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Title:
A BARRIER SUPPORT FOR A QUEUE MANAGEMENT SYSTEM
Document Type and Number:
WIPO Patent Application WO/2018/203041
Kind Code:
A1
Abstract:
A barrier support (1) for a queue management system comprising a post (2) having an upright portion (3) adapted to support at least one barrier device and having at its bottom end a foot (4) and a floor plate (5). A lower portion of the foot (4) and an upper portion of the floor plate (5) are cooperatively shaped such that the lower portion of the foot (4) can securely fit into and/or over the upper portion of the floor plate (5) and thereby locate the post (2) and one or more magnets (6) are located in the foot (4) and/or the floor plate (5) such that the post (2) can be magnetically secured to the floor plate (5). The barrier support is advantageous in that it allows a post (2) to be properly positioned on a floor plate (5) without danger of misalignment and then be held in that position magnetically. In embodiments of the invention the floor plate (5) is circular and has a single centrally located circular aperture (10) formed therein and the foot (4) is circular and has a single centrally located cylindrical portion (9) that is sized to securely locate in the aperture (10).

Inventors:
CRAWLEY PETER (GB)
COE TOMMY (GB)
HICKSON KEVIN (GB)
SHERWOOD COLIN (GB)
Application Number:
PCT/GB2018/051144
Publication Date:
November 08, 2018
Filing Date:
April 30, 2018
Export Citation:
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Assignee:
TENSATOR GROUP LTD (GB)
International Classes:
E01F13/02
Domestic Patent References:
WO2004033803A12004-04-22
Foreign References:
KR20100100452A2010-09-15
US7690860B12010-04-06
US20130032773A12013-02-07
Attorney, Agent or Firm:
SERJEANTS LLP (GB)
Download PDF:
Claims:
CLAIMS

1. A barrier support for a queue management system comprising:

a post having an upright portion adapted to support at least one barrier device and having at its bottom end a foot; and

a floor plate;

wherein:

a lower portion of the foot and an upper portion of the floor plate are cooperatively shaped such that the lower portion of the foot can securely fit into and/or over the upper portion of the floor plate and thereby locate the post;

one or more magnets are located in the foot and/or the floor plate such that the post can be magnetically secured to the floor plate;

one of a lower surface of the lower portion of the foot and an upper surface of the floor plate has one or more apertures formed in an upper surface thereof; and

the other of the lower surface of the lower portion of the foot and the upper surface of the floor plate has one or more protruding parts formed at said surface, each protruding part being positioned and shaped to engage with a cooperative aperture and thereby locate securely locate the post in the floor plate.

2. A barrier support according to claim 1 , wherein one or more magnets are located in the lower portion of the foot.

3. A barrier support according to claim 2, wherein the floor plate is formed of a ferromagnetic material.

4. A barrier support according to claim 3, wherein the floor plate is formed of cast metal.

5. A barrier support according to any of claims 2 to 4, wherein the lower portion of the foot is formed of injection moulded plastic.

6. A barrier support according to claim 5 having six or more magnets equally circumferentially spaced around the lower portion of the foot.

7. A barrier support according to any preceding claim, wherein each of the one or more magnets are bolted in position in the barrier support.

8. A barrier support according to any preceding claim, wherein:

the floor plate has one or more apertures formed in an upper surface thereof; and

the foot portion has one or more downwardly protruding parts formed at its lower surface, each downwardly protruding part being positioned and shaped to engage with a cooperative aperture and thereby locate securely locate the post in the floor plate.

9. A barrier support according to claim 8, wherein an upper edge of the or each aperture of the floor plate is chamfered to allow easy location of the post in the floor plate.

10. A barrier support according to claim 8 or claim 9, wherein the floor plate has a single aperture formed in an upper surface thereof and the foot portion has one downwardly protruding part.

11. A barrier support according to claim 10, wherein:

the floor plate has a single aperture that is circular and centrally located within the floor plate; and

a lower portion of the foot has a single downwardly protruding part that is cylindrical and centrally located on a lower surface thereof.

