1. Field of the Invention
The present invention relates generally to sash windows, and more particularly to a single-hung or double-hung window having at least two sashes supported in vertical juxtaposition within a window frame.
2. Description of Related Art
Sash windows adapted to be mounted in an opening in the exterior wall of a commercial or residential building are known as single- or double-hung windows having a pair of upper and lower sashes. A typical example of such known sash windows is described in U.S. Pat. No. 6,826,871 B2 which comprises a window frame including a head member, a sill member and a pair of jamb members connected together into a rectangular configuration, and a pair of sashes each having a sash frame including a top rail, a bottom rail and a pair of side rails connected together into a rectangular configuration, and a panel member of glass disposed within the sash frame. The window frame members and the sash frame members are formed from an elongated strip of extruded highly rigid plastic such as PVC (polyvinyl chloride). Four such elongated strips are assembled together into a rectangular frame by welding together mating ends thereof.
In many cases, joining between the head member and each jamb member is accomplished by first cutting an end of each of the head and jamb members at an angle of 45 degrees relative to a longitudinal axis of the head or jamb member and subsequently welding together the cut or beveled ends of the head and jamb members to form a miter joint. With this joining structure, since the beveled mating ends of the head and jamb members being welded together have a common cross-sectional shape, a sufficiently large structural strength can be obtained.
On the other hand, joining between the sill member and each jamb member is accomplished by first cutting an end of the jamb member at right angles to the longitudinal axis of the jamb member and subsequently welding the cut end of the jamb member to an upper surface of the sill member to form an end-butt joint. This joining structure is employed mainly for a reason that a sill member arranged to extend over the entire width of the window frame is preferred from an aesthetic viewpoint as compared to a sill member miter-joined with each jamb member in the same manner as the head member. The end-butt joint used for joining each jamb member to the sill member cannot provide a strength comparable to that of the miter joint formed between the head member and each jamb member, however, the miter joint when used as a joint between the sill member and each jamb member would reduce the commercial value of a finished sash window due to its less preferable appearance.
A significant advantage of the present invention is to provide a sash window which is highly satisfactory in terms of the strength and aesthetic appearance.
In an embodiment of the invention, there is provided a sash window comprising a window frame including a head member, a sill member and a pair of jamb members connected together into a rectangular configuration; at least one sash having a sash frame including a top rail, a bottom rail and a pair of side rails connected together into a rectangular configuration, and a panel member disposed within the sash frame; and a facing member covering an exterior side of the sill member and extending horizontally between opposite side ends of the window frame.
Preferably, a joint between the sill member and each of the jamb members at least partly includes a miter joint, and the facing member covers at least part of the miter joint.
In one preferred form of the invention, the window frame comprises a plurality of window frames disposed in horizontal juxtaposition with each other, and the facing member is configured to extend continuously over the entire width of the horizontally juxtaposed window frames.
The facing member, which is exposed to view at the exterior side of the sill member, is a separate part structurally independent from the sill member. It is therefore possible to cover a joint between the sill member and each jamb member even when the joint takes the form of a miter joint. Thus, both advantageous strength and advantageous aesthetic appearance can be provided concurrently. Furthermore, even when the sash window includes two or more window frames disposed in horizontal juxtaposition, only a single facing member may be used by properly selecting a length thereof. This adds to an aesthetic value of the sash window. The facing member may be replaced by another facing member with a different design and/or projecting length. It is therefore possible to enjoy various different design patterns for each individual window frame by changing the facing member.
Preferably, the facing member is attached to the sill member via at least two tongue-and-groove fitting structures.
It is preferable that outermost two jamb members which are disposed at opposite side ends of the horizontally juxtaposed window frames and remaining jamb members which are disposed in pairs at respective adjoining areas of the horizontally juxtaposed window frames are substantially identical in structure, and the remaining jamb members in each pair are connected together back to back via a joint. This arrangement eliminates the need for provision of a separate jamb member such as a mullion at each adjoining area of the horizontally juxtaposed window frames.
Preferably, at least one of the head member, the sill member and the pair of jamb members includes a first attachment portion adapted to attach the window frame to a building wall in a depth direction of the sash window, and a second attachment portion adapted to attach the widow frame to the building wall in a width direction of the sash window. The first attachment portion and the second attachment portion are used selectively. Because of the first and second attachment portions, it is no longer necessary to provide two different types of frame members, one being designed exclusively for attachment in the depth direction and the other being designed exclusively for attachment in the width direction.
