GB2551136B - Modular pusher system - Google Patents

Description

TITLE

Modular Pusher System

DESCRIPTION

Field of Invention

The present invention relates to a self-facing merchandise pusher system suitable for use in presenting products on shelves in retail Stores. The system of the present invention is modular and can be fitted to existing shelving units of substantially any size.

Background of Invention

Products in many retail Stores are presented to the customer on shelves. In order to present the products in a neat manner and to create the look of a well-stocked store products are usually faced. Facing involves positioning all of the products at the front of the shelves in a neat and organised manner.

Facing can be done manually by staff but this is tedious and laborious. Therefore, it can be preferable that automatic pusher systems are used. Pusher systems typically use a spring-urged pusher positioned behind the products to push them towards the front ofthe shelf. Typically, each pusher is positioned between dividers that keep each product in the proper alignment Pushers typically push products towards the front of a shelf by means of spring action. For example, a pusher may have a spring formed between a rear face and a back of a shelf.

Many currently available pusher systems are permanent and require installation by a properly trained instai ler. There are few, if any, reliable pusher systems that can be easily installed on existing shelving units in a simple manner. Further, many currently available pusher systems are of fixed sizes and can only be used with specific products.

In light of the above, there is a need for an improved pusher system that can be installed and removed easily on existing shelving units and that can be used with a variety of products, as determined by the requirements of the retail store in which they are used.

Summary of Invention T he present i nventi on provi des a modular pusher system for faci ng products on a shelf, the system comprising: a plurality of dividers each having a front end and a rear end; at least one pusher havi ng a spring means for biasing the pusher towards a front edge of a shelf; a back rail having mounting means for holding rear ends of the dividers and that is mountable on an upper side of a shelf in a position that is parallel to a front edge of the shelf and at a distance from the front edge of the shelf; and a separate front retai ner for each of the pl ural ity of divi ders for retai ni ng products at the front edge of a shelf, each front retai ner is formed to be mounted and hei d i n positi on i n a sl ot i n a front edge of a shelf; wherein when the system is constructed on a shelf: each front retai ner is mounted at the front edge of the shelf to extend upwardly from the front edge; the back rail is mounted on an upper surface of a shelf in a position that is paral I el to a front edge of the shelf and at a di stance from the front end of the shelf; each divider is mounted at its front end to a separate front retai ner and at its rear end to the back rail; and each pusher is mounted on the upper side of the shelf between two dividers and is biased towards the front edge of the shelf by its spring means; such that products can be positioned on the shelf in at least one channel formed between adjacent dividers and between a pusher and front retai ners to be thereby faced on a shelf.

The pusher system of the present invention is advantageous in that it is a modular system that can be easily retrofitted on existing shelving units. It can be mounted on existing shel vi ng units or individual shelves of substantially any size in a simple manner. This can be achieved by providing components of different sizes, for example dividers and back rails of different lengths. The system does not require specially constructed shelves. Further, the system of the present invention can be easily constructed and removed as and when is required.

The system of the present invention can be used with products of a variety of sizes.

As discussed below this can be achieved by mounting the dividers and front retainers at different spacings, by providing pushers of different sizes or widths, and/or by providing components of different sizes.

The system ofthe present invention maybe mounted on a shelf in the following manner. The front retainers are mounted at a front edge of a shelf and the back rail is mounted on the shelf in a position parallel to the front edge of the shelf and at a distance from the front edge of the shelf. The back rail and the front retainers may be mounted in any manner apparent to a person skilled in the art. Preferably the back rail and the front rail are removably mounted but in some embodiments of the invention they may be permanently mounted.

After mounting the front retainers and the back rail the dividers are each mounted between a front retainer and a back rail. A front end of each divider is mounted to a front retainer and a rear end of each divider is mounted to the back rail. The dividers are mounted to be parallel to one another and to be perpendicular to the front edge of the shelf and the back rail. In this manner channels extending back from the front edge of the shelf are formed between adjacent dividers. The channels are perpendicular to the front edge of the shelf and the back rail. The width of the channels can be controlled by positioning the dividers and the front retainers appropriately. The dividers may be mounted to the front retainers and the back rail in any manner apparent to a person skilled in the art. A pusher is mounted in each channel such that it is biased towards the front edge of the shelf by its spring means. Finally, products can be placed in the channels between the pusher and the front retainers. The front retainers are formed to hold the products in position adjacent the front edge of the shelf but to allow the products to be easily removed from the shelf by a consumer. When a product is removed from a channel the pusher acts to push the remaini ng products in the channel to the front of the channel and thereby faces the products. U nless components are permanently mounted to the shelf, a system accordi ng to the present invention can be removed from a shelf by reversing the above-procedure.

