuisance, such as noise, but also accidents, including pinching fingers. It is known from the state of the art, in particular from document FR 2 509 778, to equip the bay assembly with a body for locking / unlocking the opening in a predetermined open position, the locking body comprising a leaf spring mounted on the sash and an operating knob actuating the spring. The spring is arranged to cooperate with the articulated arm so that the spring maintains in the second position (locking) the second end of the articulated arm. The second end of the articulated arm is released from the spring (unlocking) by actuating the operating knob. Such a bay assembly of the state of the art requires the use of a leaf spring to ensure the locking of the opening in a predetermined open position, which is detrimental in terms of durability of the locking body to the extent that such a spring will undergo significant deformations over time after successive movements of the opening from the closed position to the predetermined open position. In addition, such a body is quite complex to implement including requiring a specific arrangement and adjustment of the leaf spring.

The present invention aims to overcome all or part of the aforementioned drawbacks and concerns a set for bay, comprising: - a frame intended to be mounted in the bay, - an opening, including window type, mounted movable on the frame between a position opening in which it releases a passage through the frame and a closed position in which it closes said passage, the opening being equipped with a control rod to be moved by a control handle between a locking position and a position unlocking device, - a slideway defining an opening having a first portion extending along a longitudinal axis, - at least one articulated arm having a first end mounted free to rotate on the frame or on the opening around an axis of rotation, and an opposite second end slidably mounted in the opening between a first position in which the opening is in the Closed position, and a second position in which the opening is in a predetermined open position, said assembly being remarkable in that the opening has a second portion extending in a direction oblique to the longitudinal axis, the second portion being shaped to receive the second end of the articulated arm in the second position, in that the control rod is arranged to rotate the articulated arm about the axis of rotation between: - a locking position in which the articulated arm and the oblique direction of the second portion of the opening form an angle 30 having a first value adapted so that the second end of the articulated arm is in stable equilibrium in the second portion of the opening, and - a position of unlocking in which said angle has a second value less than the first value, the second value being adapted from so that the second end of the articulated arm is in unstable equilibrium in the second portion of the opening, and in that the assembly comprises means for actuating the second end of the articulated arm arranged to dislodge said second end of the second portion of the opening when the control rod is in the unlocking position.

Thus, such an assembly according to the invention makes it possible to ensure the locking / unlocking of the opening in a predetermined open position. More particularly, the locking of the opening is ensured by arranging the slide. Therefore, the locking of the opening in a predetermined open position is robust, durable and assured without adding additional mechanical parts. The locking of the opening in a predetermined open position is obtained by geometric conditions between the articulated arm and the second portion of the opening and by friction forces exerted on the second end of the articulated arm, which allows a easy implementation of such a set. Unlocking the opening in a predetermined open position is obtained by geometric conditions between the articulated arm and the second portion of the opening which allow easy implementation of such an assembly. When the control rod is in the unlocked position, the actuating means allow to dislodge the second end of the articulated arm of the second portion of the opening. Thus, a force exerted on the opening against the friction forces exerted on the second end of the articulated arm can dislodge the second end of the articulated arm of the second portion of the opening.

According to one embodiment, the first end of the articulated arm is mounted free to rotate on the frame, and the slide is fixed on the opening. According to an alternative embodiment, the first end of the articulated arm is rotatably mounted on the control rod equipping the opening, the slide is fixed on the frame, and the actuating means comprise at least one actuating member. , particularly type of operating knob, arranged on the frame. In one embodiment, the actuating means are constituted by the control rod having an unlocking position in which the angle formed by the articulated arm and the oblique direction of the second portion of the opening have a second lower value. at the first value, the second value being adapted such that the second end of the articulated arm is dislodged from the second portion of the opening. Thus, such a control rod alone allows to ensure the unlocking of the opening in a predetermined open position.