The head member, the sill and the pair of jamb members are adapted to be supported on a head support portion, a sill support portion, and a pair of jamb support portions, respectively, of a building. Preferably, at least one of the head member, the sill and the pair of jamb members includes a base member adapted to be secured to a corresponding one of the support portions, and a frame body connected to the base member and covering the base member.
In one preferred form of the invention, the base member is adapted to be secured to the corresponding support member by one of nailing, screw clamping, adhesive bonding, pressure-sensitive adhesion, welding and a combination thereof, and the frame body and the base member are detachably connected together via a tongue-and-groove fitting structure. Since the base member is covered by the frame body, it is possible to freely select a suitable securing method among those specified above for the attachment of the base portion to the support portion of the building. This ensures that the base member can be firmly secured to the support portion without deteriorating the appearance of the window frame as a whole.
The at least one sash may comprise a plurality of sashes in which instance at least one of the plurality of sashes is a movable sash slidably movable either along the head and sill members or along the pair of jamb members, and a lock device is provided on one of the top, bottom and side rails of the movable sash for locking the movable sash in position against movement relative to another sash or the window frame. The window frame has a recessed portion formed at a portion thereof facing the lock device and accommodating the lock device when the movable sash is in a fully open position. With this arrangement, since the lock device does not interfere with the window frame when the movable window is in its fully open position, it is possible to maximize the area of an opening provided when the movable sash is fully opened.
In one preferred form of the invention, the least one sash comprises a plurality of sashes and at least one of the plurality of sashes is a fixed sash in which instance a pair of attachment members are disposed at opposite lower corner portions of the fixed sash firmly securing the fixed sash to the window frame. Each of the attachment members includes a generally rectangular body having one surface facing a respective one of the jamb members, a retaining portion for retaining a part of the fixed sash, a through-hole extending diagonally from a side opposite to the retaining portion to the one surface of the body, and an attachment screw received in the through-hole and threaded into the jamb member.
Preferably, the through-hole is a stepped hole including a small-diameter portion having an inside diameter having a size to allow passage of a shank of the attachment screw but block passage of a head of the attachment screw, and a large-diameter portion having an inside diameter having a size to accommodate therein the attachment screw including the head, the large-diameter portion including a retainer projection projecting from a circumferential surface of the large-diameter portion in interlocking engagement with the head of the attachment screw to retain the attachment screw within the through-hole.
By using the attachment member, the screw-tightening operation can be effected from a diagonal direction, which provides a larger space for manipulation of a tool such as screwdriver and hence is higher in efficiency than the conventional operation effected in a horizontal direction. Furthermore, since the attachment screw is accommodated in advance within the attachment member and kept free from removal or omission, the sash mounting operation can be achieved with high efficiencies. Additionally, since the upper sash is firmly secured to the window frame via the attachment members, it is possible to prevent objectionable spreading or deformation which may otherwise occur during transportation or construction. Embodiments of the present invention may have various features or aspects and provide various advantages. Any of the features, aspects and advantages of the present invention may be desired, but, are not necessarily required to practice the present invention.
A preferred structural embodiment of the present invention will be described in detail herein below, by way of example only, with reference to the accompanying sheets of drawings, in which:
The general arrangement of a single-hung window 1 constituting a sash window according to an embodiment of the present invention will be described below in greater detail with reference to
As shown in
As shown in
In the illustrated embodiment, each of the lower sashes 30 is supported and guided by the jamb members 13, 13 of respective one of the window frames 10 for vertical sliding movement along the jamb members 13 to open and close the window 1, whereas each of the upper sashes 20 is fixed while being positioned by the head member 11 and the jamb members 13 of respective one of the window frames 10 (single-hung type). Each of the upper sashes 20 and a mating one of the lower sashes 30 may be guidedly supported by the jamb members 13, 13 of respective one of the window frames 10 for vertical sliding movement along the jamb members 13 to open and close the window 1 (double-hung type).
The window 1 further includes a movable or fixed wire screen 27 disposed within each window frame 10 at an exterior side thereof. The screen 27 may be omitted as appropriate. The window 1 may further include a fixed or drawable blind disposed on the interior side of each window frame.
The single-hung window 1 is in a fully closed state when the lower sashes 20 are in a lower limit position of vertical movement. In this state, the bottom rail (outer meeting rail) 22 of each upper sash 20 and the top rail (inner meeting rail) 31 of a mating one of the lower sashes 30 are overlapped in the depth direction of the window 1. The top rail 31 of the lower sash 30 has a crescent lock 35, and the bottom rail 22 of the upper sash 20 has a crescent keeper 25 so that when the crescent lock 35 is engaged with the crescent keeper 25 with the upper and lower sashes 20 and 30 placed in a closed state, the single-hung window 1 in the fully closed state is locked in position.
