GB2611773A - Soap bar for soap dispenser - Google Patents

Abstract

A bar of soap is provided having a generally cuboid shape having a central hole 1101 running through the length of the bar from top to bottom surface to provide an axis of rotation; and which is intended for use with a soap grater. Dimensions of the soap hole are given and the hole may have a diameter of about 8mm and may have a volume of at most 15% that of the total bar. The hole may be parallel with the central axis of rotation of the soap dispenser and the soap bar may be chamfered or indented. A method of forming a bar of soap from a cuboid mould is also disclosed.

Description

SOAP BAR FOR SOAP DISPENSER

Field of the Invention

The present invention relates to a soap bar for use in a soap dispenser, and more particularly, where a dispenser receives the bar of soap and dispenses particles of soap resulting from the bar of soap being ground by a grinder located inside of the dispenser.

Background of the Invention

Solid soap bars are well known. However, they can be messy to use and are not ideal for communal situations.

Soap dispensers which dispense liquid detergent or soap are commonly used in communal situations. However, liquid detergent typically has a mass of 6 times as much as the equivalent amount of solid soap (largely due to the water content) which must be transported with a corresponding carbon footprint. It is also generally supplied in single use plastic containers, which have an environmental impact. Solid soap would be environmentally preferable.

Soap dispensers for receiving a bar of soap and for grinding the bar of soap to dispense particles of soap to a user, have been proposed.

For example, one such known dispenser uses a coil with spikes on it, to act as a grinder for a bar of soap that is inserted into the dispenser. The bar of soap is pushed down by a spring, and the coil turns in a circular motion to grate the bar of soap.

Another known dispenser uses a spring to push a bar of soap against a turning grater.

Solid soap is not the easiest material to work with and known proposed solid soap dispensers generally suffer from the disadvantage that the bar of soap is not grated evenly and accurately and not in a uniform manner, particularly as the soap wears or is exposed to moisture and accordingly have not achieved general acceptance.

Accordingly, the invention is aimed at still achieving the environmental benefits of using a solid bar of soap rather than liquid soap, but at the same time, improving the known dispensers which use a solid bar of soap.

In particular, the invention is aimed at creating a bar of soap which works very well in such a dispenser, and much better than if a conventional bar of soap were to be used.

Summary of the Invention

The present invention provides a bar of soap having a generally cuboid shape having a length, a thickness and a width, and having a hole running centrally through the length of the bar from a top surface to a bottom surface to provide an axis of rotation.

The use of a hole at the centre of the bar of soap helps greatly to reduce the mounding of soap that would occur if the hole were not present. Without the hole, the area at the very centre of the soap would not grate as the distance travelled against the grater at the very centre is insufficient to cause effective grating even with a coarser grater at the centre. This causes a mounding effect which resists the soap outside this area from making effective contact with the grater preventing the soap from being reliably grated as the material accumulates. This also results in an accumulation of soap at the centre of the bar, which can cause jamming of the dispenser elements, which in turn will prevent the remainder of the surface of the soap touching the grater, thus resulting in no soap particles being dispensed.

Preferably the hole has a volume which is at least 1% of the volume of the bar. Preferably the hole has a diameter of at least 5mm. This provides a hole of sufficient volume/size to ensure reliable centering. Desirably the hole volume is at least 5% of the bar volume. This helps ensure enough of a void to ensure that ground material does not cause a problem.

Preferably the hole has a volume which is no more than 15% of the volume of the bar.

Preferably the diameter is no more than 20mm. This ensures that there is an efficient provision of active soap for a given packing volume.

A useful range of effective centering and avoidance of problems with ground material coupled with packing efficiency is thus achieved with a volume in the range 1 to 15% preferably 5 to 12% of the bar volume and/or a diameter in the range 5 to 20mm, preferably? to 15mm, or about 10mm.

Preferably, the dimensions of the generally cuboid shape are in the range of about 50mm to 100mm tall by about 20mm to about 50mm thick by about 50mm to about 75mm wide. Although generally cuboid, the edges which rotate about the centre may be rounded and the face may be recessed or carry embossing. The term generally cuboid as used herein is preferably intended to encompass such forms with rounded or trimmed edges or corners or recesses or decorative features.

