GB2108186A - Slats for roller shutter doors - Google Patents

Abstract

A roller shutter door comprises a plurality of horizontal panels with interengaged curled longitudinal edges to provide hinge action between the panels with strips of resilient material under a compressive load in the hinge joints to substantially eliminate slackness. A method of assembling such doors comprises inserting a strip of resilient material in the curl of a first panel and applying a longitudinal load to the material to cause it to adopt a reduced cross-sectional size followed by the longitudinal insertion of the curl of a second panel into the curl having the stressed material therein and then releasing the load on the material to allow it to urge the curls of the interengaged panels into firm contact one with the other. A method of connecting posts, panels and frames is also disclosed. <IMAGE>

Description

SPECIFICATION Slats for roller shutter doors This invention relates to doors of the type which act as curtains to openings and which are stored following an opening operation in a vertical direction as a roll on a core which rotates on a horizontal axis. Roller doors and roller shutter doors are the most common form of the above door type.

Roller doors are commonly formed of a flexible sheet metal panel or several panels rigidly joined to form a full door panel. The door has transverse reinforcing ribs which provide lateral strength without detracting from the flexibility needed in the panel for it to roll around the core. Because the door must flex in order to roll the thickness of the metal has to be maintained within carefully chosen limits. This is also a consideration in the case of panels joined to form a full door panel, the zones adjacent the joins tend to rigidify because of the several thicknesses of metal involved in the joint.

The ends of the door panel, the vertical edges of the panel, run in channel guides with minimum clearances to limit buckling of the door panel when a lifting effort is applied to the bottom edge of the door in a door opening operation. Nevertheless the door panel can buckle to some extent and the degree of buckling is directly related to the effort required to raise the door. Such doors have a minimum diameter core about which they can be conveniently rolled. These then are the problems with roller doors.

Another form of roller door in the market place is one which has a sandwich section comprising an outer flat sheet metal skin, a like inner skin and an intermediate layer of flexible material. Doors so constructed have the disadvantages of the above described roller doors but in addition are in many cases unable to roll on a core as small as that for use with the first described roller door.

Overhead space saving considerations in home unit and like garages has reached the point where a standard roller door when rolled up cannot be accommodated above the head of the doorway and some of the rolled up door protrudes into the door opening thereby reducing the available headroom. Accordingly there is a need for a roll up type of door which can roll onto a smaller core than that required for a conventional roller door as described above. A roller shutter door, as distinct from a roller door, can roll onto a small diameter core for reasons that will now be explained, but roller shutter doors as now known have disadvantages.

A roller shutter door is one which comprises a plurality of slats with curled longitudinal edges so shaped as to permit slats to be edge connected in a hingeing manner. Such doors can be made very strong, from heavy gauge metal, because the ability to roll up onto a core is not releated to the flexibility of the material from which it is made. The hinge connections can be arranged to permit the door to be rolled onto a core as little as half the diameter of the core of a roller door. This door form is thus very attractive for low headroom installations. The drawvacks of this form of door are as follows. Because of the need to have working clearance between the interengaging curled edges a rattle can be set up when the door is being raised or lowered.

It can also occur when the door is closed and flexed by a gusting wind. The working clearance of the hinge connections permits the door to buckle and to bear on the walls of the channel tracks guiding the ends of the door if a door opening effort is applied to the bottom of a closed door. This makes the opening of the door in this manner heavy work and impractical. For this reason roller shutter doors have been opened in the past by means of a rope or chain wrapped around a pulley fixed to the shaft supporting the core. The raising effort thus results in a tension lifting force in the door panel rather than a compressive force.Some attempts have been made to overcome the buckling problems by making the clearances between the sides of the guide channels and the slats less, such efforts have not been very successful for whilst buckling was decreased the effort to raise the door increased dramatically.

Another problem inherent in roller shutter doors is that some means must be provided to prevent longitudinal relative movement between engaged slats. This problem has exercised the minds of many inventors and a number of patents have been obtained for such means, patents 245513 abd 411669 are representative.

