GB2517526A - Protective cap - Google Patents

Abstract

A protective cap 8 is disclosed which is used for preventing impalement injury on reinforcement bars 17 (rebar), comprising a tubular socket to receive an end of a length of rebar, the socket being attached to a sleeve 11 defining a channel to receive and enclose a length of timber. The caps may have a releasable gripper (19, figure 5) to grip the end of rebar. Preferably, the gripper is screwed through a thread at the side of the socket to push the rebar into the opposing internal side of the socket (figure 6). Preferably, the sleeve completely encloses (i.e. completely encircles) a standard size timber. The cross-section of the channel may be rectangular and the external edges of the sleeve may be rounded. In use, not all rebars require a protective cap since the inserted timber acts as protection. The socket may further comprise a shock absorber at the closed end, adjacent to the sleeve and the sleeve may have ridges provided at the internal faces of the sleeve. The gripper of the socket may also comprise resiliently-deformable elongate fins at the inside surface of the socket.

Description

SAFETY DEVICE

Field of the Invention

The invention relates to a device and a method for use thereof for reducing the likelthood of impalement injury, especially such injuries caused by contact with reinforcing bars of the type used in the building industry for reinforcing concrete.

Jo Background and Prior Art

During the construction of buildings and other structures that use steel teinforcing bars (also referred to as rehars or rebar), there is often a period of time during construction when the end of the rcbars extend out of the structure temporarily. e.g. pending construction of an abutting portion of the structure whose own reinforcing bars need to be connected to the existing rehars. The rehars are typically of approximately circular cross-section having a diameter most commonly between 10-40mm, depending on the reinforcing requirement.

The rcbars arc usually made of steel, and often have a coating of rust on them, from exposure to the element. This renders them quite difficult to see. They often also have sharp edges.

Building sites arc also busy workplaces, with many distractions, and there is a real risk that on-site workers might e.g. trip and impale themselves on the exposed ends of the rebars, or might simply walk into the end of the rehars, causing less serious hut equally unacceptable injuries. In the most extreme cases, a fall from height onto an exposed end of a rehar poses a very serious risk to life.

As a result, protective devices have begun to be used that offer a level of risk reduction in respect of such injuries. One such known device comprises a circular cap, illustrated in cross-section in Figure 1, and generally indicated by 1. The cap 1 has a generally flat top 2 and a aperture 3 in the underside. It is often refened to as being "mushroom-shaped". The cap is placed over the end of each exposed rebar where it is held in position by friction between the rehar and the interior surface of the aperture 3. There al-c a number of problems with such an arrangement: A cap needs to be provided for every exposed rebar on the site, and this requires a large number of caps to be made available, and considerable time spent affixing a cap to each rehar. Also, it is relatively easy for the caps to he accidentally dislodged from the ends of the rehar, thereby reintroducing the risk to the workplace. This is especially the case where the caps are repeatedly reused and become worn, thereby reducing the friction between the caps and the ends of the rebar, An alternative design has also been introduced, sold (primarily in Canada) under the trade s name "Carnie Cap", and illustrated in cross-section Figure 2, generally indicated by 4. In this design, a tubular aperture 3 is also provided on the underside of the device, that allows the cap 4 to be slipped over then end of a rebar. On the top of the cap are provided two rcsillently deformable flaps 5 that define a mouth 6. The flaps 5 may be deformed in the direction of the arrows as illustrated, to allow a length of timber to be laid in the mouth 6, and in extend to an adjacent such cap 4, or caps. The timber is then held in position in the caps by the use of screws. inserted through holes 7 in each of the flaps. .. Whilst this is an improvement on the individual caps illustrated in Figure 1. the devices are quite time-consuming to fix to the exposed rebars, and require screwing to the timber length in order to protect an array of rehars. If the timber is not screwed in place, then there is a high chance that the timber might be "borrowed" for alternative use on the site. Additionally, the whole cap and timber assembly can be accidentally knocked off the end of the rebars, again re-htoducing the impalement risk to the workplace.

It is amongst the objects of the present invention to attempt a solution to this and other problems.

Summary of the Invention

Accordingly, the invention provides a protective cap, for preventing impalement injury on rehar, comprising: a tubular socket to receive an endofa length of i-char; said socket being attached to a sleeve defining a channel to receive and enclose a length of timber; and wherein the axes of said socket and said channel are substantially perpendicular to each other. The provision of such a sleeve, extending onto the top surface of a length of timber makes it unnecessary to secure the timber to the cap by means of a screw fixing. In the busy environment of a building site, screws and screwdrivers might not he immediately available, with a risk that timber might not be adequately secured into caps of the prior art design. That risk is removed by the present invention. Additionally, the caps are more easily and quickly fitted to the ends of the rehar, without the need for additional tools and fixings. The sleeve preferably completely encloses (i.e. completely encircles) the timber members.