According to one embodiment, the first value of the angle formed by the articulated arm and the oblique direction of the second portion of the opening is between 60 ° and 120 °, and is preferably substantially equal to 90 °. The orthogonality between the articulated arm and the oblique direction of the second portion of the opening makes it possible to optimize the equilibrium stability of the second end of the articulated arm in the second portion of the opening. In one embodiment, the second portion of the opening is located at one end of the first portion of the opening. Thus, such an arrangement of the second opening portion increases the stroke of the second end of the articulated arm in the opening. Such an increase in the stroke makes it possible to increase by the same the deflection of the opening between the closed position and the predetermined open position. According to one characteristic, the second portion extends in an oblique direction having an angle with the longitudinal axis less than 30 °, and preferably substantially equal to 15 °. According to a particular embodiment, the second portion of the opening is made in the form of a notch formed in the slideway and in the extension of the first portion of the opening. Advantageously, the second end of the articulated arm is equipped with at least one stud shaped to slide in the opening. Thus, such a stud makes it possible to improve the guiding of the second end of the articulated arm in the opening. Advantageously, the articulated arm is removably mounted on the opening. Thus, when the articulated arm is removed from the opening, the opening is mounted free on the frame. This results in a maximum movement of the opening on the frame. In one embodiment, the assembly comprises a control device designed to control the displacement of the control rod 35 between the locking position and the unlocking position, the device comprising: an operating part comprising a base having a first face and a second opposite face, the base having a first lateral edge and a second opposite lateral edge, a control finger mounted on the second face of the base, designed to drive the control rod, the finger of maneuver being disposed near the first lateral edge of the base, a rack mounted on the second side edge on the first face of the base, - a control handle, - a pinion integral in displacement of the control handle, 10 and arranged between the first side edge and the second side edge on the first face of the base so as to mesh with the rack. Other features and advantages will appear in the following description of an embodiment of a rack assembly according to the invention, given by way of non-limiting example, with reference to the appended drawings in which: FIGS. 1 and 2 are partial perspective views of a bay assembly according to the invention showing an articulated arm in different positions; FIG. 3 is a partial side view of the assembly illustrated in FIGS. 1 and 2; FIG. 4 is an exploded partial view of the assembly illustrated in FIGS. 1 and 2; FIGS. 5 and 6 are perspective views of a device for controlling the displacement of the control rod; FIGS. 7a and 7b are respective perspective views of an operating part equipping the device illustrated in Figures 5 and 6 and a workpiece of the state of the art. The bay assembly illustrated in Figures 1 to 4 comprises a frame intended to be mounted in a bay; only one frame element 1 30 is shown in order not to overload FIGS. 1 to 4. The assembly comprises an opening (not shown), such as a door or a window, mounted movably on the frame between an open position in which it releases a passage through the frame and a closed position in which it closes said passage. The opening is equipped with a control rod 2 moved between a locking position and an unlocking position by a control handle 6, shown in Figures 5 and 6, equipping the leaf. To do this, the assembly comprises a control device 5 designed to control the displacement of the control rod 2 between the locking position and the unlocking position, the device comprising: - an operating part 50 comprising a base 51 having a first face 510 and a second face 511 opposite, the base having a first side edge 510a and a second side edge 510b opposite, an actuating finger 52 mounted on the second face 511 of the base 51, designed to drive on the move the control rod 2, the operating finger 52 being disposed near the first lateral edge 510a of the base 50, a rack 53 mounted on the second side edge 510b on the first face 510 of the base 51, - a handle 6, - a pinion (not shown) integral in displacement of the control handle 6, and arranged between the first side edge 510a and the second side edge 510b on the first side 510 of the base 51 so as to engage in the rack 53.

As illustrated in FIG. 7a, the operating part 50 equipping the control device 5 differs from the operating part 50 illustrated in FIG. 7b in that the rack 53 is mounted on the second lateral edge 510b on the first face 510 of FIG. the base 51, and not on the first side edge 510a. Such an arrangement of the rack 53 makes it possible to reverse the direction of movement of the control rod 2 for a given direction of rotation of the pinion, and without modifying the disposition of the operating finger 52. The assembly comprises a slide 3 mounted fixed on the opening to the fixing screw means 302. The slide 3 is arranged on the control rod 2.

The slide 3 defines an opening 30 having: a first oblong portion 300 extending along a substantially vertical longitudinal axis X'-X; a second portion 301 (visible in FIG. 2) located at the lower end of the first portion; portion 300, and extending in an oblique direction Y'-Y relative to the longitudinal axis X'-X.