Particularly desirably dimensions are approximately 65 mm by 33 mm by 66.5 mm which provide a convenient dispensable quantity and packing size but the bar can also be in a range of such values 25% higher or lower.

Preferably, the diameter of the hole is in a range of approximately 5 mm to 20 mm.

Further preferably, the diameter of the hole is approximately 10 mm.

Preferably, the bar is adapted to work within a soap dispenser, such that the orientation of the central hole is parallel with the central axis of rotation of the soap 30 dispenser.

Preferably, the soap dispenser has two nipple protrusions, and the bar of soap is adapted such that the nipple protrusions fit inside of the top and bottom surfaces of the hole.

Preferably, the hole has elongated areas at the top and bottom surfaces.

Preferably, the volume of the hole is at least about 1% of the volume of the bar.

Preferably, the volume of the hole is no more than 15% of the volume of the bar.

Preferably, the volume of the hole is in the range of 2-10% of the volume of the bar.

Preferably, the hole has a surface area on the top and bottom surfaces which is approximately 15% of the surface area of each of the top and bottom surfaces of the bar, but this can vary between 10% and 20%.

Preferably, edges of the bar of soap are rounded, with an angle of approximately 15 to 20 degrees. Further preferably, the angle is approximately 16 degrees.

The rounded edges make holding the soap a more ergonomic and comfortable experience during the entire time that the bar of soap is being handled by a user, so from the time the bar is taken out of the packaging to the time it is inserted into the dispenser or used manually outside of a dispenser for washing hands. The rounded edges also help to reduce the chances of the rotating soap bar contacting the inside surfaces of the dispenser housing during operation of the dispenser.

Preferably, the bar of soap has indented sides, with an angle of indentation being within a range of 1.5 to 5.5 degrees. Preferably, the angle is about 3.5 degrees.

The indented sides allow for the user to securely, firmly, and comfortably hold the soap when removing it from its packaging and when inserting it into the soap dispenser. The indented sides also reduce the risk of the sides of the soap bar contacting the inside surfaces of the housing of the dispenser as the soap bar rotates during operation of the dispenser.

A bar of soap as above, makes the bar much easier to insert into the dispenser, and much easier to use manually outside of such a dispenser, because it is much easier to pick it up by hand and makes the bar of soap work much better in the dispenser.

The through hole may be of uniform diameter but optionally it may be (slightly) tapered. Preferably the hole has a taper. Preferably the taper results in the diameter at one end being no more than 2mm greater than the diameter at the other end or no more than about 20% different. This allows the bar to be formed by moulding around a tapered pin which can be more readily withdrawn but means the bar can be inserted either way up without affecting performance.

The invention also extends in another aspect to a method of forming a bar of soap comprising providing a generally cuboid mould having dimensions in the range of 20-50mm thick by 50-100mm long by 50-75mm wide from at least two mould halves, providing a removable tapered pin having a minimum diameter of at least 5mm and a maximum diameter of 20mm and no more than 75% of the thickness of the mould to extend centrally along the long axis of the mould, filling the mould with soap bar precursor material with the pin inserted, causing the soap bar to solidify, withdrawing the pin and opening the mould and ejecting the soap bar with a formed through hole.

Optional and preferred features of other aspects may be combined with the method aspect and vice versa.

Brief Description of the Drawings

Figure 1 is a diagram showing a soap dispenser housing, in which the bar of soap of the preferred embodiment is advantageously used; Figure 2 is a diagram showing the feeder legs element and the circular feeder element, which are to be inserted inside of the housing of Fig. 1; Figure 3 shows the overall feeder element of Fig. 2 inserted into the housing of Fig. 1; Figure 4 shows the handle which is located at the top of the housing of Fig. 1; Figure 5 shows the top surface of the feeder legs element; Figure 6 shows the insertion of a bar of soap into the housing; Figure 7 shows the grating element; Figure 8 shows the grating element inserted into the housing of Fig. 1; Figure 9 shows the bar of soap at the bottom of the dispenser, being ground into particles by the grater, according to a preferred embodiment of the present invention; Figure 10 shows the two nipples used to vertically align the bar of soap within the housing; Figure 11 shows a bar of soap, arranged to work with the dispenser, according to a preferred embodiment of the present invention; Figure 12 shows the bar of soap in cross section according to a preferred embodiment; Figure 13a shows a perspective view of the bar of soap with indented sides according to a preferred embodiment; and Fig. 13b shows a top view of the bar of soap of Fig. 13a.