12. A barrier support according to claim 11, wherein the floor plate and the lower portion of the foot are circular.

13. A barrier support according to any of claims 1 to 7, wherein:

the lower surface of the lower portion of the foot has one or more apertures formed therein; and the floor plate has one or more upwardly protruding parts formed at its upper surface, each upwardly protruding part being positioned and shaped to engage with a cooperative aperture and thereby locate securely locate the post in the floor plate.

14. A barrier support according to claim 8, wherein a lower edge of the or each aperture of the foot is chamfered to allow easy location of the post in the floor plate.

15. A barrier support according to claim 13 or claim 14, wherein the foot has a single aperture formed in the lower surface of the lower portion thereof and the floor plate has one upwardly protruding part.

16. A barrier support according to claim 15, wherein:

the lower surface of the lower portion of the foot has a single aperture that is circular and centrally located within the foot; and

the floor plate has a single upwardly protruding part that is cylindrical and centrally located on an upper surface thereof.

17. A barrier support according to claim 16, wherein the floor plate and the lower portion of the foot are circular.

18. A barrier support according to any preceding claim, wherein a lower surface of the foot is shaped to match an upper surface of floor plate such that when in use the foot completely covers but does not extend beyond the upper surface of the floor plate.

19. A barrier support according to any of claims 1 to 17, wherein the foot has an outer downwardly extending rim shaped to extend around an outer circumference of the floor plate when the post is positioned on the floor plate such that the floor plate is not visible when the post is positioned thereon.

Description:
TITLE

A Barrier Support for a Queue Management System

DESCRIPTION

Field of Invention

The present invention relates to queue management systems such as those in use at post offices, banks, airports, and many other similar locations. These systems comprise a plurality of barrier supports between which barriers, such as rails, webbing, or ropes, are supported. The present invention provides an improved barrier support for such systems that is more securely locatable on a floor.

Background

Queue management systems are well known. Generally, these systems comprise a plurality of barrier supports between which barriers, such as rails, webbing, or ropes are supported. The resulting system directs customers to queue in an appropriate direction and allows them to be served in an orderly manner.

The barrier supports of many queue management system are upstanding posts, each having a heavy foot that supports the post in an upright position. Suitable barriers are then attached at least to an upper end of the post and possibly also a midpoint of the post. Often the barrier will be a retractable webbing that is contained within a cassette that is formed as part of, or affixed to, the post. For example, a simple barrier support consists of a post having a heavy circular foot at a lower end and a cassette at an upper end, from which webbing can be withdrawn to be attached to the upper end of an adjacent barrier support.

There is often a problem in maintaining the position of the barrier supports of queue management systems. Individual barrier supports can be pushed, pulled, or knocked out of position relatively easily and this can result in an untidy or disordered queueing system. In order to overcome this problem barrier supports have been provided with magnetic bases. In particular, magnets are located in a lower surface of the foot of posts and a steel floor plate is provided on the floor. The posts are then located on the steel floor plates and held in position magnetically. This makes it more difficult to knock or move a post without the need to permanently secure the post to the floor.

A barrier support with a magnetic base according to the prior art is shown in Figures 1 and 2. The barrier support comprises a post 2 having an upright portion 3 and foot 4 and a floor plate 5. The foot 4 and the floor plate 5 are both circular and have the same diameter. Four magnets 6 are positioned in a lower surface of the foot 4 and equally circumferentially spaced about the foot. Each magnet 6 is located in a recess formed in the lower surface of the foot 4 and are bonded in position in said recess. The foot 4 is formed of cast metal and the floor plate is formed of steel. The upright portion 3 of the post 2 is bolted to the foot 4 and is positioned centrally with respect to the foot. When in use the floor plate 5 is fixed in a suitable position on the floor. The post 2 is then positioned appropriately on the floor plate 5 such that the foot 4 and the floor plate 5 are aligned. The attraction between the magnets 6 in the foot 4 and the floor plate 5 acts to hold the post 2 in a suitable position.