The oblique direction Y'-Y has an angle α with the longitudinal axis X'-X substantially equal to 15 °. The second portion 301 of the opening 30 is made in the form of a notch formed in the slideway 3 and in the extension of the first portion 300 of the opening 30. The assembly comprises an articulated arm 4 having: first end 40 mounted free to rotate on the frame about an axis of rotation Z'-Z, - an opposite second end 41 slidably mounted in the opening 30 between a first position (not shown) in which the opening is in the closed position, and a second position (illustrated in Figure 1) in which the opening is in a predetermined open position. The first end 40 of the articulated arm 4 may for example be mounted on the frame or with fixing screws (not shown). The first end 40 of the articulated arm 4 may be shaped to cooperate with a specific tool (not shown), such as a wrench or a screwdriver, so as to be removed from the frame. The second end 41 of the articulated arm 4 in the first position is located at the upper end of the first portion 300 of the opening 30. The second end 41 of the articulated arm 4 in the second position is disposed in the second portion 301 of the opening 30. It should be noted that in Figure 2 is shown the second end 41 of the articulated arm 4 in an intermediate position between the first position and the second position. The second end 41 of the articulated arm 4 is equipped with a stud 410 designed to slide in the opening 30. The control rod 2 comprises an oblong slot 20 formed therein, extending along the axis X'- X on at least the length of the opening 30 of the slide 3. The slot 20 has a lower end 200 and an opposite upper end 201. The slot 20 is shaped to receive the stud 410 of the articulated arm 4. The control rod 2 further comprises two oblong slots 201 formed therein, and disposed on either side of the slot 20. The stud 410 of FIG. articulated arm 4 may be shaped to cooperate with a specific tool (not shown) such as a key so that it can be removed from the opening 30 of the slide 3 and the slit 20 of the control rod 2. When the stud 410 is removed and thereby when the articulated arm 4 is removed, the opening is then mounted free on the frame. The control rod 2 is movable in translation along the axis X'-X between the locking position and the unlocking position. The control rod 2 is arranged to rotate the articulated arm 4 about the axis of rotation Z'-Z during the displacement of the control rod 2 from the locking position to the unlocking position. It should be noted that the lights 201 allow the displacement of the control rod 2 from the locking position to the unlocking position without being in contact with the fixing screws 302. More specifically, during the displacement of the control rod 2 along the axis X'-X from the locking position to the unlocking position, the lower end of the slot 20 of the control rod 2 comes into contact with the stud 410 of the articulated arm 4 first, then in a second step the lower end of the slot 20 of the control rod 2 rotates the articulated arm 4 about the axis of rotation Z'-Z. When the control rod 2 is in the locking position (illustrated in FIG. 1), the articulated arm 4 and the oblique direction Y'-Y of the second portion 301 of the opening 30 form an angle 3 presenting a first value substantially equal to 90 ° so that the second end 41 of the articulated arm 4 is in stable equilibrium in the second portion 301 of the opening 30. By "stable equilibrium" is meant that the second end 41 of the articulated arm 4 has at least a position of equilibrium in the second portion 301 of the opening 30 and the second end 41 of the articulated arm 4 tends to return to this equilibrium position when moved by an infinitesimal amount. When the control rod 2 is in the unlocking position (illustrated in FIG. 3), the angle 3 formed by the articulated arm 4 and the oblique direction Y'-Y of the second portion 301 of the opening 30 presents a second value of the order of 80 °, and therefore less than the first value, the second value being adapted so that the second end 41 of the articulated arm 4 is in unstable equilibrium in the second portion 301 of the opening 30. unstable equilibrium "means that the second end 41 of the articulated arm 4 has at least one equilibrium position in the second portion 301 of the opening 30 and that the second end 41 of the articulated arm 4 tends to move away from this position of equilibrium when moved by an infinitesimal amount. It follows that an external force exerted on the opening against the friction forces exerted on the second end 41 of the articulated arm 4 can then dislodge the second end 41 of the articulated arm 4 of the second portion 301 of the opening 30. According to an alternative embodiment not shown, the assembly differs in that it comprises at least one actuating member of the second end 41 of the articulated arm 4, arranged on the opening so as to dislodge said second end 41 of the second portion 301 of the opening 30 when the control rod 2 is in the unlocked position. According to another variant of embodiment not shown, the assembly differs in that, when the control rod 2 is in the unlocking position, the second value of the angle 3 formed by the articulated arm 4 and the oblique direction Y ' -Y of the second portion 301 of the opening 30 is adapted so that the second end 41 of the articulated arm 4 is directly dislodged from the second portion 301 of the opening 30. To do this, the control rod 2 is moved along the axis X'-X from the locking position until the angle 3 formed by the articulated arm 4 and the oblique direction Y'-Y of the second portion 301 of the opening 30 is sufficiently low so that the displacement of the control rod 2 then dislodges the second end 41 of the articulated arm 4 of the second portion 301 of the opening 30. Such an angle 3 thus defines the unlocking position of the control rod 2. In an embodiment not shown, the assembly differs in that: - the first end 40 of the articulated arm 4 is mounted free to rotate on the control rod 2 about an axis of rotation Z'-Z, - the slide 3 is fixedly mounted on the - the assembly comprises at least one actuating member of the second end 41 of the articulated arm 4 arranged on the frame so as to dislodge said second end 41 of the second portion 301 of the opening 30 when the rod of control 2 is in the unlocking position. Of course, the embodiment of the invention described above is not limiting in nature. Details and improvements can be made in other variant embodiments without departing from the scope of the invention.