The system of the present invention may further comprise a low-friction glide mat for positioning on the upper surface of the shelf wherein when the system is constructed on a shelf the glide mat is positioned between the upper surface of the shelf and the other components of the system. A low-friction glide mat may be advantageous i n that it can allow both the pusher and products positioned in the channels of the system to be more easily slid along the shelf as they only need slide along a low-friction surface, rather than the upper surface of the shelf. A low-friction glide mat may be formed of any appropriate material and in any manner that provides a mat with a low-friction upper surface. For example, the mat may have a PT FE coated upper surface. A glide mat according to the present invention may have an upper surface with a coefficient of friction of less than 0.3. More preferably, a glide mat according to the present invention will have an upper surface with a coefficient of friction of less than 0.15. A glide mat may be permanently mounted on the upper surface of the shelf. However, as for the other components of the system it is preferable that the glide mat is removabl e. A gl i de mat may be hei d i n posi ti on on a shel f at a front edge by the front retainers and at a rear edge by the back rail. The glide may be further held in position by the dividers and the pushers when they are appropriately mounted. A glide mat of the present invention may comprise longitudinal channels formed on an upper surface and oriented to extend parallel to the dividers and channels of the system this can reduce the surface area of the mat that is contact with products positioned in the channels and thereby reduce the force required to push the products to the front of the channel. As these channels are parallel to the direction in which products are pushed they should make facing products to the front edge of the shelf easier. If the glide mat has longitudinal channels formed on an upper surface in this manner then a lower surface of each pusher may have cooperatively formed longitudinal channels to help maintain the pushers in the correct orientation within each channel. In particular, forming the pusher and the glide mat with cooperative longitudinal channels can prevent the pusher from twisting within a channel as it is pushed towards the front of a channel. A further advantage of forming longitudinal channels in an upper surface of the glide mat is that the channels can be used to position a lower edge of the dividers and thereby maintain the dividers in the correct position.

The back rail of the present invention may comprise magnetic mounting means for mounting the rail on an upper side of a shelf. This is appropriate if the shelf is formed of magnetic materiais or has magnetic components that allow such mounting. If the back rail comprises magnetic mounting means then a glide mat may be positioned between the back rail and the shelf when the system is in use and held in position by the magneti c mounti ng of the back rai I on the shelf.

The dividers of the present invention may be mounted in the back rail in any manner apparent to the person skilled in the art In some embodiments of the invention the back rail may comprise a plurality of slots formed therein for mounting a cooperative rear portion of the dividers. Slots may be provided at any suitable intervals that allow channels of appropriate widths to be formed between adjacent dividers. Slots may be provided at regular intervals at a spacing from 2mm to 5mm thereby allowing channels to be formed of widths equal to mui ti pies of these intervals. For example, if slots are provided at 3mm intervals than the width of the channels can be adjusted by mui ti pl es of 3mm as requi red.

The dividers of the present invention may be formed of any suitable material. In embodiments ofthe present invention the dividers may be formed of sheet metal.

The spring means of the pusher may be substantially any means suitable for biasing the pusher towards the front retainers whilst still allowing products to be positioned between the pusher and the front retainers. The spring means may be a variable force spring that is attached at an outer end to either a front retai ner or at or near a front end of a divider and that is attached at an inner end to the pusher.

The pusher may further comprise a removable plate formed on a front side to allow the pusher to better push products to the front of a channel. A removable plate may be required to push particularly tail or large items such that a pushing force is provided over a sufficient area of the product to push it forward whilst maintaining it in the correct orientation relative to a shelf. For example, a removable plate may be particularly useful for tail products that otherwise might fali over if they were only pushed at a lower portion.

The front retainers of the present invention act to hold the dividers in position and thereby form the channels in which products can be positioned. They also act to hold the products in position at the front edge of the shelf and prevent them being pushed off the shelf. They are also formed to allow customers to remove products from the shelf without difficulty.

