The invention relates to brackets for attaching air guides to the shelves of open display refrigerators. The invention also relates to methods of forming such brackets.
Open display refrigerators are commonly used in retail environments, such as supermarkets, to store and display products, such as meat and dairy products, which must be kept at lower than ambient temperatures. The open front of such a refrigerator makes it easy for customers to view the products being displayed and to retrieve products they wish to purchase from the refrigerator.
This type of refrigerator has an air curtain, which is established by blowing cold air across the front of the refrigerator. The air curtain issues from an air outlet at the top of the refrigerator towards an air inlet at the bottom of the refrigerator. The air inlet recovers air from the air curtain and recirculates it to the air outlet via a cooling heat exchanger and fan.
Generally, it is intended that the air curtain follows a broadly linear path from the air outlet to the air inlet thereby preventing cold air in the refrigerator from mixing with warm air exterior to the refrigerator. However, such an air curtain is rather inefficient, in particular because the air curtain tends to spill out from the bottom of the refrigerator and warm air from the exterior becomes entrained into the air curtain. To ameliorate this problem of inefficiency, air guides fixed on the front edge of shelves in the refrigerator can be used to help constrain the air curtain within a desired region.
Some refrigerators include sloped shelves in order to better display the top surface of produce on the shelf, for example packets of meat. Where sloped shelves are used, it is common to use transparent risers with the shelves to prevent the displayed produce from sliding off the shelf. If the risers extend from an angled shelf such that a 90° angle is formed between the base of the riser and the shelf, the risers can extend into the air curtain, disrupting the flow of air. A known solution to this problem is to form the risers with an angled profile, such that an acute angle is formed between the base of the riser and the shelf and the risers extend vertically upwards. This prevents the riser from extending into the air curtain and disrupting the flow of air within the air curtain.
To work effectively, the air guides need to be in reasonably good alignment with an outer edge of the air curtain. Historically, this has been achieved by attaching the air guide to the edge of the shelf. However, where the shelves are sloped, such an arrangement can prevent shoppers from viewing produce on a shelf sited below the air guide.
In accordance with a first aspect of the invention, there is provided a bracket for attaching an air curtain guide to a refrigerator shelf, the bracket comprising: a first end having a surface for engagement with an edge of a refrigerator shelf; a second end for coupling to an air curtain guide; wherein the first end is connected to the second end by a continuous member, such that the first end is offset from the second end in a first direction.
The bracket may be made of a plastic or a metal. The bracket may be engaged to the edge of a refrigerator shelf by any means known to the person skilled in the art, including using screws, bolts, rivets and/or an adhesive. These attaching means may be separate to the bracket or may be integral to the bracket.
A riser may already be attached to the edge of a refrigerator shelf. In particular, the riser may be a riser comprising an angle. In this case, the bracket may be attached to the face of the riser, or may be attached to the shelf through, for example, one or more holes in the riser. In these scenarios, the bracket is still engaged with an edge of the refrigerator shelf, even though the bracket may be partially or wholly attached to the riser.
The surface for engagement with an edge of a refrigerator shelf may be flat. The surface may also comprise grooves or protrusions. The surface may also comprise a surface that conforms to the shape of the edge of the refrigerator shelf. For example, if the edge of the refrigerator comprises a convex curve, the bracket may comprise a concave surface.
The second may be coupled to an air curtain guide by any means known to the person skilled in the art, including using screws, bolts, rivets and/or an adhesive.
Offsetting the first end from the second end may include an offset wherein the first and second ends overlap. Alternatively offsetting the first end from the second end may include an offset wherein the first and second ends do not overlap. The offset may be achieved by forming the member in chicane or S-shape.
A technical advantage of offsetting the first end from the second end is that it allows an air guide to be positioned in reasonably good alignment with an outer edge of the air curtain, without preventing shoppers from viewing produce on a shelf sited below the air guide. This technical advantage arises as the offset of the bracket raises the air guide with respect to the edge of the shelf to which it is attached, thereby reducing the amount that the air guide impedes a user's field of view when viewing a lower shelf.
In some embodiments, the surface is disposed at an angle such that a first plane parallel to the surface would intersect the chord line or an extension of the chord line of a coupled air guide at a desired angle.
The chord line is an imaginary straight line joining the leading and the trailing edges of the air guide. The leading edge of the air guide may be defined as the edge of the air guide which first contacts air in an air flow. The leading edge of the air guide may also or alternatively be defined as the foremost edge of the air guide. The trailing edge may be defined as the edge opposite the leading edge.
The desired angle is the angle that, when in use, causes the bracket to hold the air guide in a position that is substantially parallel to an air curtain, such that the leading edge of the air guide is the edge upon which the air curtain impinges.
For example, if the edge of a refrigerator shelf is at an angle of 20° to an imaginary vertical line, then the angle of the surface will be at 20° to an imaginary vertical line. This is discussed further, with respect to
In some embodiments, the second end comprises first and second attachment clips, each for holding a respective one of a leading edge and a trailing edge of an air curtain guide and wherein a second plane projected through the first and second attachment clips intersects the first plane at a desired angle.
In some embodiments, the bracket further comprises a slot proximate the first end, and wherein the slot is angled such that it is parallel to the surface of the bracket for engagement with an edge of a refrigerator shelf.
Proximate means, for example, that the slot is closer to the first end than to the second end, but is not at the first end itself.