Detailed Description of the Preferred Embodiments

Fig. 1 shows a soap dispenser housing 100 for receiving at least one bar of soap which is to be ground into fine particles by the dispenser.

As shown in Fig 1, a door 101 is provided for covering the front opening of the dispenser, and when the door is in the open position, at least one bar of soap can be inserted into the opening.

The inside wall 102 of the housing of Fig. 1 is provided with threads, arranged in a diagonal orientation so that they slope downwards. The threads can be located, for example, on the inside wal1103 of the door and on the back inside wall of the housing 15 102.

As shown in Fig. 2a, an element 201 having two parallel vertical legs (201a, 201b) is provided for insertion inside of the housing of Fig. 1, in the below description, this will be called the feeder legs element 201. A circular feeder element 202 which is a ring-shaped element with a flat undersurface 202c (shown in Fig. 2b) engages with the feeder legs element 201 such that the vertical legs 201a, 201b of the feeder legs element 201 fit into the holes 202a, 202b (shown in Fig. 2b) in the circular feeder element, so that when the feeder legs element 201 rotates, the circular feeder element 202 also rotates. This circular feeder element 202 has threads 203 on it, with the threads running in the circumferential direction of the circular ring, as shown in Fig. 2a.

This overall feeder element, the combination of the feeder legs element and the circular feeder element, slides into the housing of Fig. 1, such that the threads of the circular feeder element 202 engage with the threads on the inside walls of the housing. Fig. 3 shows the overall feeder element of Fig. 2a inserted into the housing of Fig. 1. It should be noted that the user does not generally completely remove the combination of the feeder legs element and the circular feeder element from the housing, and instead the user moves forward the combination of the feeder legs element and the circular feeder element to a position slightly outside of the housing, to disengage the threads on the circular feeder element from the threads of the housing. This allows the user to easily load a bar of soap into the housing of the dispenser. Finger grips (indentations) can be formed in the side of the feeder legs element, to facilitate the user moving forward the feeder assembly as just described.

The housing of Fig. 1 has a handle 104 on top, which can be turned by hand. In an alternative embodiment, it can also be turned by a motor under battery operated (or plug in to the mains electricity supply) control. This handle, as shown in Fig. 4, has an elongated protrusion 401 of a size that fits into indentation 204 on the top surface of the feeder legs element as shown in Fig. 5.

As shown in Fig. 6, when the door of the housing is open, a user inserts at least one bar of soap into the space between the two parallel vertical legs of the feeder legs element.

A grating element 701, shown in Fig. 7 is used to grate the bar of soap. This grating element is inserted into the bottom of the dispenser, during production of the soap dispenser, as shown in Fig. 8. In the preferred embodiment, it is not intended to be removable by the user.

In operation of the soap dispenser, the user turns the handle 104 at the top of the dispenser and this turning motion turns the feeder legs element 201 because the elongated protrusion 401 in the handle is forced against the indentation 204 on the top surface of the feeder legs element 201, by the turning action of the handle 104, causing the feeder legs element 201 to rotate.

The rotating of the feeder legs element 201 also rotates the circular feeder element 202, as was described above. The threads 203 of the circular feeder element engage with the threads on the inside surface of the dispenser housing, to direct the circular feeder element 202 downwards towards the bottom of the housing towards the grater 701, along the path of the threads. The circular feeder element 202 rotates around the inside of the housing in a circular motion, guided by the threads.

The bar of soap (or a plurality of bars of soap, stacked one on top of the other), then is forced downwards (because it is being pushed downwards by the flat undersurface 202c (of Fig. 2b) of the circular feeder element 202) whilst being rotated by the rotation of the circular feeder element 202.

