SCAFFOLDING SYSTEMS AND A SCAFFOLDING JOINT THEREFOR

Abstract

A scaffolding assembly is disclosed. The system includes scaffolding poles joints (or fittings) for releasably securing the poles at cross-over points. Each scaffolding joints has an inner body member and two movable outer clamping members to clamp the poles to the body member at the cross-over points. The body member also has as a mounting for a safety connection member which projects laterally the scaffolding poles towards an operative. The safety connection member can be connected to a safety tension member from the operative such that a safety connection point is available at each of the scaffolding joints.

Claims

1. A scaffolding assembly comprising; a plurality of scaffolding poles; and a plurality of scaffolding joints releasably-securing said poles points in said scaffolding assembly, number of spaced safety connection points for attachment and release of safety tension members to connect operatives to said assembly during work; wherein said scaffolding joints each comprise an inner body member and two movable outer clamping members to clamp said poles to said body member in said assembly at said cross-over points, and said body member further serving as a mounting for a safety connection member which, in use, projects laterally of one of the associated adjacent scaffolding poles, and thus -towards an operative working in relation to or near that longitudinal, to receive and connect to a safety tension member from said operative, wherein a safety connection point of said scaffolding assembly is available at each of said scaffolding joints,

2. A scaffolding joint for use in a scaffolding assembly comprising a plurality of scaffolding poles, and a plurality of said scaffolding joints releasably-securing said poles at cross-over points in said scan-biding assembly, and said scaffolding assembly further comprising a number of spaced safety connection points for attachment and release of safety tension members to connect operatives to said assembly during work; wherein said scaffolding joint comprises:, an inner body member and two movable outer clamping members configured to clamp said poles to said body member in said assembly at said cross-over points, and said body member further serving as a mounting for a safety connection member which, in use, projects laterally of one of the associated adjacent scaffolding poles, and towards an operative working in relation to or near that longitudinal, to receive and connect to a safety tension member from said operative, wherein a safety connection point of said scaffolding assembly is available at each of said scaffolding joints.

3. (canceled)

4. A scaffolding joint for use in a scaffolding assembly, to clamp poles of said scaffolding assembly together at cross-over points, wherein said scaffolding joint further serving as a mounting for a safety connection member which, in use, connects to a safety tension member from an operative, whereby a safety connection point of said scaffolding assembly is available at each of said scaffolding joints.

5. A scaffolding joint according to claim 1 wherein said safety connection member comprising a safety hook member which, in use, projects laterally of the associated adjacent scaffolding longitudinal.

6. A scaffolding joint according to claim 5 said safety hook member is of generally rounded loop-shaped format.

7. A scaffolding joint according to claim 5 wherein said safety hook member extends from said body member at from 30 to 60 degrees with respect to the longitudinal-extent of said scaffolding longitudinal.

8. A scaffolding, joint according to claim 5 wherein said safety hook member has a length dimension approximately similar to the width dimension of the scaffolding longitudinal with which said scaffolding joint co-operates in use.

9. A scaffolding joint according to claim 2 wherein said safety connection member is formed integrally with the main body of said scaffolding joint.

10. A scaffolding joint according to claim 2 wherein said inner body member comprises integral spaced pivotal mountings for said outer clamping members and correspondingly-spaced integral mountings for actuating rods connected to said clamping, members, and formations to receive the scaffolding pole surfaces so that the body member is clamped between the poles.

11. A scaffolding joint according to claim 2 wherein said safety connection member is pivotally connected to the main body of said scaffolding joint and adopting said laterally projecting attitude with respect to the adjacent scaffolding, longitudinal in use.

12. A scaffolding joint according to claim 2 in combination with a safety line having an end connector adapted to connect-to and disconnect-from said safety connection member of said scaffolding joint in a quick-connect-disconnect manner.

13. A scaffolding assembly according to claim 1 in combination with a safety line having an end connector adapted to connect-to and disconnect-from said safety connection member of said scaffolding joint in a quick-connect-disconnect manner.

14. A scaffolding joint according to claim 11 wherein said end connector of said safety line is of generally hook-shaped format, having a spring-biased jaw member permitting a snap-fit connection action when an operative causes said jaw to open against said spring bias, thereby permitting a fixed part of said end connector to hook-connect to said safety connection member.

15. A scaffolding assembly according to claim 12 wherein said end connector of said safety line is of generally hook-shaped format, having a spring-biased jaw member permitting a snap-fit connection action when an operative causes said jaw to open against said spring bias, thereby permitting a fixed part of said end connector to hook-connect to said safety connection member.