Preferably, said socket is provided with a gripper to releasably grip, in use, a length of rebar inserted therein. Such a gripper could comprise a moveahle clamp arrangement, or one or

I

more longitudinal slots in the socket member which, if made of a deformable. and preferably resiliently deformable, material can be caused to grip a rebar by a clamp that encircles the socket Preferably, however, for ease of manufacture, said gripper comprises a screw thread.

This can be mounted in a threaded hole in the side of the socket, so that the thread can be s screwed into the socket to urge a rcbar against the opposing inner wall of the socket. A gripping portion can he mounted on the screw thread to allow it to he operated by hand.

Whcre a gripper is used, it is preferred that the lateral cross-section of said tubular socket (perpendicular to the axis of said socket) reduces from one side of the socket to the other and in said gripper is an-anged to ui-ge a rehar, in use, towards the reduced cross-section region of said socket The cross section is preferably non-circular, and is arranged that when a rehar is urged against an inside wall of the socket, at least two points of contact between the rebar and the socket wall are made, thereby increasing the grip on the rebar.

i In alternative embodiments, where a gripper is provided, it is preferred that said gripper comprises one or more resiliently-deformable elongate tins located on the inside surface of said socket. In this way. when a rebar is inserted into the socket, the fins deform, resiliently.

thereby gripping the outside surface of the rehar. The fins may conveniently he formed of plastics material, injection-moulded as part of the socket In such embodiments, it is preferred that said fins extend generally longitudinally along said socket and extend inwindly, hut offset from a diameter of said socket By offsetting the fins from a diameter of the socket (i.e. so that they do not directly point at a centre-line of the socket) the inventor has found that they are more easily displaced sideways, and thereby deformed, as a i-char is inserted into the socket. Preferably. said fins have a rounded edge at the end of the fin closest to the open end of the socket. This allows a rebar to be more easily inserted into the socket without damage to the fins, thereby allowing the device to be reused more often.

Preferably, such an embodiment of a cap comprises two sets of fins, the first set of fins extending further into the interior of the socket that the second set, and wherein said second set extends longitudinally closer to the open end of the socket than the first set. In this way, a single protective cap may he configured to accept and grip more than one diameter of i-char.

The narrower set of fins (extending closer to the open end of the socket) can grip a large diameter of rebar. and also serve to centre a smaller diameter of rebar that can then be gripped by the wider set of fins.

In any embodiment of a protective cap of the invention it is preferred that a shock absorber is provided at the closed end of said socket, adjacent said sleeve, Providing a shock absorber i-educes the risk that the end of a rehar within the socket could hui-st through the top of the cap in the event of impact to the cap, when in use.

Shock absorbers such as springs or dampers could he provided, but the device is particularly cost-efficient and simple to manufacture if said shock absorber comprises a deformable projcctiou cxtcnding from the closed cnd of said sockct towards the open cud of said sockct.

In any embodiment of a protective cap. it is preferred that the internal faces of said sleeve are provided with inwardly-extending ridges, said ridges being tapered such that they have smallcr inward extent at an open end of said sleeve. The provision of such ridges cases the insertion of a length of material into the sleeve, whilst also providing grip thereon.

is In any aspect of the invention it is preferred that said channel is rectangular in section. This provides the ideal shape to receive a piece of timber that is likely to be readily available on a building site. An ideal timber member would be a piece of nominal 2 inch x 4 inch (50 mm x inm) timber, and preferred dimensions for the channel are therefore approximately 100 mm wide by 50 mm tall (in use).

Also in any aspect of the invention, it is preferred that the external edges of said sleeve are rounded. This reduces the chance of injury shoffid a worker come into contact with the edges of the sleeve.

Also included within the scope of the invention is a protective cap substantially as described herein with reference to and as illustrated by any appropriate combination of Figures 3 to 7.

The invention also provides a method of shielding the ends of reinforcing bar to reduce the risk of impalement injury comprising the steps of positioning two or more protective caps according to any preceding claim on the ends of corresponding reinforcing bars and inserting a length of material through the channels of said caps. The length of material (preferably a length of wood) can be inserted through the channels either before or after the caps are positioned on the ends of the rehar.

3s Preferably. said method further comprises the step of activating a gripper on two or more of said caps such that they grip the corresponding end of reinforcing bar.