As shown in
As shown in
As shown in
As shown in
Each of the lower sashes 30 is vertically slidable with the support devices 40 and the latch devices 50 guidedly received in the tracks 13A of the jamb members 13 of respective one of the window frames 10. Furthermore, when the latch devices 50 on each lower sash 30 are manually operated to disengage from the jamb members 13, the lower sash 30 becomes pivotable inwardly as the pins 42 of the support devices 40 serve as pivot shafts on the lower sash 30. In order to limit pivotal movement of the lower sash 30 in an inward direction of the window 1, each of the side rails 33 of respective one of the lower sashes 30 and a corresponding one of the jamb members 13 of each window frame 10 are connected together by an arm (not shown).
By tilting the lower sash 30, an outside surface of the lower sash 30 can be cleaned from the room interior side of the window 1. In general, the foregoing pivot operation is applied only to the lower sash 30 for enabling cleaning of the outside surface of the lower sash 30. This is because an outside surface of each upper sash 20 is readily accessible for cleaning when a corresponding one of the lower sashes 30 is in the open state. However, the upper sashes 20 may be configured to become pivotable.
In the illustrated embodiment, the head, sill and jamb members 11, 12 and 13 of the window frames 10 and the top rails 21, 31, bottom rails 22, 32 and side rails 23, 33 of the upper and lower sashes 20, 30 are extrusion molded from synthetic resin into elongated members of particular cross-sectional shapes or profiles shown in the drawing figures, the elongated members being subsequently assembled together into rectangular frames. The synthetic resin material may include polyvinyl chloride (PVC). The material for the window frames 10 and sashes 20, 30 should not be limited to the synthetic material but may include wood, metal such as aluminum alloy, or a combination of these materials.
As described above, the single-hung window 1 is of the dual-type in which two window frames 10 are disposed side by side or in horizontal juxtaposition. The head and sill members 11 and 12 of each window frame 10 are firmly secured to upper and lower support portions 9, respectively, at a window opening of a building frame. Outermost two jamb members 13 that are located at opposite side ends of the window 1 are also firmly secured to side support portions 9 at the window opening of the building frame. Each of the head member 11, sill member 12 and outermost jamb members 13 is secured to respective one of the support portions 9 via a base member 19. In terms of the attachment of each window frame member 11, 12, 13 to the corresponding support portion 9, the base member 19 forms a part of the window frame member 11, 12, 13, and the window frame member 11, 12, 13 itself forms a body of the window frame member.
In
The base member 19 comprises an extruded article of synthetic resin or aluminum alloy and includes an elongated plate-like body having a joining projection 19A and an auxiliary projection 19B formed on one surface of the plate-like body and extending on and along a central portion thereof over the entire length of the plate-like body. An area of the base member 19, which is defined between the joining and auxiliary projections 19A and 19B, is made thicker than neighboring areas of the base member 19. The sill member 12 has on its under side a longitudinal groove 12C in which the joining projection 19A of the base member 19 is fitted.
By using the base member 19, the sill member 12 is attached to the support portion 9 of the building frame in a manner as described below. At first, the base member 19 is firmly secured to an accurate position on the support portion 9. Subsequently, the sill member 12 is placed above the base member 19 with the groove 12C held in vertical alignment with the joining projection 19A of the base member 19. Thereafter, the sill member 12 is forced downward so that the joining projection 19A fits into the groove 12C to thereby join the sill member 12 and the base member 19. The sill member 12 is now fixed at an accurate position on the support member 9 via the base member 19. The foregoing sill attachment work or process is simple and does not involve deterioration of the appearance because the fixing means are not exposed to view.
The foregoing description pertains to the attachment of the sill member 12 to the support portion 9 of the building frame. In the illustrated embodiment, however, the same attachment structure using the base member 19 is also applied to the head member 11 having a groove 11C and the outermost two jamb members 13.