This invention overcomes in a simple and efficient manner the problems which have made unattractive the use of roller shutter doors in areas where rattling is offensive and where lift opening of the door is desirable. As a further advantage of the invention the complicated methods adopted by others to prevent free longitudinal relative movement between the slats of a roller shutter door are no longer required.

The invention provides a form of roller shutter door and methods of assembly which can be broadly defined as follows.

A shutter comprising a plurality of elongated breadthwise extending slats each with a front face and a back face, each slat having an open edge curl on each of its long edges, one curl of each slat being a forward curl directed towards the front face of the slat and the other curl being a rearward curl directed towards the back face of the slat, the curls being so shaped and dimensioned as to enable a forward curl of one slat to co-act with the rearward curl of an adjacent slat to provide a hinged connection between the two joined slats enabling limited relative angular movement between the joined slats, and strips of compressed resilient material extending the breadth of the shutter and located in each of said hinged connections between adjacent inner surfaces of the co-acting curls thereof.

A method of assembling elongated slats to form a shutter, said method comprising the steps of providing a plurality of elongated slats each with a front face and a back face and an open edge curl along both long edges of each slat with one curl being a forward curl directed towards the front slat face and the other being a rearward curl directed towards the back face of the slat, the curls being so shaped and dimensioned as to enable a forward curl of one slat to co-act with the rearward curl of an adjacent slat to provide a hinged connection between the two adjacent slats enabling limited angular movement between the inter-connected slats, inserting a length of resilient material in the curl of one slat, applying a longitudinal force to the length of resilient material to cause its crosssectional dimension to be reduced, inserting the curl of the adjacent slat into the curl of the slat in which the length of resilient material is housed and so that the length of resilient material lies between inner surfaces of the inter-engaged curls of the slats, releasing the longitudinal force from the length of resilient material allowing it to recover to cross-sectional shape and size determined by the space between the inner surfaces of the interconnected curls.

The invention will now be described with reference to the accompanying drawings in which:~ Figure 1 illustrates a sectional end view of two interengaged slats of a plurality of like slats assembled to make a roller shutter according to the invention; Figure 2 shows an enlarged view of the engaged curled edges of the slats illustrated in Fig. 1; Figure 3 shows an enlarged view of one curled edge of a slat in which there is housed a length of resilient material; Figure 4 shows a curled edge of another slat being inserted into the Fig. 3 arrangement; Figure 5 illustrates the curls of two slats and a method of interconnecting them;; Figure 6 illustrates the use of the methods adopted for retaining adjacent shutter slats in a required relative position to the retention of a panel in a frame and Figure 7 illustrates the use of the method adopted for retaining adjacent shutter slats in a required relative position to the coupling together of two members.

There is illustrated in Fig. 1 an interconnection between two slats A and B of conventional form each comprising a convex central frontal portion 1 which blends into an open curl 2 at one end directed to the front face of the slat. At the other end the portion 1 blends into a frontal valley 3 which in turn blends into an open curl 4 directed to the rear face of the slat.

The shape and size of the curl 2 is such that it can rotate within the curl 3 within which it is housed thereby allowing a limited amount of relative angular movement between the interconnected slats.

There is strip of resilient material 5 located under compression between the inner faces of the interconnected curls 2 and 4. The slats are preferably made of metal, but may be moulded from plastics material. The profile of the slat in cross-section can vary but that shown provides good resistance to bending.

The curls must be compatible but may vary from the shape illustrated. The strip 5 is preferably made of rubber of circular crosssection and is highly elastic. The diameter of the strip 5 is greater than the spacing between the inner faces of the two interconnected curls.

The curls may be of two different forms, one form permits only one method of assembly of two slats one with the other and the other form permits the assembly technique of the first form and another mode of assembly.