Although providing a generally good performance the barrier support of the prior art has been found to have some issues. In particular, in some instances the attraction between the magnets 6 and the floor plate 5 has been found to be stronger than the bonding between the magnets 6 and the foot 4 resulting in the magnets 6 becoming dislodged from the post 2 when the post 2 is removed from the floor plate 5. Further, due to the strength of attraction between the magnets 6 and the floor plate 5 it can be difficult for users to precisely align the foot 4 of the post 2 and floor plate 5. In particular, once the foot 4 is positioned on the floor plate 5 it can be difficult to move the foot 4 relative to the floor plate 5 due to the magnetic attraction between the magnets 6 and the floor plate 5. Therefore, it can be difficult to perfectly align the foot 4 with the floor plate 5 if they are initially misaligned. This misalignment can lead to an untidy queueing system, which is undesirable. In light of the above there is a need for an improved barrier support for a queue management system that overcomes these shortcomings. Summary of Invention

The present invention provides a barrier support for a queue management system comprising:

a post having an upright portion adapted to support at least one barrier device and having at its bottom end a foot; and

a floor plate;

wherein:

a lower portion of the foot and an upper portion of the floor plate are cooperatively shaped such that the lower portion of the foot can securely fit into and/or over the upper portion of the floor plate and thereby locate the post;

one or more magnets are located in the foot and/or the floor plate such that the post can be magnetically secured to the floor plate; and

one of a lower surface of the lower portion of the foot and an upper surface of the floor plate has one or more apertures formed in an upper surface thereof; and

the other of the lower surface of the lower portion of the foot and the upper surface of the floor plate has one or more protruding parts formed at said surface, each protruding part being positioned and shaped to engage with a cooperative aperture and thereby locate securely locate the post in the floor plate.

The barrier support of the present invention is advantageous as it allows a post to be properly positioned on a floor plate without danger of misalignment and then be held in that position magnetically. This is achieved as a lower portion of the foot and an upper portion of the floor plate are cooperatively shaped such that the lower portion of the foot can fit into and/or over the upper portion of the floor plate.

One of the foot and the floor plate has apertures or recesses formed therein and the other of the foot and the floor plate has cooperatively positioned protrusions for locating in said apertures or recesses. An upper surface of the floor plate and a lower surface of the foot may be formed to be non-planar and interlocking. The foot may have an outer rim that extends around the floor plate when the post is positioned on the floor plate. In order for the post to be magnetically located on the floor plate it is necessary that one or more magnets are located in one of the lower portion of the foot and the floor plate. If magnets are located in only one of these components then it is necessary that the other component is formed of or has portions that are formed of a ferromagnetic material, such as steel plate, in order to allow the two components to be magnetically held together. If magnets are located in both components it is necessary that the magnets are positioned and located such that they attract correspondingly located magnets in the other component.

In embodiments of the invention one or more magnets may be located in the lower portion of the foot. In such embodiments it may be advantageous that the floor plate is formed of a ferromagnetic material, such as a ferromagnetic cast metal. In order to allow magnets to be securely located in the foot it may be preferable that the foot is formed of injection moulded plastic. This can allow the one or more magnets to be more easily located and held in position as they will not be magnetically attracted to the material of the foot. If the foot is formed of injection moulded plastic it is generally preferable that the one or more magnets are screwed or bolted in position in the foot. This can be achieved in any manner apparent to the person skilled in the art. For example, the foot may be moulded to have specific fixings in which magnets can be located and screwed or bolted in position. Screwing or bolting magnets in position in an injection moulded plastic foot has been found to be a more resilient and accurate construction than bonding magnets in a metal foot. In particular, in such barrier supports magnets can be better retained in the foot and can be more accurately located in the foot. If a foot is formed of injection moulded plastic it may have an upper metal covering in order to provide a better appearance when the barrier support is in use.