The bar of soap eventually reaches the grater 701, and the bottom surface of the bar of soap is then evenly grated by the grater, such that fine particles of soap are then ejected from the bottom of the dispenser, as shown in Fig. 9.

As shown in Fig. 10, there are two nipples (or protrusions), one nipple 1001 at the centre of the top surface of the grater 701, and the other nipple 1002 at the centre of the undersurface 202c of the circular feeder element 202 to hold the bar of soap into position to maintain its alignment during motion within the dispenser. This ensures that a maximum surface of the soap contacts the grater, to stop the bar of soap from sliding out of position. For example, this stops the bar of soap from getting caught in the threads at the back wall of the dispenser or on the inside door.

This arrangement helps to guide the bar of soap in an accurate manner towards the grater.

The use of the threads, and the movement of the circular feeder element along the threads, and the use of the feeder legs element to provide rotation from the handle, helps to guide the bar of soap down towards the grater in a very even, uniform, manner, to make maximum use of the bar of soap in creating fine particles for washing.

According to a preferred embodiment of the present invention, Figure 11 shows a bar of soap which is arranged to work well with the dispenser described above.

As shown in Fig. 11, preferably, the bar of soap has a central hole 1101 running from top surface of the bar of soap to the bottom surface thereof, of approximately 1/28 th of the volume of the bar of soap and represents approximately 15% of the surface area of each of the top and bottom surfaces of the bar of soap.

In the preferred embodiment, the dimensions of the cuboid bar of soap are approximately 64 mm by 64 mm by 33 mm and the diameter of the hole is 8 mm (but these dimensions can also vary within a range of 20% higher or lower than these stated values). The hole preferably runs through the whole length of the soap bar.

When the soap bar is inserted into the dispenser, the hole is oriented parallel with the central axis of rotation of the dispenser. Alternatively, the bar of soap is 66.5 mm x 65mm x 33mm, with an 10 mm diameter hole.

This central hole is shown in cross-section in Fig. 12. As shown in Fig. 12, the hole is preferably not a straight hole but instead is elongated at the top and bottom (see the elongated areas 1201). These elongated areas 1201 helps to make the bar of soap self-righting on the nipple at the centre of the grating of the dispenser as well as to the nipple on the underside of the circular feeder element, keeping the soap from gathering inside the thread on the inside of the dispenser wall and the inside of the door.

The use of a hole at the centre of the bar of soap helps greatly to reduce the mounding of soap that would occur if the hole were not present. Without the hole, the area at the very centre of the soap would not grate as it does not rotate against the grater at the very centre, this causes a mounding effect which would prevent the soap outside this area from making contact with the grater preventing the soap from being grated. This also results in an accumulation of soap at the centre of the bar, which can cause jamming of the dispenser elements, which in turn will prevent the remainder of the surface of the soap touching the grater, thus resulting in no soap particles being dispensed.

The size of the diameter could be altered within a range between 5 mm and 20 mm. For a 5mm diameter, and assuming a bar of soap of 66mm x 65mm x 33mm, and the central hole running in the 66mm direction, the volume of the hole is approximately 1/111th of the total volume of the bar of soap. For a 20mm diameter, the volume of the hole is approximately 1/7th of the total volume of the bar of soap. The range of proportions of the volumes of the hole to the volume of the bar of soap is preferably between 1% to 15%. Preferably, this should be at least about 1% and should be no more than 15%. A further preferred range is 2% to 10%. If the diameter of the hole is too small, the soap around the edge of the hole will not be positioned above the grating surface, and this results in the mounding effect described above. However, if the hole is too large, the bar of soap won't fit securely on the nipples, and it would also call into question the integrity of the overall bar of soap, as the bar of soap could split from the hole to the outer edge of the bar or break apart altogether.

As shown in Figs. 11 and 12, the edges of the bar of soap can be rounded, with an angle of approximately 15 to 20%, preferably 16%. This angle is the angle between, for example, a horizontal line extending along the bottom of the bar of soap in Fig. 12, and such horizontal line continuing to extend to the left beyond the left bottom edge of the bar of soap, and an inclined line which contacts the horizontal line at the point where the horizontal line begins to extend beyond the corner of the bar of soap, the inclined line going off at the angle mentioned above and tangentially contacting the bottom left rounded corner of the bar of soap.