In order to allow customers to view products in the system of the present invention it may be advantageous that each front retainer is substantially formed of a transparent material such as a transparent polymer. It may also be advantageous that each front retainer is substantially formed as a unitary injection moulded component

As set out above, the front retainers may be mounted to the front edge of a shelf in any manner apparent to a person skilled in the art. The front retainers are formed to be mounted to the front edge of a shelf without the need for additional fixing means, such as a secondary rail system In order to allow this the front retainers are formed to be mounted and held in position in a slot formed in a front edge of a shelf. This can be achieved by forming each front retainer with a cooperatively sized vertical mounting plate that can be positioned in a slot in a front edge of a shelf. In order to securely hold the front retai ner in position in a slot the mounting plate may be provided with fixing means such as a plurality of resilient gri ppi ng ri dges on one or both si des of the mounti ng pl ate. F ront retai ners formed i n thi s manner wi 11 be resi I i ently but removably hei d i n a sl ot formed i n a front edge of a shelf. Many existing retail shelving units are formed with suitable slots in their front edges, for example to allow positioning of product labelling.

The front end of a dividers may be mounted to a front retai ner in any suitable manner. Preferably a divider will be fixed to a front retai ner in a secure but removable manner i.e. a manner that securely holds the dividerin position but that still allows the divider to be removed from the front-retai ner when required. In order to achieve this it may be preferabl e that each front retai ner has a verti cal ly ori ented sl ot for mounti ng a front end of a divider therein. A divider may be cooperatively formed to engage with a slot in a front retai ner.

In order for a divider to be held in a slot of a divider in a resilient manner it may be preferable that the vertically oriented slot and/or the front end of each of the dividers comprises I ocki ng means for I ocki ng the front of the divi der i n positi on withi n the slot Suitable locking means may comprise a resilient tab formed on one of the front end of the divider or the vertically oriented slot and a cooperating formed recess formed on the other of the front end of the divider and the vertically oriented slot Preferably any locking means will be temporary such that a divider may be capable of bei ng removed from a front retai ner when requi red.

The pushers of the present invention may be mounted as part of the system in any suitable manner. It may be preferable that the pushers are mounted to one or both adjacent dividers in order to hold them in position and to ensure they move along a channel smoothly. In order to achieve this each pusher and each divider maybe formed such that a pusher can be cooperatively mounted in a divider such that the pusher is movable between the rear end and the front end of the divider. A pusher and a divider may be cooperatively mounted in any manner apparent to a person skilled in the art, for example each divider may have a longitudinal aperture extending substantially from a front end to a rear end for mounting a cooperatively formed protrusion of the pusher therein. In this manner the protrusion of the pusher may be slotted i n the longitudi nal aperture of the divider to al low the pusher to move longitudinally relative to the divider but to prevent movement in all other directions. If a pusher is mounted to a divider in this manner it may be further preferable that the spring means of the pusher is a variable force spring that is fixable at an outer end to a front end of a divider to thereby bias the pusher along the slot towards the front end of the divider. F eatures and advantages of the present i nventi on wi 11 be apparent from the preferred embodi ment that is i 11 ustrated i n the drawi ngs and that is descri bed bel ow.

Drawings

Figure 1 is an exploded view of part of a system according to an embodiment of the present invention;

Figure 2 is an isometric view ofthe front retainer of Figure 1;

Figure 3 is an isometric view ofthe pusher of Figure 1;

Figure 4 is an isometric view ofthe back rail of Figure 1;

Figure 5 is a side view of the divider of Figure 1; and

Figure 6 is a three dimensional view ofthe system of Figure 1 in position on an upper surface of a shelf.

Part of an embodi ment of a modul ar pusher system accordi ng to the present i nventi on is shown in Figure 1. The part of the system shown in the Figure comprises a front retainer 1, a pusher 2, a back rail 3, and a divider 4. These components are shown individually in Figures 2 to 5. The complete system mounted in position on an upper side of a shelf is shown in Figure 6. The system is used to position and products (not shown), i.e. to face products, on a shelf. As shown in Figure 6, when in use the system comprises a plurality of front retainers 1, pushers 2, and dividers 4 and a glide mat 5. For simplicity, Figure 1 shows only a single front retainer 1, pusher 2, and divider 4 and omits the gl i de mat 5.