A technical advantage of a bracket comprising a slot that is angled such that it is parallel to the surface is that it enables the bracket to be used with angled risers. An angled riser comprises a first section and a second section, joined at an angle. The slot receives the first part of the riser, such that the second part of the riser extends parallel to the air curtain, when the bracket is in use.
In some embodiments, the bracket further comprises a slot proximate the first end, such that the slot is parallel to the chord line.
Proximate means, for example, that the slot is closer to the first end than to the second end, but is not at the first end itself.
A technical advantage of a bracket comprising a slot that is parallel to the chord line is that it enables the bracket to be used with risers with a rectangular cross-section. When used with a bracket comprising an angled surface and with an angled refrigerator shelf, the slot receives a part of the riser and the riser extends parallel to the air curtain, due to the angled surface of the bracket for engagement with an edge of a refrigerator shelf.
The slot may also be of any other angle, such that when a riser is received in the slot, the part of the riser that extends away from the bracket is broadly parallel to the air curtain of a refrigerator when the bracket is in use.
In some embodiments, the continuous member is in the form of a chicane or is broadly S-shaped.
The member is shaped such that, when the bracket is engaged with the edge of a refrigerator shelf, an air guide coupled at the second end of the bracket is parallel to the air curtain of the refrigerator. The member may be shaped to take the angle of the surface into account.
In some embodiments, the second end comprises at least one hole configured to receive a coupling member, the coupling member for coupling the air curtain guide to the second end.
The hole may be threaded. The coupling member may be means known to the person skilled in the art, including a screw, bolt, rivet, and/or one or more clips. The coupling member may also be threaded.
In some embodiments, the second end comprises at least one coupling member extending from the second end, the coupling member for coupling the air curtain guide to the bracket.
The coupling member may be means known to the person skilled in the art, including a screw, bolt, rivet, and/or one or more clips. The coupling member may be threaded and may be received in a threaded hole in the air guide.
In some embodiments, the desired angle is 10°, 15° or 20°.
In some embodiments, the bracket is attached to an air guide.
The bracket may be removeably attached to the air guide, alternatively the bracket may be integral to the air guide.
In some embodiments, the air guide is an aerofoil.
An aerofoil is a type of air guide that guides air in a specific manner. An aerofoil works by being situated in the air curtain of the refrigerator, with a portion of the air curtain flowing either side of the aerofoil. The aerofoil imparts a shape into the airflow and guides the airflow in a desired direction. The specific shape of the aerofoil causes a change in the direction of flow of the air curtain as it flows over the aerofoil. A typical design of aerofoil that can be used is a cambered aerofoil. This will usually be oriented with the leading edge uppermost and the cambered surface facing away from the interior space. An aerofoil is a shape that gives rise to lower pressures on one side (on the suction surface) compared with the other side (on the pressure surface) when placed in the air curtain.
In accordance with a second aspect of the invention, there is provided an open display refrigerator comprising: a refrigerated storage space, air in the refrigerated storage space being separated from air exterior to the open display refrigerator by an air curtain established by a fan which blows air towards an air outlet, air in the air curtain being recovered by an air inlet which recirculates the air from the air curtain into an air duct coupled to the air outlet; at least one angled shelf, such that a first edge of the shelf proximal the air curtain is lower than an opposite second edge of the shelf distal the air curtain; a bracket according to any one of the aforementioned embodiments, the bracket engaged at the first end with the first edge of the shelf; and an air curtain guide coupled to the second end of the bracket, the air curtain guide for guiding the flow of air within the air curtain.
In some embodiments, the desired angle is 10°, 15° or 20°.
In some embodiments, the air guide in the second aspect is an aerofoil.
An aerofoil is a type of air guide that guides air in a specific manner. An aerofoil works by being situated in the air curtain of the refrigerator, with a portion of the air curtain flowing either side of the aerofoil. The aerofoil imparts a shape into the airflow and guides the airflow in a desired direction. The specific shape of the aerofoil causes a change in the direction of flow of the air curtain as it flows over the aerofoil. A typical design of aerofoil that can be used is a cambered aerofoil. This will usually be oriented with the leading edge uppermost and the cambered surface facing away from the interior space. An aerofoil is a shape that gives rise to lower pressures on one side (on the suction surface) compared with the other side (on the pressure surface) when placed in the air curtain.
In accordance with a third aspect of the invention, there is provided a method of selecting an angle for the face of the bracket of the second aspect, comprising: measuring the angle of the edge of the shelf, wherein the angle of the edge of the shelf is measured with respect to an imaginary vertical line when the shelf is in use; and forming the surface of the bracket at the measured angle, with respect to the imaginary vertical line.
Embodiments of the invention will now be described with reference to the accompanying drawings, in which:
Number | Date | Country | Kind |
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1909707.0 | Jul 2019 | GB | national |
This application is a continuation of International Patent Application No. PCT/GB2020/051580, entitled “Bracket For Use With Open Display Refrigerators” and filed on Jul. 7, 2020, the entire contents of which are hereby incorporated by reference. International Patent Application No. PCT/GB2020/051580 claims priority to G.B. Application No. 1909707.0, entitled “Bracket For Use With Open Display Refrigerators” and filed on Jul. 5, 2019.
Number | Date | Country | |
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Parent | PCT/GB2020/051580 | Jul 2020 | US |
Child | 17569249 | US |