CA2125722A1

CA2125722A1 - Compact window operator

Info

Publication number: CA2125722A1
Application number: CA002125722A
Authority: CA
Inventors: Jesper Lauesen; BJARNE BõRRESEN
Original assignee: VKR Holding AS
Current assignee: VKR Holding AS
Priority date: 1993-06-14
Filing date: 1994-06-13
Publication date: 1994-12-15
Also published as: US5442879A; ATE184676T1; JPH0711837A; EP0629763A1; DE69420617T2; CA2125723A1; EP0629763B1; JP3454573B2; DE69420617D1; CN1104708A

Abstract

A B S T R A C T

A counterbalanced window operator includes a housing (11) in which operating arms (7,8) pivotally connected in the housing and slidingly and pivotally connected to a sash of the window are counterbalanced by a torsion spring (13). In one embodiment, connections between the torsion spring and the operating arms are adjustable in order to vary the counterbalancing force applied to the operating arms.

Description

2l2~l722 COMPACT WINDOW OPERATOR

The present invention relates to an operator unit for opening and closing a window and, more particularly, to a compact counterbalanced window operator.
Operators are known for moving a window between closed and open positions, for example, a window having a stationary main frame mounted in a roof of a house or other building, especially a sloped roof, and a sash hinged to the main frame at the top of the sash for 10 pivoting toward and away from the main frame. Such operators are typically mounted on a bottom member of the main frame and connected to a bottom member of the sash for pushing the sash away from the main frame and drawing the sash into engagement with the main frame.
15 When the window operator is actuated to move the window in an opening direction, it must overcome a component of the weight of the sash, especially when the window is mounted in a roof. In order to overcome this diffi-culty, counterbalancing devices employing springs have 20 been provided to counteract the weight component of the window and, thereby, reduce the force which must be applied to the operator, either by hand or by a power unit. Counterbalanced window operators are disclosed in U.S. Patent Nos. 5,097,629 to Guhl et al. and 2,698,173 25 to Rydell. Such counterbalanced window operators are characterized by large housings to accommodate the springs or by springs taking up considerable space outside the housings.
According to the invention a compact window 30 operator is provided for opening and closing a window having a generally rectangular main frame and a gen-erally rectangular sash mounted for pivoting movement relative to the main frame about a pivot axis generally 2~2~722 parallel to a pair of opposed sides of said sash, comprising:
an essentially closed housing which is fixed with respect to said main frame, at least one arm connected at a first end with one of the said opposed sides of the sash and pivotally eonnected at a second end with a pivot point which is ::
stationarily located inside said housing, and means arranged inside said housing for moving said 10 arm about the pivot point, said moving means comprising a rotatable drive member journalled fox rotation in said housing and a rotata~le transmission member operatively connected with said arm and being engaged by said drive : ~::
member to be rotated upon rotation of said drive member 15 whereby to cause said arm to pivot about said pivot point, said window operator being characterized in that torsional spring means is operatively connected between a first point fixed with respect to said housing and a second point engaging a part of said arm outside said 20 housing for providing a counterbalancing force counter- :
acting a weight component ~f th~ window. :
The eonstruetion deseribed offer~ the advantage that a very eompaet de~ign of high stability and funetional reliability i~
obtained 80 that~ in the clossd condition of the window, the moving 25 means of the operating member between the sash and the main frame may be completely accommodated in a fairly small housing mounted on the bottom of the main frame. In addition, the eounterbalaneing foree applied by the spring ean be adjusted by the u~er without dismounting the housing.
Embodiments of the invention will now be deseribed with referenee to the aeeompanying sehematieal drawings in whieh .

212a722 Fig. 1 is a schematic view of a first embodiment of a window operator according to the present invention, with the housing cover removed;
Fig. 2 is a schematic view of a second embodiment 5 of a window operator according to the present invention, with the housing cover removed;
Fig. 3 is a schematic view of a third embodiment of a window operator according to the present invention, with the housing cover removed;
Fig. 4 is a schematic view of the window operator of Fig. 3 with an operating handle shown in exploded position and an internal central cover plate removed;
Fig. 5 is a schematic top view of the window operator of Fig. 3, with the housing cover in place;
Fig. 6 is a cross-section of a por~tion of a window sash to which the operator embodying the present invention is connected;
Fig. 7 is a-perspective view of an electric drive unit for the window operator;
Fig. 8 is a schematic vi~w of a fourth embodiment of a window operator embodyin~ the present invention, with the housing cover removed; :-Fig. 9 is an enlarged view of a mounting member of the embodiment of Fig. 8;
Fig. 10 is a right side view of the mounting member of Fig. 9;
Fig. ll is a schematic view of a fifth embodiment of a window operator embodying the present invention, with an operating handle shown in exploded position and 30 the housing cover and an internal central cover plate removed;
Fig. 12 is a schematic view of a sixth embodiment of a window operator according to the present inventi-on, with an operating handle shown in exploded position and .