The front retainer 1 is substantially formed as a unitary injection moulded component of transparent polymer. The front retainer 1 has a vertically oriented mounting plate 10 formed at a front side for mounting the front retainer in a slot formed at a front edge of a shelf. The mounting plate 10 has a plurality of resilient gripping means 11 formed on each side to hold the mounting plate 10 firmly in position in the slot. The front retainer 1 has vertical front retaining plates 12, 13 that are formed above and substantially parallel to the mounting plate 10. When in use, the retaining plates 12, 13 act to hold products in position at the front edge of the shelf until removed by a consumer. The retaining plates 12,13 extend to approximately 40% of the height of a divider 4 mounted in the front retainer 1. The front retainer further comprises a vertical orientated slot 14 for holding a divider 4. The slot 14 extends perpendicular to the mounting plate 10 and the retaining plates 12, 13 and comprises a resilient tab 15 for locking a divider in position 4. The front retainer 1 further comprises a horizontally extending portion 16 that extends over a front portion of the shelf when the retainer is positioned in the shelf to hold the glide mat 5 in position on the shelf. T he horizontal ly extendi ng porti on 16 is formed at an upper end of the mounti ng plate 10 and at a I ower end of the retai ni ng plates 12,13 and the si ot 14. A pusher 2 is shown in Figure 3. The pusher 2 has a vertical pushing face 20 at a front side and a mounting protrusion 21 at a first side. A lower side 22 of the pusher 2 is formed to sit on the glide mat 5 between adjacent dividers 4 and allow the pusher to be pulled along the glide mat 5. The pusher 2 is mounted in an adjacent divider 4 by means of the mounting protrusion 21 being mounted in a longitudinally extending slot 41 formed in the divider. The pusher 2 is biased towards a front end of the system by means of a variable force spring 23 that can be seen in Figure 1. An outer end of the spring 23 is fixed to a divider 4 adjacent a front end of the divider. An inner end of the variable force spri ng 23 is mounted to the pusher 2. A back rail 3 is shown in Figure 4. The back rail 3 consists of a bar having a plurality of mounting slots 30 formed therein. The back rail 4 is magnetic in order to hold it in position on a metal shelf. When in use the back rail 3 has a plurality of dividers 4 mounted therei n. In particular, a rear end of each divider 4 is mounted in the back rail 3 by means of a rear fixing protrusion 43 (see below) being positioned in a mounting slot 30 of the back rail 3. This further acts to hold the back rail 3 in position. A divider 4 is shown in Figure 5. The divider 4 is formed of sheet metal and has a longitudinal slot 41 formed between a front end and a rear end. A front fixing protrusi on 42 i s formed at the front end for mounti ng the divi der 4 i n a front retai ner 1. A rear fixing protrusion 43 is formed at the rear end of the divider 4 for mounting the divider in the back rail 3. The front and rear fixing protrusions 42, 43, each have an aperture 44 formed therein to allow the divider 4 to be fixed in position in a front retai ner 1 and the back rail 3 by means of resilient tabs 15 formed therein. When in use, the front fixing protrusion 42 is positioned in the vertically oriented slot 14 of a front retaíning means and the resilient tab 15 is positioned in the aperture 44 of the front fixing protrusion 42. Similarly, the rear fixing protrusion 43 is positioned in a slot 30 formed in the back rail and the resilient tab (not shown) is positioned in the aperture 44 of the rear fixing protrusion 43.

The system comprises a glide mat 5 this is mounted on the upper surface of the shelf and i s hei d i n positi on by the front retai ners 1 and the back rai I 3. T he gl i de mat has a I ow-fri cti on upper surface that al I ows products and pushers 2 to sl i de easi ly. T he gl i de mat 5 has a plurality of longitudinal grooves 50 formed in its upper surface to further reduce its friction and to help hold the divi ders 4 in position. T he complete setup of the system is shown i n Figure 6. As can be seen, channels for positioning products are formed between adjacent dividers 4. Products are held at a front of these channels by the retaíning plates 12, 13 of the front retai ners 1 and are urged towards the front of the channels by the pushers 3, which are biased towards the front of the channels. As the front retai ners 1 are transparent products in the channels can be seen easily. The low-friction glide mat 5 forms the lower surface ofthe channels upon which the products sit. This allows the products to be slid towards the front of the channels easi ly.

The dividers 4 can be positioned at different widths by appropriately positioning the front retainers 1 in the shelf and by mounting the dividers in the appropriate slots formed in the back rail 3. Dividers 4 of different lengths can be provided to accommodate shelves of different depths. For larger channels an additional front pi ate can be provided on a front face of the pusher 2.