16. (canceled)

Description

[0020] As shown in FIG. 1 of the drawings, a scaffolding assembly 10 comprises a plurality of scaffolding poles (often referred to as tubes) 12, 14 and a plurality of scaffolding joints (often referred to as fittings) 16 releasably-securing the poles at cross-over points (often referred to as nodes) 18 in the scaffolding assembly.

[0021] In FIG. 1, the scaffolding assembly 10 can be seen to comprise the usual combination of horizontal poles 12, and vertical poles 14, with the scaffolding joints 16 holding these in rigid assembly. Such an assembly is used in many different ways in combination with walkways (not shown) to support operatives or workers thereon, both during the phase of initial construction of the scaffolding framework, usually from the ground upwards, and in the subsequent phase of building construction or repair or maintenance, whether domestic or business. It is to be understood that poles 12 and 14 may be of any suitable format, including that of rod, bar, baton, staff, shaft, strut, tube and rail, as well as pole-form, providing suitability for the work in question. Any change in format may have minor effects on the necessary design or format of the complementary scaffolding joints, particularly of the clamping and other members thereof which physically engage these poles or the like longitudinal members.

[0022] The scaffolding assembly 10 further comprises a number of spaced safety connection points 20 for attachment and release of safety tension members 22 to connect operatives or workers or staff 24 to said assembly 10 during work, only one such connection point 20 being shown in FIG. 1 in terms of its construction, but it being understood that each and every crossover point 18 is provided accordingly.

[0023] The scaffolding joints 16 are each formed as an assembly of three main pivotally-connected drop-forged members linked together by a pair of screw-threaded tension rods having corresponding tensioning-and-clamping nuts. Thus, as shown in FIG. 2, each joint 16 comprises a drop-forged inner body member 26 and two pivotable drop-forged outer clamping members 28, 30 to clamp the scaffolding poles 12, 14 to the inner body member 26 of the assembly 16 at the cross-over points 18. A pair of actuating tension rods 32, 33 and associated threaded nuts 34 and washers 36 extend outwardly from drop-forged mountings 37, 38 formed integrally at one end and one side (respectively) of inner body member 26, for the rods 32, 33 to be received in first bifurcated ends 39 of the clamping members 28, 30 to enable the necessary clamping action to be effected on the scaffolding poles to be mounted. At their other ends, the clamping members 28, 30 are also bifurcated to pivotally receive mounting flanges 40, 41 (and complementary pivot pins 42, 43) formed (by drop-forging) at the other end and the other side (from the rods 32, 33) of the inner body member 26 for actuating pivotal clamping movement. A pair of outwardly-facing concave scaffolding pole-face-receiving surfaces 44 (only one of these surfaces is actually visible in the views of FIGS. 3 and 3) are formed on the opposite sides of inner body member 26, complementing the corresponding inwardly-facing concave surfaces provided on clamping members 28, 30. The pivot pins 42, 43 define respective hinge axes parallel to the longitudinal axes of the scaffolding poles clamped by the respective clamping members.

[0024] Thus, significant aspects of the simple construction of inner body member 26, are the integral spaced pivotal mountings on its opposite sides for the outer clamping members, the correspondingly spaced integral mountings for the actuating rods, and the concave formations to receive the scaffolding pole surfaces so that the body member 26 is clamped between the poles.

[0025] Inner body member 26 further serves as a mounting for a safety connection member 46 which, in use, projects laterally of the associated adjacent scaffolding poles, 12, 14 in FIG. 1, and thus towards an operative 24 working in relation to or near that longitudinal, to receive and connect to a safety tension member 22 from said operative, whereby a safety connection point 20 of said scaffolding assembly is available at each of the scaffolding joints 16.

[0026] As can be seen in FIGS. 1 and 2, the safety connection member 46 provided by scaffolding joint 16 is in the form of a safety hook member which, in use, projects laterally of the associated adjacent scaffolding poles 12 and 14. Moreover, the safety hook member is of generally rounded loop-shaped format and extends from one end of the inner body member 26 at from 30 to 60 degrees, and in this embodiment at 45 degrees, with respect to the longitudinal-extent of said scaffolding pole.

[0027] As regards the dimensions of safety connection or hook member 46, its rounded-shape width and length (as measured across its major dimensions) are approximately one to one-and-a-half times (width) and twice to three times (length) the diameter of the adjacent scaffolding pole with which the joint 16 is designed to work with.