212~7~2 the housing cover and an internal central cover plate removed;
Fig. 13 is a partial schematic view of a seventh embodiment of a window operator according to ~ha present 5 invention, with the housing cover and a link member removed; and Fig. 14 is a partial schematic view of an eighth embodiment of a window operator according to the present invention, with the housing cover and a link member removed.
Common features of all the embodimentæ of the counterbalanced window operator according to the present invention which are illustrated in the drawings are that a connection between a sash of a window and an operator housing ll (or lla in the embodiments of Figs. 11 and 15 12), which is mounted, e.g., at a bottom member of the main frame of the window, is provided by two pivoting arms 7-8 and 7a-Ba, respectively, one end of which is pivotally journalled about a pivot point in the housing 11, lla. The other end of each pivoting arm 7-8, 7a-8a 20 is pivotally connected with a bottom member S of the sash by means of slide shoes 2a-2b slidably displaceable in the longitudinal direction of that member in tracks of a track member T secured on the bottom member S, as can be seen from Fig. 6.
Since a cover for the housing is removed from most of its drawing figures for purposes of illustration, it can be seen that the drive members for the opening movement are wheel-gears 3, 4 mounted for rotation in the housing 11 or lla, the gears having peripheral teeth 30 engaged by a rotatable worm member l operated by cranking the handle 2 (Figs 4, 11 and 12). The handle 2 is received in driving engagement in an end of the worm member l. A thrust bearing (not shown) is provided to prevent axial movement of the worm member 1, whether 35 the worm member is rotated clockwise or ,.~ .

, -~ 2~2~722 counterclockwise. An internal central cover plate 10 covers portions of the worm member 1 and the gears 3, 4.
The connections between the gears 3, 4 and the 5 pivotal arms 7-8, 7a-8a are provided by a symmetrical pair of links 5-6, 5a-6a, respectively, each link having one end pivotally and eccentrically connected with the associated gear 3, 4 and another end pivotally connected with the respective arm 7-8, 7a-8a, respectively, at a 10 point located some distance from the end of the arm pivotally journalled in the housing 11, lla.
In each illustrated embodiment, a symmetrical arrangement of a counterbalancing torsion spring mechanism is provided to facilitate the opening movement 15 of the window by compensating for the weight of the window.
The worm member 1 can be operated either by the manually manipulable handle 2 or by an electric drive unit M (Fig. 7). The worm member 1 is engaged on 20 diametrically opposite sides by the gears 3 and 4, each of which is connected via the link member 5-6, 5a-6a, respectively, with one of the operator arms 7-8, 7a-8a, respectively. For the operator arms 7-8, 7a-8a, common features are that a first end 9, 9a of each arm is 25 pivotally and slidably connected with the track T on the bottom member S of the sash by a slide shoe 2a-2b, whereas a second end 10, lOa is connected with a pivot point 12, 12a, 12b stationarily located in the hous~ng 11, lla. In Fig. 1, the operator is counterbalanced by 30 a torsional spring 13 mounted on a stationary pin 14 in the housing 11 between pivot points 12. The spring 13 has legs, or fingers, 15 and 16 engaging a respective one of the operating arms 7 and 8 relatively close to pivot point connections 17 and 18 between the link 35 members 5 and 6 on the arms 7 and 8. The ends of the :: : ~ :
~ ~' ~125722 legs 15, 16 curve around edges of the operating arms 7 and 8 and might slide relative thereto.
Fig. 2 shows a structure similar to that of Fig.
1 with the different being that a torsional spring 13a S with legs 15a and 16a is mounted on the pins forming pivot points 12a for the operating arms 7 and 8. The ends of the legs 15a, 16a curve around edges of the operating arms 7 and 8 and might slide relative thereto.
As can be seen from Fig. 2, the spring legs 15a and 16a 10 will assume a curved shape.
Figs. 3 and 4 show a structure in which two torsional springs 19 and 20 are used. Each spring is mounted on a stationary pin 22 in the housing and has one finger 23 connected at its free end to a slide shoe 15 24 engaging a side edge of a respective operating arm 7,8 and another finger 25 resting against a side wall - 26 of the housing 11. Each slide shoe 24 has a slot 24a (Fig.5) on the side facing the side edge of the respect-ive operating arm to receive the arm. Fig. 5 is a side 20 view of the operatcr of Figs. 3 and 4 serving to illustrate the ~ery compact nature of the window operator embodying~the present inve~tion, In Fig. 5-, a cover 11' for the housing 11 is shown in place.
Fig. 7 shows an electric drive unit M which~can be 25 connected to the worm member 1 to drive the worm member, instead of using the handle 2.
Fig. 8 shows an embodiment in which an arrangement for adjusting the counterbalancing of the operating arms 7 and 8 is provided in the form of a series of holes 27 30 spaced in the longitudinal direction along each of the operating arms 7 and 8. The holes 27 are adapted to receive a mounting member 28 which can be fitted in any of the holes 27. As can best be seen from Fig. 9,-the mounting member 28 has a bore 29 which slidably receives 35 a corresponding spring finger l5b, 16b. As can best be 212~722 :