Also included within the scope of the invention is a method of shielding the ends of reinforcing bar to reduce the risk of impalement injury substantially as described herein with i-eference to and as illustrated by any appropriate combination of Figut-es 3 to 7.

s Brief Description of the Figures

The invention will be described with reference to the accompanying drawings in which: Figures 1 and 2 illustrate, in cross-section, prior art devices; in Figures 3 and 4 are elevation views of embodiments of the present invention; Figures 5 and 6 are cross-sectional views of sockets forming part of embodiments of the present invention; Figure 7 is an elevation view of protective caps of the invention in use; Figure 8 is a perspective view of an embodiment of a protective cap of the invention; Figures 9 and 10 are longitudinal and transverse cross-sections respectively of an embodiment of a socket forming part of a protective cap of the invention; Figures 11 and 12 are also longitudinal and transverse cross-sections respeedvely of an alternative embodiment of a socket forming part of a protective cap of the invention; Figures 13 and 14 are also longitudinal and transverse cross-sections respectively of an alternative embodiment of a socket forming part of a protective cap of the invention incorporating a shock absorber; and Figure 1 5 is a perspective view of a shock absorber forming part of a protective cap of the invention.

Description of Preferred Embodiments

Figure 3 shows an elevation view of a protective cap of the invention, generally indicated by 8 The cap comprises a tubular socket 9 to ieceive the end of a length of rehar (not illustrated) within the interior lOof the socket. The socket 10 is connectedto a sleeve 11 defining a channel 12 to receive a length of timber (not illustrated). The exterior edges 13 of the sleeve 11 arc rounded. Reinforcing fillets 14 arc provided between the sleeve 11 and the socket 9, to add strength to the cap 8.

In the embodiment illustrated, a hole 15 is provided through the wall of the socket 9 and communicating with its interior 10 to receive a screw thread (not illustrated) that can be used to grip a rebar, in use. The hole may be preferably threaded, but if a relatively soft material (e.g. a plastics material, such as polypropylene) is used for the cap, then threading is not necessary, and a self-tapping screw thread may be employed.

Fig 4 shows a side elevation view of a protective cap of the invention, generally indicated s by8.

Figure 5 shows a partial cross-section through the socket of the device of Figure 4, at the line A-A in Figure 4. The scction shows an emboclinient where thc cross-section of thc interior of the socket 9 is non-circular, and decreases in a direction away from the gripper (in this Jo ease in the fonn of a sciew thread) 16, thereby urging, in use, the rehar 1 7 into two-point contact with the interior wall of the socket 9 A gripping portion 19 is provided on the thread 16 to allow it to be tightened by hand.

Figure 6 illustrates a further, alternative cross-section of the socket 9 whet-c the intetior lOis of triangular cross-section. It can be seen that if a gripper mechanism urges a rebar 17 in the direction indicated by arrow 18 then this also urges the rebar 17 into two-point contact with the interior wall of the socket 9.

Figure 7 illustrates protective caps 8 of the invention in use. Three caps 8 arc illustrated in elevation view, each of which are attached to an end of a projecting rebar 17. The rebars are approximately collinear, allowing a length of material, such as dmber 20 to be slotted through the channels in the sleeves 11 of the caps 8-The timber member 20 thereby not only shields the ends of the rehar 17 to which the caps 8 are connected, but also those other rehar ends that fall beneath the timber member 20.

Figure 8 illustrates a preferred embodiment of a protective cap of the invention, generally indicated by 8. The cap may conveniently be made as of one-piece injeetion-moulded plastics. The cap 8 comprises a tubular socket 9 connected at a closed end to a rectangular sleeve 11. A T-shaped fillet 21 is provided between the socket 9 and the sleeve 11 to provide structural strcngth Inwardly-facing ridges 22 are provided within the interior of the sleeve 11. The ridges are provided with a taper. such that their inward extent is smaller at an end of the ridge 23 adjacent an open end of the sleeve, Figure 9 illustrates a longitudinal cross-section though a tubular socket forming part of a protective cap of the invention. Figure 10 illustrates a corresponding transverse cross-section.

In this embodiment, the interior of the socket 9 is provided with inwardly-facing fins 24, extending longitudinally along the socket from the closed end of the socket 25 towards the open end of the soekct 26. This fins 24 have a rounded profile 27 at the end closest to the open end 26 of the socket 9. As may be niore clearly seen in Figure 10, the fins 24 extend into the interior 10 of the socket, hut not along a diameter of the socket (illustrated by the chain-dotted lines 28). i.e. they do not point directly towards the centre-line of the socket. As s discusscd above, this makes inscrtion of a rebar into the socket casicr, and prcvcnts damagc to the fins.