[0028] As shown in FIGS. 2 and 3, the safety connection or hook member 46 is formed integrally with the inner body member 26 of scaffolding joint 16. The combined structure is conveniently formed by drop-forging at the same time as the other formations on the inner body member are likewise formed.

[0029] In use, a scaffolding assembly comprising multiple scaffolding poles 12, 14 is constructed by operatives using a supply of the scaffolding joints 16 without the need to have on-hand any other type or design of scaffolding joint. The mode and sequence of assembly is unchanged from previous practice so far as use of the scaffolding joints 16 to interconnect the poles at crossover points 18 is concerned. However, so far as concerns providing an operative with an anchor or mounting for his safety line during the construction of the scaffolding assembly and during subsequent building, repair or maintenance, the position is extremely favourable because the scaffolding joints 16 provide a safety connection or hook member 46 at every joint or crossover point, whereby whatever an operative wants to do and wherever he or she wishes to work, the safety connection aspects of the operation are simplified.

[0030] FIGS. 4, 5 and 6 illustrate the safety line connection steps in use. FIG. 4 shows a joint 16 of a scaffolding assembly ready to receive an operative's safety line. The availability of the safety connection or hook member 46 is readily apparent. FIG. 5 shows an end connector 52 of a safety line, said end connector being of generally hook-shaped format, having a spring-biased jaw member 54 permitting a snap-fit connection action when operative 24 offers the connector up to hook member 46 as shown in FIG. 5 and causes said jaw member to open against said spring bias, thereby permitting the fixed end part 56 of said end connector to hook-connect to said safety connection member 46, as shown in FIG. 6, whereupon the operative is securely connected to the scaffolding framework and can move safely about the framework to perform the necessary work.

[0031] An illustration of a situation where the present invention is particularly advantageous is set out below. Where scaffolding is being built vertical poles are added and then horizontal rails are attached to the vertical poles. In the prior art the advised safety procedure for adding a top rail is as follows. A standard joint fitting (of the prior art) is added to the vertical pole at the required height (approximately 2 m for the next level of the scaffolding) and a hook connector 52 of the safety tension member 22 is hooked around the vertical pole above the joint fitting. In the event of a fall it is the joint fitting which prevents the operative from falling as it stops the hook connector 52 from sliding down the vertical pole. However, this is not ideal as the safety tension member 22 is acting on the hook connector 52 transverse to the correct and strongest pulling direction and this can result in the hook becoming damaged or bent. Furthermore, when adding a horizontal pole, which can be as long as 23 ft (7 m) and weigh 6 st (almost 40 kg) an operative lifts the pole vertically hand over hand until they have reached approximately the halfway point. At this position (known as the break point) the weight of the pole is balanced roughly at the centre allowing the operative to rotate it from being vertical to the horizontal position so that it can be attached to the joint 16. However, to lower the pole into place the hook connector 52 must be detached from the vertical pole as it is located above the joint 16 and therefore the safety tension member is in the way preventing the pole from connecting to the joint. In order to do this the operative must let go of the pole with one hand to unclip the hook connector therefore holding the pole only with their other hand. The hook connector 52 is then passed under the pole and reconnected to the vertical pole above the joint 16. The pole can then be fixed to the scaffolding assembly by clamping into the joint 16. This manoeuvre is particularly difficult and dangerous because of the need to let go of the pole with one hand.

[0032] In the present invention the same manoeuvre can be completed without the need to let go of the pole. Because the hook connector is attached to the scaffolding assembly at the safety connection member 46 which is located below the clamping member 28 the pole can be placed into engagement with the inner body member 26 and the clamping member 28 without interfering with the safety connection member 22 or the hook connector 52. There is therefore no need to let go of the pole with one hand when moving it into position. Furthermore, because the safety connection member 26 is in the form of a loop, the hook connector 52 of the safety connection member 22 is always acting in the correct direction in the event of a fall.

[0033] It will be appreciated by persons skilled in the art that the above embodiments have been described by way of example only and not in any limitative sense, and that various alterations and modifications are possible without departure from the scope of the protection which is defined by the appended claims. For example, in an alternative embodiment, shown in FIG. 8, the safety connection or hook member, otherwise formed similarly to the member 46 described and illustrated above, is pivotally connected to the main body of said scaffolding joint, and adopts approximately the same laterally projecting (at 30 to 60 degrees, preferably 45 degrees) attitude with respect to the adjacent scaffolding longitudinal in use when connected to an operative's lanyard.