A barrier support according to the present invention may comprise substantially any number of magnets and those magnets can be provided in any suitable arrangement. In an embodiment of the invention the magnets are located in the foot and there are six or more magnets that are equally circumferentially spaced around the lower portion of the foot. Providing a larger number of magnets, in particular six or more, and equally circumferentially spacing the magnets around the lower portion of the foot can provide an excellent uniform attraction between the foot and the floor plate. As set out above, the barrier support of the present invention is advantageous in that a lower portion of the foot and an upper portion of the floor plate are cooperatively shaped such that post can be securely and accurately located on the floor plate without difficulty. In embodiments of the invention the floor plate has one or more apertures formed in an upper surface thereof; and the foot portion has one or more downwardly protruding parts formed at its lower surface, each downwardly protruding part being positioned and shaped to engage with a cooperative aperture and thereby locate securely locate the post in the floor plate. It may be preferable that the apertures are located in the floor plate and the protruding parts are formed at the lower part of the foot portion of the post in order to avoid the need to have upwardly protruding parts on the floor plate, which, as will be readily understood, can be disadvantageous if the floor plate is left in position without a post positioned thereon.

In order to allow a post to be easily located on a floor plate it may be advantageous that the, or each, aperture of the floor plate is chamfered at its upper edge(s) to allow easy location of the post in the floor plate. Providing the or each aperture with chamfered upper edge(s) means that the cooperatively formed protruding part(s) of the lower portion of the foot can be more easily engaged with the or each aperture but still allows the protruding part(s) to be accurately and securely located in the or each aperture. In embodiments of the invention the floor plate has a single aperture formed in an upper surface thereof and the foot portion has one downwardly protruding part. This provides a simple and robust construction that allows easy location of the post on the floor plate. In such embodiments it may be preferable that the floor plate has a single aperture that is circular and centrally located within the floor plate; and a lower portion of the foot has a single downwardly protruding part that is cylindrical and centrally located on a lower surface thereof. Providing both the aperture and the downwardly protruding part centrally in the floor plate and the lower portion of the foot respectively ensures that the post can be accurately located on the floor plate utilising a single aperture and corresponding downwardly protruding part. Further, making both the aperture and the downwardly protruding part circular allows for easier location of the post on the floor plate, avoiding the need for precise rotational alignment.

As precise rotational alignment of the post relative to the floor plate is not required if the aperture and the downwardly protruding part are both circular and centrally position, in such embodiments it is generally preferable that both the floor plate and the foot are circular and therefore rotationally symmetric. This is preferable as in such embodiments the rotational alignment of the post and the floor plate is not required.

In embodiments of the invention the lower portion of the foot has one or more apertures formed in an lower surface thereof; and the floor plate has one or more upwardly protruding parts formed at its upper surface, each upwardly protruding part being positioned and shaped to engage with a cooperative aperture and thereby locate securely locate the post in the floor plate. This may be advantageous in situations where the provision of upwardly protruding parts on an upper surface of the floor plate are not problematic. In such embodiments in order to allow a post to be easily located on a floor plate it may be advantageous that the, or each, aperture of the lower portion of the foot is chamfered at its lower edge(s) to allow easy location of the post in the floor plate. Providing the or each aperture with chamfered lower edge(s) means that the cooperatively formed protruding part(s) of the floor plate can be more easily engaged with the or each aperture but still allows the protruding part(s) to be accurately and securely located in the or each aperture.

In embodiments of the invention the lower portion of the foot has a single aperture formed in an lower surface thereof and the foot portion has one upwardly protruding part. This provides a simple and robust construction that allows easy location of the post on the floor plate. In such embodiments it may be preferable that the foot has a single aperture that is circular and centrally located within the lower portion of the foot; and a floor plate has a single upwardly protruding part that is cylindrical and centrally located on an upper surface thereof. Providing both the aperture and the upwardly protruding part centrally in the lower portion of the foot and the floor plate respectively ensures that the post can be accurately located on the floor plate utilising a single aperture and corresponding upwardly protruding part. Further, making both the aperture and the upwardly protruding part circular allows for easier location of the post on the floor plate, avoiding the need for precise rotational alignment.