The foregoing attachment structure involving the use of a base member 19 may be replaced by other attachment structures as will be discussed below. As shown in
Two jamb members 13, which are disposed intermediately between the outermost jamb members 13 and located at an adjoining area between the two horizontally juxtaposed window frames 10, are identical in structure to the outermost jamb members 13. The intermediate jamb members 13 are connected together back to back via joint members 71, 72, as shown in
The joint member 71 has opposite side surfaces complementary in contour to the back sides of the respective intermediate jamb members and is connected to the intermediate jamb members 13 via a plurality of tongue-and-groove fitting structures 71A, 71B. The term “tongue-and-groove fitting structure” is used herein in a comprehensive sense, i.e., to broadly refer to fitting structures or joints in which a projecting rib on one of the joint member 71 and each intermediate jamb member 13 fits into a groove in the other of the joint member 71 and the intermediate jamb member 13. The projecting rib may have an enlarged head or a lateral projection that is interlocked with a retaining edge of the groove when the rib and the groove are snap-fit with each other. The joint member 71 is provided with a seal member (weatherstrip) 71C disposed on a central portion of each of the side surfaces thereof for sealing contact with a respective one of the intermediate jamb members 13.
The joint member 72 is connected to an interior side of the joint member 71 via a tongue-and-groove fitting structure 72A so as to cover a joint on the interior side of the two adjoining window frames 10 and 10. On the exterior side of the two adjoining window frames 10, the intermediate jamb members 13, 13 are held in direct abutment with each other.
The single-hung window 1 in the illustrated embodiment takes the form of a dual-type in which two window frames are disposed side by side, however, the sill members 12 are provided one for each of the window frames 10. Thus, the sill members 12 of the single-hung window 1 are separated at a central portion of the single-hung window 1 (i.e., an adjoining area between the two window frames 10). As shown in
The sill nose 80 is an extruded article of synthetic resin such as PVC, wood, or aluminum alloy, which is the same material as the sill members 12. As shown in
As shown in
As shown in
The miter joint part (lower part) of the shoulder miter joint is covered by the sill nose 80. The sill nose 80 has a cutout recess 83 for accommodating the outer peripheral side of the jamb 13 so that the sill nose 80 is in close contact with the sill member and the jamb member 13. The sill nose 80 conceals the miter joint part of the shoulder miter joint from view.
As previously described with reference to
To deal with this problem, the head member 11, as shown in
Each of the fixed upper sashes 20 is supported within respective one of the window frames 10 in vertically spaced relation to the sill member 12 so as to close an upper half of an opening defined by the window frame 10. To achieve such supporting, a pair of attachment members (sash bracket) 90 is incorporated in the jamb members 13, respectively, of each window frame 10 for supporting the upper sash 20 at opposite lower ends thereof.
As shown in
The through-hole 94 is a stepped hole including a small-diameter portion 94A and a large-diameter portion 94B separated by a step. The small-diameter portion 94A opens at the side surface of the quadrangular prismatic bracket body 91 and has an inside diameter which is larger than an outside diameter of the threaded shank 99A of the attachment screw 99 and smaller than a minimum outside diameter of an enlarged head 99B of the attachment screw 99. The large-diameter portion 94B opens to the lower surface of the arm 92 and has an inside diameter larger than a maximum outside diameter of the enlarged head 99B of the attachment screw 99. The attachment member 90 further has a retainer projection 94C formed on a circumferential surface of the large-diameter portion 94B of the stepped through-hole 94. The retainer projection 94C is formed by punching a corresponding part of the attachment member from outside to the extent that a distance between the retainer projection and a portion of the circumferential surface of the large-diameter portion 94B which is diametrically opposite to the retainer projection 94C is smaller than the minimum outside diameter of the enlarged head 99B of the attachment screw 99. The punching process to form the retainer projection is effected under conditions that the attachment screw 99 is received in the stepped through-hole 94 with the enlarged head 99B displaced from a predetermined punching position on the attachment member 90 toward the small-diameter portion 94A. After the punching process, the attachment screw 99 is automatically retained within the through-hole 94 through interference engagement with the retainer projection 94C.
The attachment member (sash bracket) 90 of the foregoing construction is fitted on each of lower end corners of respective one of the upper sashes 20 and attached to an adjacent one of the jamb members 13 to thereby secure the upper sash 20 in position within the window frame 10. To this end, as shown in
By using the attachment member 90, the screw-tightening operation is achieved from a diagonal direction, which will increase the efficiency of a sash mounting work or operation. Furthermore, since the attachment screw 99 is accommodated in advance within the attachment member 90 and kept free from removal or omission, the sash mounting operation can be achieved with high efficiencies.
The present invention should not be limited to the embodiment described above. Rather, various changes and modifications are possible for each structural part of the present invention. Furthermore, the base member 19, joint members 71, 72, sill nose 80 and attachment member 90 may be incorporated in other window frames than the window frame 10 in the illustrated embodiment. For instance, these members can be also effectively applied to horizontal sliding windows, fixed windows or the like.
It should be understood that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present invention and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.
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Number | Date | Country | |
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20070157520 A1 | Jul 2007 | US |