The first form of the curls is shown in Fig. 2 where it will be seen that the shape of the curls prevents a ''roll over" disengagement of the curl of slat A from that of Slat B in the direction of the arrow shown due to contact at least at two of the points X. With curls of the illustrated form longitudinal relative sliding engagement of the curls is necessary to achieve interconnection of the two slats. The shape of the curls is such however as to allow an angular relationship between the slats sufficient to permit a shutter made from a plurality of slats to roll around a core of small diameter compared to that of a core required to roll up a roller door as hereinbefore described.

One method of assembling slats with a resilient strip 5 is as follows. The strip 5 is located in the curl 4 of slat A as shown in Fig.

3. A tensile force is applied to the strip 5 to cause it to become smaller in cross-section and become smaller in diameter as illustrated.

The crescent between the two circles represents the reduction in cross-sectional area as a result of the tensile force.

The curl 2 of the slat B is then inserted into the curl of slat A in a sliding action, as wil be seen from Fig. 4 this action is unhindered by the stretched strip 5. When aligned endways with the slat A the tensile force on the strip 5 is released and it expands to take up the space between the inner faces of the interengaged curls. As will be seen from Fig. 1 the strip 5 takes up a shape determined by the shape of the opening between the inner faces of the curls, which is not perfectly circular.

In the other method of assembly the introductory steps are the same, inserting the strip 5 and applying a tensile force. The method of inserting the curl 2 into the curl 4 is as shown in Fig. 5. It involves a hook-in roll-over action followed by the relaxation of the tensile force on the strip 5. Fo this method the curls are of slightly different shape to those used in the first method. Whilst the curl shape for the second method allows the hook-in roll-over connection it also permits the sliding interengagement of the first method.

The advantages flowing from the use of the strip 5 and its compressed state are several in number. First, the slats are restrained from free endways relative motion. In the past many attempts have been made to prevent such motion without interfering with the operation of the shutter, one such patent is 245513. Second, the rattling which previously occurred in roller shutter doors is eliminated. Third, buckling of the shutter when lifted from below, which made this form of shutter door impractical in many locations, is substantially eliminated.

It is to be noted that disengagement of the curls of the type used in the second method is not possible when the shutter is in service as the guides in which the ends of the slats are housed prevent the slats from adopting the necessary angular relationship. When in a non-operative form, i.e. still on the assembly bench the shutter lies flat preventing disengagement and if the slats do adopt an angular relationship during handling which approaches that required for disengagement the expanded but compressed strip 5 restricts further angular movement and disengagement.

The shutter is made operational by mounting runner blocks, preferably made of plastic, on the ends of the slats, which blocks travel in the guides located one on either side of the opening to be closed off by the shutter.

The method of providing a resilient material as means to exert pressure between two interengaged components has application other than in the assembly of slats in a roller shutter door. For example see Fig. 6 where a piece of glass or like panel 6 is retained in a groove 7 in a frame 8 into which a length of resilient elastic material 5 is introduced whilst in a stretched condition in which it has a reduced cross-section area. Upon releasing the material 5 from the stretching force it will tend to adopt its original configuration, to the point that it is able, as a function of the space available in the slot 7 in the frame 8. The groove 7 in the frame 8 may include a lip 9 to assist in the retention of the elastic material 5 in the groove 7.

Fig. 7 illustrates two curled edges of two panels 10 and 11. alternatively a post 10 and a panel 11, interengaged with the curled portions 12, 13 and 14 engaged with and partly enclosing the portions 15 and 16. The curled edges are slidingly engaged as hereinbefore described after the insertion of a stretched reduced cross-section strip 5 is located in the curl of the panel 10. The strip 5 when expanded after release of the stretching force occupies the available space and substantially prevents relative longitudinal movement between the curls.

Another possible use would be in the connecting together of lengths of sheet metal the ends of which are fitted with curled members like those used in the shutter previously described. Such a connection could be used for the end coupling of the sheet metal wall of an above ground swimming pool.