The rounded edges make holding the soap a more ergonomic and comfortable experience during the entire time that the bar of soap is being handled by a user, so from the time the bar is taken out of the packaging to the time it is inserted into the dispenser or used manually outside of a dispenser for washing hands. The rounded edges also help to reduce the chances of the rotating soap bar contacting the inside surfaces of the dispenser housing during operation of the dispenser.

As shown in Fig. 13a and Fig. 13b, the bar of soap can have indented sides, with an angle of indentation being preferably about 3.5 degrees (shown in the Figure 13b as being 3.47 degrees), but which could be within a range of 1.5 to 5.5 degrees.

The indented sides allow for the user to securely, firmly, and comfortably hold the soap when removing it from its packaging and when inserting it into the soap dispenser. The indented sides also reduce the risk of the sides of the soap bar contacting the inside surfaces of the housing of the dispenser as the soap bar rotates during operation of the dispenser.

A bar of soap designed to these new specifications make the bar much easier to insert into the dispenser, and much easier to use manually outside of such a dispenser, because it is much easier to pick it up by hand and makes the bar of soap work much better in the dispenser, as described above.

The bar of soap may be made of any materials traditionally used in soap making, such as fat and alkali (the alkali most common used is sodium hydroxide or potassium hydroxide).

Claims (16)

1. Claims 1. A bar of soap having a generally cuboid shape having a length, a thickness and a width and having a hole running centrally through the length of the bar from a top surface to a bottom surface to define an axis of rotation.
2. 2. A bar according to Claim 1 wherein the hole has a volume which is at least about 1% of the volume of the bar, preferably at least about 5%.
3. 3. A bar according to Claim 1 or 2 wherein the hole has a diameter of at least about 5mm, preferably at least about 8mm.
4. 4. A bar according to any preceding claim wherein the hole has a volume of at most 15% of the volume of the bar.
5. 5. A bar according to any preceding claim wherein the hole has a diameter of at most about 20mm, preferably at most about 15mm.
6. 6. The bar of soap of claim 1, wherein the generally cuboid shape has a length in the range of 55 to 85mm, a width in the range of 50 to 75mm and a thickness in the range of 20 to 45mm.
7. 7. The bar of soap of claim 3, wherein the diameter of the hole is approximately 10 mm.
8. 8. The bar of soap of any preceding claim, wherein the bar is adapted to work within a soap dispenser, such that the orientation of the central hole is parallel with the central axis of rotation of the soap dispenser.
9. 9. The bar of soap of claim 8, wherein the soap dispenser has two nipple protrusions, and the bar of soap is adapted such that the nipple protrusions fit inside of the top and bottom surfaces of the hole.
10. 10. The bar of soap of any preceding claim, wherein the hole is flared outwardly on at least one of the top and bottom surfaces.
11. 11. The bar of soap of any preceding claim, wherein the edges of the bar of soap are rounded or chamfered.
12. 12. The bar of soap of any preceding claim, wherein the bar of soap has indented sides. 10
13. 13. The bar of soap of any preceding claim, wherein the volume of the hole is in the range of 2-10% of the volume of the bar.
14. 14. The bar of soap of any preceding claim, wherein the hole has a surface area on the top and bottom surfaces which is approximately 15% of the surface area of each of the top and bottom surfaces of the bar, but this can vary between 10% and 20%.
15. 15. A method of forming a bar of soap comprising providing a generally cuboid mould having dimensions in the range of 20-50mm thick by 50-100mm long by 50-75mm wide from at least two mould halves, providing a removable tapered pin having a minimum diameter of at least 5mm and a maximum diameter of 20mm and no more than 75% of the thickness of the mould to extend centrally along the long axis of the mould, filling the mould with soap bar precursor material with the pin inserted, causing the soap bar to solidify, withdrawing the pin and opening the mould and ejecting the soap bar with a formed through hole.
16. 16. A method of forming a bar of soap according to Claim 15 for forming a bar according to any of Claims 1 to 14. 30