seen from Fig. 10, each mounting member 28 includes a projection 28a which is removably received in any of the holes 27. The projection 28a fits snugly in the holes 27, but in a manner which permits the mounting member 5 28 to pivot. By moving each mounting member 28 from one hole 27 to another, the user can adjust the spring force exerted on the operating arms 7, 8 without access to the interior of the housing 11. The positioning of the mounting members 28 in the holes 27 nearest the pivot 10 points 12 of the operating arms 7, 8 provides the greatest counterbalancing force becausP the effective length of the spring legs 15b, 16b is reduced. There-fore, the force of the spring 13b is not as soft as when the mounting members 28 are placed in the farthest holes 15 27. Holes 27 might also be placed on the link members 5 and 6 to increase the torque of the spring 13b by bigger steps, because the torque delivered by the same torsion spring depends on the angle between the two legs.
20The embodiments illustrated in Figs. 13 and 14 are similar to the embodiment of Figs. 3-5, except that a mechanism is provided for adjusting the counterbalancing force exerted by the springs 19 and 20 on the operating arms 7 and 8. In Figs. 13 and 14, the link member 5 has 25 been removed for the purpose of clearly illustrating the mechanisms. In the embodiment of Fig. 13, an interposed layer, or shim, 25a is positioned between the finger 25 of the torsional spring 19 and the side wall 26 of the housing 11. In the embodiment of Fig. 14, the mechanism ;30 for ad~usting the counterbalancing force of the spring 19 is an ad~usting screw 25b arranged in a threaded bore in the wall 26 of the housing 11. By turning the ..
adjusting screw 25b in one direction or the other, the ~ ~
end of the spring leg 25 will be displaced to adjust the i-35 counterbalancing force. For the embodiments of both : ::

212a722 Figs. 13 and 14, the mechanism for adjusting the counterbalancing force can be described only in relation to the counterbalancing spring 19, shown on the left side of the casings 11. It is understood that a like S counterbalancing mechanism can be provided at the right side of the casing 11 to adjust the counterbalancing force of the counterbalancing spring 20, which is positioned at the right side of the housing 11.
Figs. 11 and 12 show embodiments in which pivot 10 points 12b for the second end of each operating arm 7a and 8a have been displaced to opposite ends of the housing lla so that operating arms 7a and 8a cross each other. With crossing arms, it is possible to use longer operating arms. This is advantageous in windows where 15 the distance between the sides of the main frame is small. 8y using longer arms, such window can be opened as far as bigger windows. For these embodiments, it is important that the track member T have two tracks, as is shown in Fig. 6, because the crossing of the arms 7a, 20 8a requires two tracks. In the embodiments of both Figs.
11 and 12, two torsion springs are enclosed. In Fig. 11, the springs l9a and 20a are each mounted on a separate stationary pin 30 in the housing lla, each spring having a finger 23a engaging a side edge of the corresponding 25 operating arm 7a, 8a and a finger 25a resting against a side wall 26a of the housing lla. In Fig. 12, torsion springs l9b and 20b are mounted on the pins 12b forming the pivot points. In Figs. 11 and 12, the torsion springs again assume a curved shape. The ends of the 30 springs 20a and 20b curve around the edges of the associated operating arms 8a, 9a and slide relative ~- thereto.
In all embodiments, the operator is of a very compact design suitable for easy installation, even with 35 existing window frames.
. . .