The system of the Figures can be mounted on a shelf in the following manner. First, the glide mat 5 is positioned on an upper surface of a shelf. Then the front retainers 1 are si otted i nto a front edge of the shelf and hol d a front edge of the gl i de mat 5 i n position. The back rail 3 is then positioned adjacent a rear edge of the shelf and is magnetically held in position. This holds the rear edge of the glide mat 5 in position. Next the dividers 4 are mounted in the front retainers 1 and the back rail 3 to form the channels. The dividers 4 may be mounted in position with the pushers 2 already attached or the pushers may be attached to the dividers 4 after they are mounted. Once the pushers are mounted in the dividers 4 products may be positioned on the shelf within the channels and the system will act to face those products on the shelf. The system can be removed from a shelf by reversing this procedure.

Claims (11)

1. A modular pusher system for facing products on a shelf, the system comprising: a plurality of dividers each having a front end and a rear end; at least one pusher having a spring means for biasing the pusher towards a front edge of a shelf; a back rail having mounting means for holding rear ends of the dividers and that is mountable on an upper side of a shelf in a position that is parallel to a front edge of the shelf and at a distance from the front edge of the shelf; and a separate front retai ner for each of the pi ural ity of divi ders for retai ni ng products at the front edge of a shelf, each front retai ner is formed to be mounted and hei d i n positi on i n a si ot i n a front edge of a shelf; wherein when the system is constructed on a shelf: each front retai ner is mounted at the front edge of the shelf to extend upwardly from the front edge; the back rail is mounted on an upper surface of a shelf in a position that is paral I ei to a front edge of the shelf and at a di stance from the front end of the shelf; each divider is mounted at its front end to a separate front retai ner and at its rear end to the back rail; and each pusher is mounted on the upper side of the shelf between two dividers and is biased towards the front edge of the shelf by its spring means; such that products can be positioned on the shelf in at least one channel formed between adjacent dividers and between a pusher and front retainers to be thereby faced on a shelf. 2 A modular pusher system according to claim 1 further comprising a low-friction glide mat for positioning on the upper surface of the shelf wherein when the system is constructed on a shelf the glide mat is positioned between the upper surface of the shelf and the other components of the system

3. A modular pusher system according to claim 2, wherein the glide mat is hei d i n positi on at a front edge by the front retai ners and at a rear edge by the back rai I.

4. A system according to any preceding claim, wherein the back rail has magneti c mounti ng means for mounti ng the rai I on the upper si de of the shelf.

5. A system according to any preceding claim wherein the mounting means of the back rail comprises a plurality of si ots formed therein;

6. A system according to claim 5, wherein the si ots are formed at regular intervals along a length of the back rail.

7. A system according to claim 6, wherein the regular intervals are from 2mm to 5mm.

8. A system according to any preceding claim wherein the spring means of the pusher i s a vari abl e force spri ng.

9. A system according to any preceding claim wherein the pusher further comprises a removable plate formed on a front side. 1Q A system according to any preceding claim wherein each front retainer is formed of a transparent material.

11. A system according to any preceding claim wherein each front retainer is a one-piece injection moulded component. 12 A system according to any preceding claim, wherein each front retainer comprises a vertically extending front plate for mounting in the slot in the front edge of the shelf, the front plate having flexible gripping means formed thereon to hold the retai ner i n posi ti on i n the si ot. Η A system according to any preceding means wherein each front retainer has a verti cal ly oriented si ot for mounti ng a front of a divi der.

14. A system according to claim 13 wherein the vertical ly oriented slot and/or the front end of each of the dividers comprises locking means for locking the front of the divider in position withinthe slot 16 A system according to claim 14, wherein the locking means comprises a resilient tab formed on one of the front end of the divider or the vertical ly oriented slot and a cooperating formed recess formed on the other of the front end of the divider and the verti cal ly oriented slot. 16 A system according to any preceding claim wherein each pusher and each divider are formed such that a pusher can be cooperatively mounted in a divider such that the pusher is movable between the rear end and the front end of the divider.

17. A system according to claim 16, wherein each divider has a longitudinal aperture extending substantial ly from a front end to a rear end for mounti ng a cooperatively formed protrusion of the pusher therei n. 1& A system according to any preceding claim wherein the spring means of each pusher is a variable force spri ng that is fixable at an outer end to either a front retai ner or a front end of a divider.