Claims (10)

REVENDICATIONS1. Assembly for bay, comprising: - a frame intended to be mounted in the bay, - an opening, in particular window type, mounted movable on the frame between an open position in which it releases a passage through the frame and a closed position in which it closes said passage, the opening being equipped with a control rod (2) intended to be moved by a control handle between a locking position and an unlocking position, - a slide (3) defining an opening ( 30) having a first portion (300) extending along a longitudinal axis (X'-X), - at least one articulated arm (4) having a first end (40) rotatably mounted on the frame or on the opening around an axis of rotation (Z'-Z), and an opposite second end (41) slidably mounted in the opening (30) between a first position in which the opening is in the closed position, and a second position in which e the opening is in a predetermined open position, characterized in that the opening (30) has a second portion (301) extending in an oblique direction (Y'-Y) relative to the longitudinal axis (X ' -X), the second portion (301) being shaped to receive the second end (41) of the articulated arm (4) in the second position, in that the control rod (2) is arranged to rotate the articulated arm (4) about the axis of rotation (Z'-Z) between: - a locking position in which the articulated arm (4) and the oblique direction (Y'-Y) of the second portion (301) of the opening (30) form an angle (R) having a first value adapted so that the second end (41) of the articulated arm (4) is in stable equilibrium in the second portion (301) of the opening (30), and an unlocking position in which said angle (R) has a second value less than the first value, the second value being ur being adapted so that the second end (41) of the articulated arm (4) is in unstable equilibrium in the second portion (301) of the opening (30), and in that the assembly comprises actuating means the second end (41) of the articulated arm (4) arranged to dislodge the second end (41) of the second portion (301) of the opening (30) when the control rod (2) is in the unlocked position. 2. An assembly according to claim 1, characterized in that the first end (40) of the articulated arm (4) is mounted free to rotate on the frame, and in that the slide (3) is fixed on the opening. 3. An assembly according to claim 1, characterized in that the first end (40) of the articulated arm (4) is mounted free to rotate on the control rod (2) equipping the opening, in that the slide (3 ) is fixed on the frame, and in that the actuating means comprise at least one actuating member, in particular of the operating knob, disposed on the frame. 15 4. An assembly according to claim 1 or 2, characterized in that the actuating means are constituted by the control rod (2) having an unlocking position in which the angle (R) formed by the articulated arm (4). and the oblique direction (Y'-Y) of the second portion (301) of the opening (30) has a second value smaller than the first value, the second value being adapted so that the second end (41) of the articulated arm (4) is dislodged from the second portion (301) of the opening (30). 5. An assembly according to one of claims 1 to 4, characterized in that the first value of the angle (R) formed by the articulated arm (4) and the oblique direction (Y'-Y) of the second portion (301) of the opening (30) is between 60 ° and 120 °, and is preferably substantially equal to 90 °. 6. An assembly according to one of claims 1 to 5, characterized in that the second portion (301) of the opening (30) is located at one end of the first portion (301) of the opening (30). . 7. Assembly according to one of claims 1 to 6, characterized in that the second portion (301) of the opening (30) is formed in the form of a notch formed in the slide (3) and in the extension of the first portion (300) of the opening (30). 8. Assembly according to one of claims 1 to 7, characterized in that the second end (41) of the articulated arm (4) is equipped with at least one stud (410) shaped to slide in the opening (30) . 9. Assembly according to one of claims 1 to 8, characterized in that the articulated arm (4) is removably mounted on the opening. 10. Assembly according to one of claims 1 to 9, characterized in that it comprises a control device (5) adapted to control the movement of the control rod (2) between the locking position and the unlocking position. , the device comprising: - an operating part (50) comprising a base (51) having a first face (510) and an opposite second face (511), the base having a first lateral edge (510a) and a second edge side (510b) opposite, an actuating finger (52) mounted on the second face (511) of the base (51), designed to move the control rod (2) in movement, the operating finger being disposed in the vicinity of the first lateral edge (510a) of the base (50), a rack (53) mounted on the second lateral edge (510b) on the first face (510) of the base (51), - a control handle ( 6), - a pinion secured in displacement of the control handle (6), and arranged between the first bor d lateral (510a) and the second side edge (510b) on the first face (510) of the base (51) so as to mesh in the rack (53).