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It will be apparent to those skilled in the art and it is contemplated that variations and/or changes in the embodiments illustrated and described herein may be made without departure form the present invention. According~
5 ly, it is intended that the foregoing description is illustrative only, not limiting, and that the true spirit and scope of the present invention will be determined by the appended claims.

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Claims

1. A compact window operator for opening and closing a window having a generally rectangular main frame and a generally rectangular sash mounted for pivoting movement relative to the main frame about a pivot axis generally parallel to a pair of opposed sides of said sash, comprising:
an essentially closed housing (11) which is fixed with respect to said main frame, at least one arm (7,8) connected at a first end with one of the said opposed sides of the sash and pivotally connected at a second end with a pivot point which is stationarily located inside said housing (11), and means arranged inside said housing for moving said arm about the pivot point, said moving means comprising a rotatable drive member (1) journalled for rotation in said housing and a rotatable transmission member (3,4) operatively connected with said arm and being engaged by said drive member (1) to be rotated upon rotation of said drive member whereby to cause said arm to pivot about said pivot point, characterized in that torsional spring means (13) is operatively connected between a first point (14) fixed with respect to said housing (11) and a second point engaging a part of said arm outside said housing for providing a counterbalancing force counteracting a weight component of the window.

2. The window operator of claim 1, characterized in that torsional spring means comprises a torsion spring (13) secured about a stationary pin (14) in said housing, said torsion spring (13) having a finger (15,16) engaging said arm in said second point.

3. The window operator of claim 1 or 2, charac-terized in that said second point is formed by a shoe member (24) which is slidably displaceable in the longitudinal direction of said arm.

4. The window operator of claim 1 or 2, charac-terized in that means (27,28) are provided for dis-placement of said second point in the longitudinal direction of said arm (8) for adjusting said counterbal-ancing force without dismantling said housing.

5. The window operator of claim 4, characterized in that said displacement means comprises a series of holes (27) distributed in the longitudinal direction of said arm (8) and a mounting member (28) fitting relea-sably in any of said holes and having a bore (29) adapted to slidably receive an end of said finger of said torsion spring.

6. The window operator of any of claims 1 to 5, characterized in that said first end of said at least one arm is adapted for sliding connection with the sash of the window, whereas said pivot point is provided at a second end of said arm and located in said housing.

7. The window operator of any of claims 1 to 6, characterized by two of said arms.

8. The window operator of claim 7, characterized in that the pivot points (12a) for said second ends of said two arms are located close to each other in a central part of said housing.

9. The window operator of claim 8, characterized by a single torsion (13) spring having two of said legs (15,16), each of said legs engaging a respective one of said arms (7,8), said stationary pin (14) being arranged between said pivot points.

10. The window operator of claim 7, characterized in that the pivot points (12b) for said second ends of said two arms are located remote from each other at opposite ends of said housing (11a).

11. The window operator of claim 8 or 10, charac-terized by individual torsion springs (23) for each of said two arms (7,8), each of said torsion springs having a second finger (25) engaging a stationary part (26) of said housing (11).

12. The window operator of any of the preceding claims, characterized in that said moving means further comprises a manually manipulatable member (2) connected to said drive member (1) for manual rotation of said drive member.

13. The window operator of any of claims 7 to 11, characterized in that said moving means further compri-ses an electrically powered drive unit (14) connected to said drive member (1) for rotating said drive member.

14. The window operator of any of claims 7 to 11, characterized in that said drive member comprises a worm member (1) and said transmission member comprises two separate gears (3,4) engaging said worm member at diametrically opposed sides thereof, each of said gears being operatively connected with a respective one of said arms (7,8) through a link member (5,6) pivotally connected with said gear and said arm.

15. The window operator of claim 4, characterized in that said second point is slidable along said part of said arm.