Figure 1 lillustrates a longitudinal cross-section through a tubular socket forming part of a protective cap of thc invention. Figure 12 illustrates a corresponding flnsverse section. In in this embodiment, two sets of fins 24A and 24B are provided. The first set of fins 24A (not illustrated in Figure 11, hut corresponding to those illustrated in Figure 9) extend further into the interior of the socket 10 than the second set of fins 24B. i.e. there is a set of wide fins 24A and a set of narrow fins 24B. The second, narrower, set 24B also extend closer to the open end 26 of the socket than the second set 24B. In this way, if a large diameter rehar is inserted into the open end 10 of the socket 9. the narrower set of fins 24B can gip it and hold it in position. The rebar need not be inserted so far into the socket as to be gripped by the wide set of fins 24A. If the cap is used with a smaller diameter rebar, the narrow set of fins 24B act to centre the rehar in the socket 9, and the wider set of fins 24A serve to grip the rehar.

Figure 13 illustrates a longitudinal cross-section of an embodinient of a tubular socket 9 fonfling part of a protective cap of the invention. Figure 14 illustrates a corresponding transverse cross-section. Inwardly-facing fins 24 are provided on the interior of the socket 9.

A shock absorber 29 is provided at the closed end 25 of the socket. In this embodiment, the shock absorber 29 is in the form of a deformable cross-shaped projection extending from the closed end 25 of the socket 9 towards the open end 26. If an impact force is exerted on the top of the cap in use, the projection can deform to absorb sonic of the energy of impact, thereby reducing the chance that the rehar would burst through the closed end of the socket, and so improving the protective qualities of the cap. As can he seen in Figure 14, by using a cross-shaped shock absorber 29, the shock absorber can extend between the offset fins 24 of the device, allowing it to be a larger size than would otherwise be possible. thus enabling to absorb more energy in the event of impact.

In the embodiment illustrated in Figs 13 and 14, one set of fins 24 is shown, hut the shock absorber could readily be employed with a socket having two sets of fins such as that illustrated in Figures 11 and 12.

Figure 15 is a perspective view of a shock absorber 29 of the embodiment mounted on the closed end 25 of the socket.

Claims (12)

1. L A protective cap, for preventing impalement injury on rehar, comprising: a tubular socket to receive an end of a length of rebar; said socket being attached to a sleeve defining a channel to receive and enclose a length of timber; and wherein the axes of said socket and said channel are substantially perpendicular to cach other.in
2. 2. A protective cap accoiding to Claim I whei-ein said socket is provided with a gripper to releasably grip, in use, a length of rehar inserted therein.
3. 3. A protective cap according to Claim 2 wherein said gripper comprises a screw thread.i
4. 4. A protective cap according to either Claim 2 or Claim 3 wherein the internal lateral cross-section of said tubular socket (perpendicular to the axis of said socket) reduces from one side of the socket to the other and said gripper is arranged to urge a rebar, in use, towards the reduced cross-section region of said socket, thereby creating at least a two-point contact between the rehar and the interior surface of the socket.
5. 5. A protective cap according to Claim 2 wherein said gripper comprises one or more resiliently-deforniable elongate fins located oii the inside surface of said socket.
6. 6. A protective cap according to Claim 5 wherein said fins extend generally longitudinally along said socket and extend inwardly, but offset from a diameter of said socket.
7. 7. A protective cap according to either of Claims 5 or 6 wherein said fins have a rounded edge at the end of the fin closest to the open end of the socket.o
8. 8. A protective cap according to any of Claims 5 to 7 comprising two sets of tins, the first set of fins extending further into the interior of the socket that the second set, and wherein said second set extends longitudinally closer to the open end of the socket than the first set.
9. 9. A protective cap according to any preceding claim wherein a shock absorber is provided at the closed end of said socket, adjacent said sleeve.
10. 10. A protective cap according to Claim 9 whcre said shock absorber comprises a deformable projection extending from the closed end of said socket towards the open end of said socket.
11. 11. A protective cap according to any preceding claim where said channel is rectangular in section.
12. 12. A protective cap according to any preceding claim wherein the external edges of said slcevc are rounded.in 13-A protective cap according to any preceding claim wherein the internal faces of said sleeve are provided with inwardly-extending ridges, said ridges being tapered such that they have smaller inward extent at an open end of said sleeve.14. A protective cap substantially as described herein with reference to and as illustrated by any appropriate combination of Figures 3 to 15.15. A method of shielding the ends of reinforcing bar to reduce the risk of impalement injury comprising the steps of positioning two or more protective caps according to any preceding claim on the ends of corresponding reinforcing bars and inserting a length of material through the channels of said caps.1 6. A method according to Claim 15 further compiising the step of activating a gripper on two or more of said caps such that they grip the corresponding end of a reinforcing bar.17. A method of shielding the ends of reinforcing bar to reduce the risk of impalement injury substantially as described herein with reference to and as illustrated by any appropriate combination of Figures 3 to 15.