As precise rotational alignment of the post relative to the floor plate is not required if the aperture and the upwardly protruding part are both circular and centrally position, in such embodiments it is generally preferable that both the floor plate and the foot are circular and therefore rotationally symmetric. This is preferable as in such embodiments the rotational alignment of the post and the floor plate is not required.

Generally in barrier supports according to the present invention it is preferable that the floor plate is not immediately visible to users of the queueing system. In order to achieve this it may be preferable that a lower surface of the foot is shaped to match an upper surface of floor plate such that when in use the foot completely covers but does not extend beyond the upper surface of the floor plate.

In embodiments where the lower surface of the foot is shaped to match an upper surface of the floor plate it may be advantageous that the foot has an outer downwardly extending rim shaped to extend around an outer circumference of the floor plate when the post is positioned on the floor plate such that the floor plate is not visible when the post is positioned thereon. This feature can provide a more pleasing appearance to the barrier support and can be a feature that allows accurate location of the foot on the floor plate. Further features and advantages of the present invention will be apparent from the embodiment of the invention that is shown in Figures 3 to 6 and is described below. Drawings

Figure 1 is a schematic of a post of a barrier support according to the prior art;

Figure 2 is a vertical cross-section of a barrier support according to the prior art;

Figure 3 is a vertical cross-section through a barrier support according to an embodiment of the present invention;

Figure 4 shows a floor plate of the barrier support of Figure 3;

Figure 5 shows a lower portion of a post of the barrier support of Figure 3; and

Figure 6 is a plan view of the lower end of the post of Figure 5. Details of a barrier support 1 according to an embodiment of the present invention are shown in Figures 3 to 6. The barrier support 1 of the Figures consists of a post 2 having a substantially cylindrical foot 4 formed at a lower end of an upright portion 3 and a floor plate 5. The upright portion 3 is bolted to the foot 4. The foot has an outer metal cover 7 surrounding an injection moulded plastic body 8. Six magnets 6 are bolted in position in the body 8. The magnets 6 are equally circumferentially spread around the body 8. The body 8 has a central cylindrical portion 9 that extends downwards from its lower surface. An upper end of the upright portion 3 has a cassette (not shown) attached thereto. The cassette contains a length of retractable webbing that can be attached to an adjoining barrier support 1 to form a queueing system.

The floor plate 5 is formed of steel plate. The floor plate 5 is substantially circular and has a circular central aperture 10 that is sized to match the cylindrical portion 9 of the body 8. In particular, the central aperture 10 is sized such that when the post 2 is positioned on the floor plate 5 the cylindrical portion 9 of the body 8 is located in the central aperture and this properly locates the post 2 on the floor plate 5 such that the post 2 cannot be moved horizontally with respect to the floor plate 5. In order to allow cylindrical potion 9 of the body 8 to be easily located in the central aperture 10, the upper edge 11 of the central aperture 10 is chamfered. The barrier support 1 can be used in the following manner. First, the floor plate 4 is positioned in an appropriate position on a floor and fixed in position. The post 2 is then positioned on top of the floor plate 4. This is done by positioning the central cylindrical portion 9 of the foot 4 in the central aperture 10 of the floor plate 4. The chamfered edge 11 of the central aperture allows the cylindrical portion 9 to be easily located in the central aperture 10. When placed in position the magnets 6 will act to hold the post 2 to the floor plate 4. The webbing can then be extended from the cassette of the upper portion 3 to an adjoining barrier support to form a queueing system. In this manner, a barrier support 1 for a queueing system can be easily, securely, and accurately located in position on a floor plate 4 and magnetically held in position on said floor plate 4.