The strip 5 need not be circular, in some applications the shape could be rectangular, square or even oval. Likewise, several lengths of elastic material can be inserted in each joint if desired whilst still retaining the advantages set forth hereinbefore. The sizes of strip crosssections can be different and in the method of installation only one strip need be stretched, although both can be stretched if desired.

Claims (15)

1. A shutter comprising a plurality of elongated breadthwise extending slats each with a front face and a back face, each slat having an open edge curl on each of its long edges, one curl of each slat being a forward curl directed towards the front face of the slat and the other curl being a rearward curl directed towards the back face of the slat, the curls being so shaped and dimensioned as to enable a forward curl of one slat to co-act with the rearward curl of an adjacent slat to provide a hinged connection between the two joined slats enabling limited relative angular movement between the joined slats, and strips of compressed resilient material extending the breadth of the shutter and located in each of said hinged connections between adjacent inner surfaces of the co-acting curls thereof.

2. A shutter as claimed in claim 1 wherein the curls of the slats are so formed that the curls of two adjacent slats have to be longitudinally slidably interengaged to form a hinged connection.

3. A shutter as claimed in claim 1 wherein the curls of the slats are so formed that the curls of two adjacent slats can be interengaged to form a hinged connection by placing two slats side by side with forward curl and a rearward curl adjacent each other and an angular relationship opposite to that adopted when rolled up and then interengaging the adjacent curls by relative lateral movement of the slats.

4. A shutter as claimed in any one of the claims 1 to 3 wherein the resilient strips project beyond the ends of the slats.

5. A method of assembling elongated slats to form a shutter, said method comprising the steps of providing a plurality of elongated slats each with a front face and a back face and an open edge curl along both long edges of each slat with one curl being a forward curl directed towards the front slat face and the other being a rearward curl directed towards the back face of the slat, the curls being so shaped and dimensioned as to enable a forward curl on one slat to co-act with the rearward curl of an adjacent slat to provide a hinged connection between the two adjacent slats enabling limited angular movement between the interconnected slats, inserting a length of resilient material in the curl of one slat, applying a longitudinal force to the length of resilient material to cause its crosssectional dimension to be reduced, inserting the curl of the adjacent slat into the curl of the slat in which the length of resilient material is housed and so that the length of resilient material lies between inner surfaces of the inter-engaged curls of the slats, releasing the longitudinal force from the length of resilient material allowing it to recover to cross-sectional shape and size determined by the space between the inner surfaces of the interconnected curls.

6. A method as claimed in claim 5 wherein the curls of two adjacent slats are interconnected by longitudinal sliding engagement of one curl in the other.

7. A method as clamed in claim 5 wherein the curls of two adjacent slats are interconnected by aligning two slats side by side with the forward curl of one slat adjacent the rearward curl of the other slat and by relative lateral movement betweeen the slats engaging the curls.

8. A shutter substantially as hereinbefore described with reference to the accompanying drawings.

9. A metnod of assembling shutter slats to form a shutter, as hereinbefore described with reference to the accompanying drawings.

10. A shutter when made in accordance with the method of any one of the claims 5, 6, 7 or 9.

11. A method of retaining two members in operative relationship comprising the steps of assembling the two members by interengaging co-operating elements or portions of the members and applying resilient force to urge the co-operating elements or portions into engagement.

12. The method of claim 11 wherein the resilient force is applied by reducing the crosssectional area of elastic means by applying a stretching force thereto or to part thereof and removing the stretching force when the members are in the operative relationship.

13. A method of assembling members other than the parts of a shutter and retaining them in an assembled condition, said method comprising the steps of bringing together interengageable portions of the members to be assembled and then applying a resilient force to maintain them assembled.

14. The method of claim 13 including the step of introducing elastic stretchable means into co-operating relationship with said interengageable portions whilst the elastic means is subjected to stretching forces to reduce its cross-section and then releasing the stretching forces.

15. The method of claim 11, 12, 13 or 14 wherein the members are selected from the group comprising; panels and posts; panels and panels; panels and frames; posts and posts; frames and frames.